id	sid	tid	token	lemma	pos
work_hwk64j4prjebfojdv2ntbddcoi	1	1	Development	development	NN
work_hwk64j4prjebfojdv2ntbddcoi	1	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	1	4	Hybrid	Hybrid	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	5	Operation	Operation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	6	Method	Method	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	1	9	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	10	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	11	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	12	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	13	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	14	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	1	16	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	17	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	19	Heater	Heater	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	20	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	21	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	22	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	23	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	24	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	25	9320	9320	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	26	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	1	27	9343	9343	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	28	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	1	29	doi:10.3390	doi:10.3390	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	30	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	1	31	en8099320	en8099320	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	32	energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	1	33	ISSN	ISSN	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	34	1996	1996	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	35	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	1	36	1073	1073	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	37	www.mdpi.com/journal/energies	www.mdpi.com/journal/energie	NNS
work_hwk64j4prjebfojdv2ntbddcoi	1	38	Article	Article	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	39	Development	Development	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	40	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	41	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	1	42	Hybrid	Hybrid	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	43	Operation	Operation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	44	Method	Method	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	45	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	46	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	1	47	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	48	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	49	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	1	50	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	51	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	52	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	53	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	1	54	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	55	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	56	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	57	Heater	Heater	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	58	Young	Young	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	59	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	60	Ju	Ju	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	61	Jung	Jung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	62	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	63	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	64	Hyo	Hyo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	65	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	66	Jun	Jun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	67	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	68	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	69	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	70	Kyung	Kyung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	71	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	72	Ju	Ju	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	73	Shin	Shin	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	74	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	75	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	76	Jae	Jae	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	77	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	78	Hun	Hun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	79	Jo	Jo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	80	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	81	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	82	Yong	Yong	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	83	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	84	Shik	Shik	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	85	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	86	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	87	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	1	88	Young	Young	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	89	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	90	Hum	Hum	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	91	Cho	Cho	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	92	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	93	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	94	*	*	NFP
work_hwk64j4prjebfojdv2ntbddcoi	1	95	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	96	Department	Department	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	97	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	98	Architectural	Architectural	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	99	Engineering	Engineering	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	100	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	101	Graduate	Graduate	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	102	School	School	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	103	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	1	104	Yeungnam	Yeungnam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	105	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	106	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	107	280	280	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	108	Daehak	Daehak	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	109	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	110	Ro	Ro	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	111	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	112	Gyeongsan	Gyeongsan	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	113	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	114	Gyeongbuk	Gyeongbuk	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	115	38541	38541	CD
work_hwk64j4prjebfojdv2ntbddcoi	1	116	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	1	117	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	118	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	1	119	E	E	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	120	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	1	121	Mails	mail	NNS
work_hwk64j4prjebfojdv2ntbddcoi	1	122	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	1	123	nun1228@naver.com	nun1228@naver.com	ADD
work_hwk64j4prjebfojdv2ntbddcoi	1	124	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	1	125	Y.-J.J.	Y.-J.J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	126	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	1	127	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	1	128	kimyo@ynu.ac.kr	kimyo@ynu.ac.kr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	129	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	1	130	H.-J.K.	H.-J.K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	131	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	1	132	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	1	133	shinkeoungju@naver.com	shinkeoungju@naver.com	ADD
work_hwk64j4prjebfojdv2ntbddcoi	1	134	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	1	135	K.-J.S.	K.-J.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	1	136	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	2	1	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	2	Department	Department	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	2	4	Architectural	Architectural	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	5	Engineering	Engineering	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	7	Inha	Inha	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	8	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	10	100	100	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	11	Inha	Inha	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	12	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	2	13	ro	ro	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	15	Nam	Nam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	16	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	2	17	gu	gu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	19	Incheon	Incheon	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	20	22212	22212	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	21	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	22	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	23	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	2	24	E	E	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	25	-	-	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	26	Mail	mail	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	27	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	2	28	jhjo@inha.ac.kr	jhjo@inha.ac.kr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	29	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	30	Division	Division	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	31	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	2	32	Architecture	Architecture	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	33	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	2	34	Urban	Urban	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	35	Planning	Planning	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	36	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	37	Incheon	Incheon	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	38	national	national	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	39	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	40	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	41	119	119	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	42	Academy	Academy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	43	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	2	44	ro	ro	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	45	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	46	Yeonsu	Yeonsu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	47	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	2	48	gu	gu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	49	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	50	Incheon	Incheon	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	51	22012	22012	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	52	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	53	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	54	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	2	55	E	E	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	56	-	-	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	57	Mail	mail	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	58	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	2	59	newkim@incheon.ac.kr	newkim@incheon.ac.kr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	60	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	61	School	School	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	62	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	2	63	Architecture	Architecture	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	64	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	65	Yeungnam	Yeungnam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	66	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	67	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	68	280	280	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	69	Daehak	Daehak	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	70	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	2	71	Ro	Ro	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	72	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	73	Gyeongsan	Gyeongsan	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	74	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	75	Gyeongbuk	Gyeongbuk	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	76	38541	38541	CD
work_hwk64j4prjebfojdv2ntbddcoi	2	77	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	2	78	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	79	*	*	NFP
work_hwk64j4prjebfojdv2ntbddcoi	2	80	Author	author	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	81	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	2	82	whom	whom	WP
work_hwk64j4prjebfojdv2ntbddcoi	2	83	correspondence	correspondence	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	84	should	should	MD
work_hwk64j4prjebfojdv2ntbddcoi	2	85	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	2	86	addressed	address	VBN
work_hwk64j4prjebfojdv2ntbddcoi	2	87	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	2	88	E	e	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	89	-	-	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	90	Mail	mail	NN
work_hwk64j4prjebfojdv2ntbddcoi	2	91	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	2	92	yhcho@ynu.ac.kr	yhcho@ynu.ac.kr	XX
work_hwk64j4prjebfojdv2ntbddcoi	2	93	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	2	94	Tel	Tel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	2	95	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	3	1	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	3	2	+82	+82	NNP
work_hwk64j4prjebfojdv2ntbddcoi	3	3	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	3	4	53	53	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	5	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	3	6	810	810	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	3	8	3081	3081	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	9	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	3	10	Fax	fax	NN
work_hwk64j4prjebfojdv2ntbddcoi	3	11	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	3	12	+82	+82	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	3	14	53	53	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	3	16	814	814	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	17	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	3	18	3675	3675	CD
work_hwk64j4prjebfojdv2ntbddcoi	3	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	4	1	Academic	Academic	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	2	Editor	Editor	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	3	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	4	4	Hossam	Hossam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	5	A.	a.	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	6	Gabbar	Gabbar	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	7	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	4	8	Gaber	Gaber	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	9	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	4	10	Received	receive	VBD
work_hwk64j4prjebfojdv2ntbddcoi	4	11	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	4	12	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	13	June	June	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	14	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	15	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	4	16	Accepted	accept	VBN
work_hwk64j4prjebfojdv2ntbddcoi	4	17	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	4	18	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	19	August	August	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	20	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	21	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	4	22	Published	publish	VBN
work_hwk64j4prjebfojdv2ntbddcoi	4	23	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	4	24	31	31	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	25	August	August	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	26	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	4	27	Abstract	Abstract	NNP
work_hwk64j4prjebfojdv2ntbddcoi	4	28	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	4	29	Considerable	considerable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	4	30	efforts	effort	NNS
work_hwk64j4prjebfojdv2ntbddcoi	4	31	have	have	VBP
work_hwk64j4prjebfojdv2ntbddcoi	4	32	been	be	VBN
work_hwk64j4prjebfojdv2ntbddcoi	4	33	made	make	VBN
work_hwk64j4prjebfojdv2ntbddcoi	4	34	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	4	35	reduce	reduce	VB
work_hwk64j4prjebfojdv2ntbddcoi	4	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	4	37	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	38	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	39	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	4	40	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	4	41	due	due	IN
work_hwk64j4prjebfojdv2ntbddcoi	4	42	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	4	43	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	4	44	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	45	crisis	crisis	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	46	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	4	47	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	4	48	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	4	49	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	4	50	Korean	korean	JJ
work_hwk64j4prjebfojdv2ntbddcoi	4	51	government	government	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	52	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	4	53	supported	support	VBN
work_hwk64j4prjebfojdv2ntbddcoi	4	54	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	4	55	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	56	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	4	57	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	4	58	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	4	59	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	4	60	various	various	JJ
work_hwk64j4prjebfojdv2ntbddcoi	4	61	grants	grant	NNS
work_hwk64j4prjebfojdv2ntbddcoi	4	62	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	5	1	Among	among	IN
work_hwk64j4prjebfojdv2ntbddcoi	5	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	5	3	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	5	4	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	5	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	5	6	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	5	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	5	8	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	5	9	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	5	10	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	5	11	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	5	12	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	5	13	regardless	regardless	RB
work_hwk64j4prjebfojdv2ntbddcoi	5	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	5	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	5	16	outside	outside	JJ
work_hwk64j4prjebfojdv2ntbddcoi	5	17	weather	weather	NN
work_hwk64j4prjebfojdv2ntbddcoi	5	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	6	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	6	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	6	3	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	6	4	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	6	5	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	6	6	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	6	7	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	6	8	considerably	considerably	RB
work_hwk64j4prjebfojdv2ntbddcoi	6	9	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	6	10	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	6	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	6	12	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	6	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	7	1	Despite	despite	IN
work_hwk64j4prjebfojdv2ntbddcoi	7	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	7	3	increasing	increase	VBG
work_hwk64j4prjebfojdv2ntbddcoi	7	4	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	7	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	7	6	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	7	7	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	7	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	7	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	7	10	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	7	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	7	12	renewables	renewable	NNS
work_hwk64j4prjebfojdv2ntbddcoi	7	13	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	7	14	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	7	15	been	be	VBN
work_hwk64j4prjebfojdv2ntbddcoi	7	16	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	7	17	appropriately	appropriately	RB
work_hwk64j4prjebfojdv2ntbddcoi	7	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	8	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	8	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	8	3	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	8	4	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	8	5	examined	examine	VBD
work_hwk64j4prjebfojdv2ntbddcoi	8	6	some	some	DT
work_hwk64j4prjebfojdv2ntbddcoi	8	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	8	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	8	9	problems	problem	NNS
work_hwk64j4prjebfojdv2ntbddcoi	8	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	8	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	8	12	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	8	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	8	14	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	8	15	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	8	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	8	17	some	some	DT
work_hwk64j4prjebfojdv2ntbddcoi	8	18	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	8	19	improvements	improvement	NNS
work_hwk64j4prjebfojdv2ntbddcoi	8	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	9	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	9	2	aim	aim	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	9	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	9	5	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	9	7	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	9	8	evaluate	evaluate	VB
work_hwk64j4prjebfojdv2ntbddcoi	9	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	9	10	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	11	containing	contain	VBG
work_hwk64j4prjebfojdv2ntbddcoi	9	12	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	9	13	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	9	14	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	9	15	multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	9	16	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	9	17	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	9	18	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	19	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	9	21	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	9	22	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	9	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	9	24	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	9	25	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	26	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	9	27	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	9	28	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	9	29	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	9	30	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	9	31	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	32	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	9	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	10	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	10	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	10	4	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	10	5	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	6	evaluated	evaluate	VBD
work_hwk64j4prjebfojdv2ntbddcoi	10	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	10	8	present	present	JJ
work_hwk64j4prjebfojdv2ntbddcoi	10	9	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	10	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	10	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	10	13	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	10	15	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	10	16	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	17	regarding	regard	VBG
work_hwk64j4prjebfojdv2ntbddcoi	10	18	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	10	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	20	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	10	21	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	10	22	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	10	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	10	24	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	10	25	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	10	26	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	10	27	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	10	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	11	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	11	2	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	11	3	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	11	4	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	11	5	regarded	regard	VBN
work_hwk64j4prjebfojdv2ntbddcoi	11	6	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	11	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	11	8	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	11	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	11	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	11	11	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	11	12	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	11	13	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	11	14	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	11	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	11	16	OPEN	OPEN	NNP
work_hwk64j4prjebfojdv2ntbddcoi	11	17	ACCESS	ACCESS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	11	18	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	11	19	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	11	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	11	21	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	11	22	9321	9321	CD
work_hwk64j4prjebfojdv2ntbddcoi	11	23	improvement	improvement	NN
work_hwk64j4prjebfojdv2ntbddcoi	11	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	11	25	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	11	26	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	11	27	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	11	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	12	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	12	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	12	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	4	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	5	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	6	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	12	7	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	8	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	9	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	12	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	12	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	13	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	14	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	12	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	17	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	18	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	19	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	12	20	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	12	21	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	12	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	23	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	24	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	12	25	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	12	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	12	27	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	28	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	12	29	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	30	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	31	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	12	32	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	12	33	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	12	34	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	12	35	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	36	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	37	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	38	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	12	39	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	40	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	41	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	42	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	12	43	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	44	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	12	45	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	12	46	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	47	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	12	48	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	49	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	50	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	12	51	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	12	52	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	53	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	54	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	12	55	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	12	56	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	12	57	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	13	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	13	2	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	13	3	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	13	4	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	13	5	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	13	6	evaluated	evaluate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	13	7	after	after	IN
work_hwk64j4prjebfojdv2ntbddcoi	13	8	applying	apply	VBG
work_hwk64j4prjebfojdv2ntbddcoi	13	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	13	10	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	13	11	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	13	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	13	13	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	13	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	14	1	These	these	DT
work_hwk64j4prjebfojdv2ntbddcoi	14	2	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	14	3	showed	show	VBD
work_hwk64j4prjebfojdv2ntbddcoi	14	4	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	14	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	14	6	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	14	7	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	14	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	14	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	14	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	14	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	14	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	14	13	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	14	14	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	14	15	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	14	16	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	14	17	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	14	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	15	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	15	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	15	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	15	6	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	15	7	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	8	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	15	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	15	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	15	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	15	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	15	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	15	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	15	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	15	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	21	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	15	22	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	15	23	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	24	30	30	CD
work_hwk64j4prjebfojdv2ntbddcoi	15	25	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	26	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	15	27	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	28	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	15	29	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	30	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	15	31	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	15	32	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	15	33	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	34	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	35	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	36	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	37	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	38	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	39	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	15	40	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	15	41	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	15	42	78	78	CD
work_hwk64j4prjebfojdv2ntbddcoi	15	43	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	15	44	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	16	1	Keywords	keyword	NNS
work_hwk64j4prjebfojdv2ntbddcoi	16	2	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	16	3	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	5	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	16	6	multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	8	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	10	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	12	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	13	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	17	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	16	18	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	19	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	20	;	;	,
work_hwk64j4prjebfojdv2ntbddcoi	16	21	transient	transient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	22	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	23	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	24	program	program	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	26	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	27	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	28	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	16	29	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	16	30	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	31	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	16	32	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	33	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	34	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	35	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	16	36	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	16	37	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	16	38	heater	heater	NNP
work_hwk64j4prjebfojdv2ntbddcoi	16	39	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	16	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	17	1	Introduction	introduction	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	2	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	3	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	4	crisis	crisis	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	5	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	17	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	7	world	world	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	8	economy	economy	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	17	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	11	major	major	JJ
work_hwk64j4prjebfojdv2ntbddcoi	17	12	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	17	14	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	17	15	published	publish	VBN
work_hwk64j4prjebfojdv2ntbddcoi	17	16	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	17	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	18	International	International	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	19	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	20	Agency	Agency	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	21	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	22	IEA	IEA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	23	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	24	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	17	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	26	17	17	CD
work_hwk64j4prjebfojdv2ntbddcoi	17	27	June	June	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	28	2014	2014	CD
work_hwk64j4prjebfojdv2ntbddcoi	17	29	mid	mid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	17	30	-	-	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	31	term	term	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	32	outlook	outlook	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	33	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	17	34	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	17	35	oil	oil	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	36	market	market	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	37	report	report	NN
work_hwk64j4prjebfojdv2ntbddcoi	17	38	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	39	Oil	Oil	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	40	Medium	Medium	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	41	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	17	42	Term	Term	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	43	Market	Market	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	44	Report	Report	NNP
work_hwk64j4prjebfojdv2ntbddcoi	17	45	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	46	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	17	47	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	48	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	17	49	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	18	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	18	2	world	world	NN
work_hwk64j4prjebfojdv2ntbddcoi	18	3	oil	oil	NN
work_hwk64j4prjebfojdv2ntbddcoi	18	4	demand	demand	NN
work_hwk64j4prjebfojdv2ntbddcoi	18	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	18	6	expected	expect	VBN
work_hwk64j4prjebfojdv2ntbddcoi	18	7	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	18	8	increase	increase	VB
work_hwk64j4prjebfojdv2ntbddcoi	18	9	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	18	10	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	18	11	annual	annual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	18	12	average	average	NN
work_hwk64j4prjebfojdv2ntbddcoi	18	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	18	14	1.3	1.3	CD
work_hwk64j4prjebfojdv2ntbddcoi	18	15	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	18	16	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	18	17	2019	2019	CD
work_hwk64j4prjebfojdv2ntbddcoi	18	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	19	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	19	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	19	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	19	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	19	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	19	6	oil	oil	NN
work_hwk64j4prjebfojdv2ntbddcoi	19	7	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	19	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	19	9	limited	limited	JJ
work_hwk64j4prjebfojdv2ntbddcoi	19	10	resource	resource	NN
work_hwk64j4prjebfojdv2ntbddcoi	19	11	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	20	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	20	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	20	3	efforts	effort	NNS
work_hwk64j4prjebfojdv2ntbddcoi	20	4	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	20	5	replace	replace	VB
work_hwk64j4prjebfojdv2ntbddcoi	20	6	fossil	fossil	JJ
work_hwk64j4prjebfojdv2ntbddcoi	20	7	fuels	fuel	NNS
work_hwk64j4prjebfojdv2ntbddcoi	20	8	due	due	JJ
work_hwk64j4prjebfojdv2ntbddcoi	20	9	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	20	10	oil	oil	NN
work_hwk64j4prjebfojdv2ntbddcoi	20	11	depletion	depletion	NN
work_hwk64j4prjebfojdv2ntbddcoi	20	12	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	20	13	ongoing	ongoing	JJ
work_hwk64j4prjebfojdv2ntbddcoi	20	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	20	15	necessary	necessary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	20	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	21	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	21	2	particular	particular	JJ
work_hwk64j4prjebfojdv2ntbddcoi	21	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	21	4	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	21	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	21	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	21	7	world	world	NN
work_hwk64j4prjebfojdv2ntbddcoi	21	8	’s	’s	POS
work_hwk64j4prjebfojdv2ntbddcoi	21	9	10th	10th	JJ
work_hwk64j4prjebfojdv2ntbddcoi	21	10	highest	high	JJS
work_hwk64j4prjebfojdv2ntbddcoi	21	11	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	21	12	consumer	consumer	NN
work_hwk64j4prjebfojdv2ntbddcoi	21	13	but	but	CC
work_hwk64j4prjebfojdv2ntbddcoi	21	14	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	21	15	imports	import	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	21	16	more	more	JJR
work_hwk64j4prjebfojdv2ntbddcoi	21	17	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	21	18	97	97	CD
work_hwk64j4prjebfojdv2ntbddcoi	21	19	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	21	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	21	21	its	-PRON-	PRP$
work_hwk64j4prjebfojdv2ntbddcoi	21	22	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	21	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	22	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	22	2	percentage	percentage	NN
work_hwk64j4prjebfojdv2ntbddcoi	22	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	22	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	22	5	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	22	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	22	7	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	22	8	amount	amount	NN
work_hwk64j4prjebfojdv2ntbddcoi	22	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	22	10	imports	import	NNS
work_hwk64j4prjebfojdv2ntbddcoi	22	11	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	22	12	increasing	increase	VBG
work_hwk64j4prjebfojdv2ntbddcoi	22	13	gradually	gradually	RB
work_hwk64j4prjebfojdv2ntbddcoi	22	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	23	1	An	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	23	2	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	23	3	crisis	crisis	NN
work_hwk64j4prjebfojdv2ntbddcoi	23	4	may	may	MD
work_hwk64j4prjebfojdv2ntbddcoi	23	5	endanger	endanger	VB
work_hwk64j4prjebfojdv2ntbddcoi	23	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	23	7	economy	economy	NN
work_hwk64j4prjebfojdv2ntbddcoi	23	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	24	1	Consequently	consequently	RB
work_hwk64j4prjebfojdv2ntbddcoi	24	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	24	3	national	national	JJ
work_hwk64j4prjebfojdv2ntbddcoi	24	4	efforts	effort	NNS
work_hwk64j4prjebfojdv2ntbddcoi	24	5	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	24	6	needed	need	VBN
work_hwk64j4prjebfojdv2ntbddcoi	24	7	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	24	8	respond	respond	VB
work_hwk64j4prjebfojdv2ntbddcoi	24	9	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	24	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	24	11	future	future	JJ
work_hwk64j4prjebfojdv2ntbddcoi	24	12	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	24	13	crisis	crisis	NN
work_hwk64j4prjebfojdv2ntbddcoi	24	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	25	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	25	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	25	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	25	4	government	government	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	25	6	fostering	foster	VBG
work_hwk64j4prjebfojdv2ntbddcoi	25	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	25	8	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	25	9	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	10	industry	industry	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	11	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	25	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	25	13	means	means	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	25	15	handling	handle	VBG
work_hwk64j4prjebfojdv2ntbddcoi	25	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	25	17	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	18	crisis	crisis	NN
work_hwk64j4prjebfojdv2ntbddcoi	25	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	26	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	26	2	development	development	NN
work_hwk64j4prjebfojdv2ntbddcoi	26	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	26	4	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	26	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	26	6	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	26	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	26	8	resource	resource	NN
work_hwk64j4prjebfojdv2ntbddcoi	26	9	poor	poor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	26	10	country	country	NN
work_hwk64j4prjebfojdv2ntbddcoi	26	11	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	26	12	important	important	JJ
work_hwk64j4prjebfojdv2ntbddcoi	26	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	27	1	Among	among	IN
work_hwk64j4prjebfojdv2ntbddcoi	27	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	27	3	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	27	5	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	27	6	available	available	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	27	8	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	9	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	27	10	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	27	11	been	be	VBN
work_hwk64j4prjebfojdv2ntbddcoi	27	12	highlighted	highlight	VBN
work_hwk64j4prjebfojdv2ntbddcoi	27	13	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	27	14	highly	highly	RB
work_hwk64j4prjebfojdv2ntbddcoi	27	15	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	27	17	safely	safely	RB
work_hwk64j4prjebfojdv2ntbddcoi	27	18	operable	operable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	19	without	without	IN
work_hwk64j4prjebfojdv2ntbddcoi	27	20	being	be	VBG
work_hwk64j4prjebfojdv2ntbddcoi	27	21	effected	effect	VBN
work_hwk64j4prjebfojdv2ntbddcoi	27	22	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	27	23	outdoor	outdoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	27	24	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	27	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	28	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	28	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	28	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	28	4	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	28	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	28	6	one	one	CD
work_hwk64j4prjebfojdv2ntbddcoi	28	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	28	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	28	9	oldest	old	JJS
work_hwk64j4prjebfojdv2ntbddcoi	28	10	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	28	11	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	28	12	resources	resource	NNS
work_hwk64j4prjebfojdv2ntbddcoi	28	13	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	28	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	28	15	world	world	NN
work_hwk64j4prjebfojdv2ntbddcoi	28	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	28	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	28	18	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	28	19	supplies	supply	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	28	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	28	21	most	most	JJS
work_hwk64j4prjebfojdv2ntbddcoi	28	22	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	28	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	29	1	Studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	29	2	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	29	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	29	4	trends	trend	NNS
work_hwk64j4prjebfojdv2ntbddcoi	29	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	29	6	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	29	7	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	29	8	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	29	9	importance	importance	NN
work_hwk64j4prjebfojdv2ntbddcoi	29	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	29	11	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	29	12	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	29	13	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	29	14	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	29	15	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	29	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	30	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	30	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	30	3	past	past	NN
work_hwk64j4prjebfojdv2ntbddcoi	30	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	30	5	many	many	JJ
work_hwk64j4prjebfojdv2ntbddcoi	30	6	studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	30	7	have	have	VBP
work_hwk64j4prjebfojdv2ntbddcoi	30	8	focused	focus	VBN
work_hwk64j4prjebfojdv2ntbddcoi	30	9	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	30	10	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	30	11	enhancement	enhancement	NN
work_hwk64j4prjebfojdv2ntbddcoi	30	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	30	13	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	30	14	evaluations	evaluation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	30	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	30	16	various	various	JJ
work_hwk64j4prjebfojdv2ntbddcoi	30	17	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	30	18	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	30	19	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	30	20	2–5	2–5	CD
work_hwk64j4prjebfojdv2ntbddcoi	30	21	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	30	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	31	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	31	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	31	3	studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	31	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	31	5	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	31	6	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	31	7	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	31	8	progress	progress	NN
work_hwk64j4prjebfojdv2ntbddcoi	31	9	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	31	10	many	many	JJ
work_hwk64j4prjebfojdv2ntbddcoi	31	11	worldwide	worldwide	JJ
work_hwk64j4prjebfojdv2ntbddcoi	31	12	perspectives	perspective	NNS
work_hwk64j4prjebfojdv2ntbddcoi	31	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	32	1	Haehnlein	Haehnlein	NNP
work_hwk64j4prjebfojdv2ntbddcoi	32	2	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	32	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	32	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	33	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	33	2	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	33	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	33	4	published	publish	VBD
work_hwk64j4prjebfojdv2ntbddcoi	33	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	33	6	comprehensive	comprehensive	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	7	overview	overview	NN
work_hwk64j4prjebfojdv2ntbddcoi	33	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	33	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	33	10	current	current	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	11	international	international	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	12	legal	legal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	13	status	status	NN
work_hwk64j4prjebfojdv2ntbddcoi	33	14	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	33	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	33	16	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	33	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	33	18	shallow	shallow	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	19	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	33	20	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	33	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	34	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	34	2	their	-PRON-	PRP$
work_hwk64j4prjebfojdv2ntbddcoi	34	3	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	34	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	34	5	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	34	6	international	international	JJ
work_hwk64j4prjebfojdv2ntbddcoi	34	7	survey	survey	NN
work_hwk64j4prjebfojdv2ntbddcoi	34	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	34	9	performed	perform	VBN
work_hwk64j4prjebfojdv2ntbddcoi	34	10	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	34	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	34	12	questionnaire	questionnaire	NN
work_hwk64j4prjebfojdv2ntbddcoi	34	13	sent	send	VBN
work_hwk64j4prjebfojdv2ntbddcoi	34	14	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	34	15	more	more	JJR
work_hwk64j4prjebfojdv2ntbddcoi	34	16	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	34	17	60	60	CD
work_hwk64j4prjebfojdv2ntbddcoi	34	18	countries	country	NNS
work_hwk64j4prjebfojdv2ntbddcoi	34	19	worldwide	worldwide	RB
work_hwk64j4prjebfojdv2ntbddcoi	34	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	35	1	Luo	Luo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	35	2	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	35	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	35	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	36	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	36	2	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	36	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	36	4	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	36	5	Rees	Rees	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	36	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	36	7	Curtis	Curtis	NNP
work_hwk64j4prjebfojdv2ntbddcoi	36	8	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	36	9	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	36	10	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	36	11	examined	examine	VBD
work_hwk64j4prjebfojdv2ntbddcoi	36	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	36	13	importance	importance	NN
work_hwk64j4prjebfojdv2ntbddcoi	36	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	36	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	36	16	research	research	NN
work_hwk64j4prjebfojdv2ntbddcoi	36	17	trends	trend	NNS
work_hwk64j4prjebfojdv2ntbddcoi	36	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	36	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	36	20	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	36	21	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	36	22	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	36	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	36	24	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	36	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	37	1	Study	study	VB
work_hwk64j4prjebfojdv2ntbddcoi	37	2	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	37	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	37	4	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	37	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	37	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	37	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	37	8	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	37	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	37	10	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	37	11	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	37	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	38	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	38	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	38	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	38	4	Byun	Byun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	38	5	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	38	6	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	38	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	39	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	39	2	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	39	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	39	4	studied	study	VBD
work_hwk64j4prjebfojdv2ntbddcoi	39	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	39	6	fuel	fuel	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	7	cell	cell	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	8	driven	drive	VBN
work_hwk64j4prjebfojdv2ntbddcoi	39	9	ground	ground	NNP
work_hwk64j4prjebfojdv2ntbddcoi	39	10	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	11	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	12	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	13	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	39	14	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	39	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	39	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	17	applied	apply	VBD
work_hwk64j4prjebfojdv2ntbddcoi	39	18	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	39	19	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	39	20	community	community	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	21	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	22	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	39	23	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	39	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	39	25	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	26	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	28	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	39	29	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	39	30	analyzed	analyze	VBN
work_hwk64j4prjebfojdv2ntbddcoi	39	31	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	39	32	computational	computational	JJ
work_hwk64j4prjebfojdv2ntbddcoi	39	33	methods	method	NNS
work_hwk64j4prjebfojdv2ntbddcoi	39	34	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	40	1	Considering	consider	VBG
work_hwk64j4prjebfojdv2ntbddcoi	40	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	40	3	long	long	JJ
work_hwk64j4prjebfojdv2ntbddcoi	40	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	40	5	term	term	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	6	stability	stability	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	40	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	40	9	soil	soil	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	10	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	40	12	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	13	conservation	conservation	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	40	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	40	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	40	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	40	18	Zhai	Zhai	NNP
work_hwk64j4prjebfojdv2ntbddcoi	40	19	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	40	20	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	40	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	41	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	41	2	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	41	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	41	4	suggested	suggest	VBD
work_hwk64j4prjebfojdv2ntbddcoi	41	5	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	41	6	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	41	7	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	41	8	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	41	9	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	41	10	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	41	11	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	41	12	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	41	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	41	14	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	41	15	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	41	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	42	1	Bakirci	Bakirci	NNP
work_hwk64j4prjebfojdv2ntbddcoi	42	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	42	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	42	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	43	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	43	2	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	43	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	43	4	examined	examine	VBD
work_hwk64j4prjebfojdv2ntbddcoi	43	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	43	6	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	43	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	43	9	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	43	10	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	43	11	GSHP	gshp	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	12	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	13	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	43	14	vertical	vertical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	43	15	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	16	handling	handling	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	17	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	43	18	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	43	19	GHE	GHE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	43	20	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	43	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	44	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	44	2	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	44	3	suggested	suggest	VBD
work_hwk64j4prjebfojdv2ntbddcoi	44	4	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	44	5	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	44	6	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	44	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	44	8	GSHP	gshp	NN
work_hwk64j4prjebfojdv2ntbddcoi	44	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	44	10	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	44	11	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	44	12	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	44	13	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	44	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	44	15	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	44	16	9322	9322	CD
work_hwk64j4prjebfojdv2ntbddcoi	44	17	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	44	18	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	44	19	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	44	20	applications	application	NNS
work_hwk64j4prjebfojdv2ntbddcoi	44	21	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	44	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	44	23	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	44	24	climate	climate	NN
work_hwk64j4prjebfojdv2ntbddcoi	44	25	regions	region	NNS
work_hwk64j4prjebfojdv2ntbddcoi	44	26	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	44	27	Turkey	Turkey	NNP
work_hwk64j4prjebfojdv2ntbddcoi	44	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	45	1	Yang	Yang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	45	2	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	3	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	45	4	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	5	assessed	assess	VBD
work_hwk64j4prjebfojdv2ntbddcoi	45	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	45	7	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	8	characteristics	characteristic	NNS
work_hwk64j4prjebfojdv2ntbddcoi	45	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	45	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	45	11	vertical	vertical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	45	12	U	u	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	45	14	bend	bend	VB
work_hwk64j4prjebfojdv2ntbddcoi	45	15	direct	direct	JJ
work_hwk64j4prjebfojdv2ntbddcoi	45	16	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	45	17	expansion	expansion	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	18	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	19	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	21	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	45	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	23	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	24	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	25	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	26	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	27	DX	DX	NNP
work_hwk64j4prjebfojdv2ntbddcoi	45	28	GSHPS	GSHPS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	45	29	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	45	30	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	45	31	both	both	CC
work_hwk64j4prjebfojdv2ntbddcoi	45	32	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	33	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	45	34	cooling	cooling	NN
work_hwk64j4prjebfojdv2ntbddcoi	45	35	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	46	1	Their	-PRON-	PRP$
work_hwk64j4prjebfojdv2ntbddcoi	46	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	46	3	highlighted	highlight	VBD
work_hwk64j4prjebfojdv2ntbddcoi	46	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	46	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	46	6	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	46	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	46	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	46	9	DX	DX	NNP
work_hwk64j4prjebfojdv2ntbddcoi	46	10	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	46	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	46	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	47	1	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	47	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	47	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	47	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	48	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	48	2	13	13	CD
work_hwk64j4prjebfojdv2ntbddcoi	48	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	48	4	reported	report	VBD
work_hwk64j4prjebfojdv2ntbddcoi	48	5	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	48	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	48	7	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	48	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	48	10	proper	proper	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	11	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	12	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	13	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	48	14	variable	variable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	15	outdoor	outdoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	16	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	48	17	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	48	18	very	very	RB
work_hwk64j4prjebfojdv2ntbddcoi	48	19	important	important	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	20	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	48	21	maintaining	maintain	VBG
work_hwk64j4prjebfojdv2ntbddcoi	48	22	high	high	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	23	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	24	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	25	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	48	26	reliability	reliability	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	27	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	48	28	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	48	29	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	30	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	31	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	48	32	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	48	33	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	48	34	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	35	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	36	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	48	37	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	49	1	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	49	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	49	3	Hepbaslib	Hepbaslib	NNP
work_hwk64j4prjebfojdv2ntbddcoi	49	4	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	49	5	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	49	6	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	49	7	examined	examine	VBD
work_hwk64j4prjebfojdv2ntbddcoi	49	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	49	9	energetic	energetic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	49	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	49	11	exergetic	exergetic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	49	12	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	49	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	49	14	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	49	15	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	49	16	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	49	17	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	49	18	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	49	19	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	49	20	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	49	21	assessments	assessment	NNS
work_hwk64j4prjebfojdv2ntbddcoi	49	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	50	1	Salvalai	Salvalai	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	2	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	50	3	15	15	CD
work_hwk64j4prjebfojdv2ntbddcoi	50	4	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	50	5	reported	report	VBD
work_hwk64j4prjebfojdv2ntbddcoi	50	6	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	50	7	parameter	parameter	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	8	estimation	estimation	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	9	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	50	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	50	12	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	50	14	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	50	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	50	16	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	17	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	18	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	19	model	model	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	50	21	implemented	implement	VBN
work_hwk64j4prjebfojdv2ntbddcoi	50	22	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	50	23	IDA	IDA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	24	Indoor	Indoor	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	25	Climate	Climate	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	26	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	50	27	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	28	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	50	29	IDA	IDA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	30	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	50	31	ICE	ICE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	50	32	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	50	33	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	34	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	50	35	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	50	36	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	50	37	presented	present	VBN
work_hwk64j4prjebfojdv2ntbddcoi	50	38	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	50	39	validated	validate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	50	40	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	50	41	experimental	experimental	JJ
work_hwk64j4prjebfojdv2ntbddcoi	50	42	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	50	43	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	51	1	Some	some	DT
work_hwk64j4prjebfojdv2ntbddcoi	51	2	studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	51	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	51	4	economic	economic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	51	5	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	51	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	51	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	51	8	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	51	9	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	51	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	51	11	following	follow	VBG
work_hwk64j4prjebfojdv2ntbddcoi	51	12	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	51	13	Esen	Esen	NNP
work_hwk64j4prjebfojdv2ntbddcoi	51	14	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	51	15	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	51	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	52	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	52	2	16	16	CD
work_hwk64j4prjebfojdv2ntbddcoi	52	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	52	4	conducted	conduct	VBN
work_hwk64j4prjebfojdv2ntbddcoi	52	5	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	52	6	experiments	experiment	NNS
work_hwk64j4prjebfojdv2ntbddcoi	52	7	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	52	8	economic	economic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	52	9	analyses	analysis	NNS
work_hwk64j4prjebfojdv2ntbddcoi	52	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	52	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	52	12	horizontal	horizontal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	52	13	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	52	14	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	52	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	53	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	53	2	detailed	detailed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	53	3	cost	cost	NN
work_hwk64j4prjebfojdv2ntbddcoi	53	4	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	53	5	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	53	6	presented	present	VBN
work_hwk64j4prjebfojdv2ntbddcoi	53	7	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	53	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	53	9	payback	payback	NN
work_hwk64j4prjebfojdv2ntbddcoi	53	10	periods	period	NNS
work_hwk64j4prjebfojdv2ntbddcoi	53	11	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	53	12	substituting	substitute	VBG
work_hwk64j4prjebfojdv2ntbddcoi	53	13	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	53	14	different	different	JJ
work_hwk64j4prjebfojdv2ntbddcoi	53	15	local	local	JJ
work_hwk64j4prjebfojdv2ntbddcoi	53	16	fuel	fuel	NN
work_hwk64j4prjebfojdv2ntbddcoi	53	17	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	53	18	power	power	NN
work_hwk64j4prjebfojdv2ntbddcoi	53	19	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	53	20	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	53	21	determined	determine	VBN
work_hwk64j4prjebfojdv2ntbddcoi	53	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	54	1	Studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	54	2	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	54	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	54	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	54	5	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	54	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	54	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	54	8	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	54	9	include	include	VBP
work_hwk64j4prjebfojdv2ntbddcoi	54	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	54	11	following	follow	VBG
work_hwk64j4prjebfojdv2ntbddcoi	54	12	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	54	13	Ally	Ally	NNP
work_hwk64j4prjebfojdv2ntbddcoi	54	14	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	54	15	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	54	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	55	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	55	2	17,18	17,18	CD
work_hwk64j4prjebfojdv2ntbddcoi	55	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	55	4	provided	provide	VBN
work_hwk64j4prjebfojdv2ntbddcoi	55	5	excellent	excellent	JJ
work_hwk64j4prjebfojdv2ntbddcoi	55	6	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	55	7	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	55	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	55	9	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	10	savings	saving	NNS
work_hwk64j4prjebfojdv2ntbddcoi	55	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	55	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	55	13	fraction	fraction	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	55	15	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	16	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	55	17	could	could	MD
work_hwk64j4prjebfojdv2ntbddcoi	55	18	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	55	19	extracted	extract	VBN
work_hwk64j4prjebfojdv2ntbddcoi	55	20	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	55	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	55	22	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	23	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	55	24	both	both	DT
work_hwk64j4prjebfojdv2ntbddcoi	55	25	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	26	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	27	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	55	28	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	29	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	55	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	56	1	They	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	56	2	described	describe	VBD
work_hwk64j4prjebfojdv2ntbddcoi	56	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	56	4	advanced	advanced	JJ
work_hwk64j4prjebfojdv2ntbddcoi	56	5	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	6	envelope	envelope	NNP
work_hwk64j4prjebfojdv2ntbddcoi	56	7	characteristics	characteristic	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	9	instrumentation	instrumentation	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	11	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	12	acquisition	acquisition	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	14	tabulated	tabulate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	56	15	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	16	collected	collect	VBN
work_hwk64j4prjebfojdv2ntbddcoi	56	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	18	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	20	measures	measure	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	21	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	56	22	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	23	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	56	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	56	25	conclusions	conclusion	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	26	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	56	27	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	28	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	56	29	coupled	couple	VBN
work_hwk64j4prjebfojdv2ntbddcoi	56	30	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	31	pumps	pump	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	32	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	56	33	reducing	reduce	VBG
work_hwk64j4prjebfojdv2ntbddcoi	56	34	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	56	35	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	36	footprint	footprint	NN
work_hwk64j4prjebfojdv2ntbddcoi	56	37	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	56	38	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	56	39	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	57	1	Chen	Chen	NNP
work_hwk64j4prjebfojdv2ntbddcoi	57	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	57	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	57	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	58	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	58	2	19	19	CD
work_hwk64j4prjebfojdv2ntbddcoi	58	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	58	4	discussed	discuss	VBD
work_hwk64j4prjebfojdv2ntbddcoi	58	5	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	58	6	underground	underground	JJ
work_hwk64j4prjebfojdv2ntbddcoi	58	7	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	8	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	58	9	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	10	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	11	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	58	12	loop	loop	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	14	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	58	15	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	16	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	58	17	UWSWLHP	UWSWLHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	58	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	58	19	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	20	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	58	21	conditioning	conditioning	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	22	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	23	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	58	24	tall	tall	JJ
work_hwk64j4prjebfojdv2ntbddcoi	58	25	apartment	apartment	NN
work_hwk64j4prjebfojdv2ntbddcoi	58	26	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	58	27	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	58	28	Beijing	Beijing	NNP
work_hwk64j4prjebfojdv2ntbddcoi	58	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	59	1	Sivasakthivel	Sivasakthivel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	59	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	59	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	59	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	60	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	60	2	20	20	CD
work_hwk64j4prjebfojdv2ntbddcoi	60	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	60	4	provided	provide	VBN
work_hwk64j4prjebfojdv2ntbddcoi	60	5	extensive	extensive	JJ
work_hwk64j4prjebfojdv2ntbddcoi	60	6	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	60	7	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	60	8	India	India	NNP
work_hwk64j4prjebfojdv2ntbddcoi	60	9	highlighting	highlight	VBG
work_hwk64j4prjebfojdv2ntbddcoi	60	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	60	11	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	60	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	60	13	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	60	14	saving	save	VBG
work_hwk64j4prjebfojdv2ntbddcoi	60	15	potential	potential	NN
work_hwk64j4prjebfojdv2ntbddcoi	60	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	60	17	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	60	18	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	60	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	61	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	61	3	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	61	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	5	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	61	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	61	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	61	8	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	61	9	emissions	emission	NNS
work_hwk64j4prjebfojdv2ntbddcoi	61	10	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	61	11	between	between	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	12	4022	4022	CD
work_hwk64j4prjebfojdv2ntbddcoi	61	13	million	million	CD
work_hwk64j4prjebfojdv2ntbddcoi	61	14	kg	kg	NNS
work_hwk64j4prjebfojdv2ntbddcoi	61	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	61	16	12,071	12,071	CD
work_hwk64j4prjebfojdv2ntbddcoi	61	17	million	million	CD
work_hwk64j4prjebfojdv2ntbddcoi	61	18	kg	kg	NNS
work_hwk64j4prjebfojdv2ntbddcoi	61	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	61	20	resulting	result	VBG
work_hwk64j4prjebfojdv2ntbddcoi	61	21	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	22	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	61	23	reduction	reduction	NN
work_hwk64j4prjebfojdv2ntbddcoi	61	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	25	about	about	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	26	24.54	24.54	CD
work_hwk64j4prjebfojdv2ntbddcoi	61	27	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	61	28	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	61	29	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	61	30	year	year	NN
work_hwk64j4prjebfojdv2ntbddcoi	61	31	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	62	1	They	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	62	2	estimated	estimate	VBD
work_hwk64j4prjebfojdv2ntbddcoi	62	3	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	4	India	India	NNP
work_hwk64j4prjebfojdv2ntbddcoi	62	5	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	62	6	save	save	VB
work_hwk64j4prjebfojdv2ntbddcoi	62	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	62	8	minimum	minimum	NN
work_hwk64j4prjebfojdv2ntbddcoi	62	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	10	1639	1639	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	11	GW	GW	NNP
work_hwk64j4prjebfojdv2ntbddcoi	62	12	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	13	18,760	18,760	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	14	GW	gw	NN
work_hwk64j4prjebfojdv2ntbddcoi	62	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	16	electricity	electricity	NN
work_hwk64j4prjebfojdv2ntbddcoi	62	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	62	18	1248	1248	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	19	million	million	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	20	tons	ton	NNS
work_hwk64j4prjebfojdv2ntbddcoi	62	21	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	22	14,280	14,280	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	23	million	million	CD
work_hwk64j4prjebfojdv2ntbddcoi	62	24	tons	ton	NNS
work_hwk64j4prjebfojdv2ntbddcoi	62	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	26	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	62	27	emission	emission	NN
work_hwk64j4prjebfojdv2ntbddcoi	62	28	annually	annually	RB
work_hwk64j4prjebfojdv2ntbddcoi	62	29	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	62	30	employing	employ	VBG
work_hwk64j4prjebfojdv2ntbddcoi	62	31	GSHP	GSHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	62	32	technology	technology	NN
work_hwk64j4prjebfojdv2ntbddcoi	62	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	63	1	Studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	2	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	63	4	composite	composite	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	5	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	6	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	7	utilizing	utilize	VBG
work_hwk64j4prjebfojdv2ntbddcoi	63	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	63	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	10	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	63	11	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	12	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	63	13	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	63	14	recognition	recognition	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	63	17	economic	economic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	63	19	convenient	convenient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	20	effects	effect	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	21	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	22	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	23	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	63	25	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	63	26	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	27	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	28	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	63	29	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	63	30	increasing	increase	VBG
work_hwk64j4prjebfojdv2ntbddcoi	63	31	because	because	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	32	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	33	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	34	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	35	supply	supply	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	36	business	business	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	37	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	63	38	installation	installation	NN
work_hwk64j4prjebfojdv2ntbddcoi	63	39	obligations	obligation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	40	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	63	41	public	public	JJ
work_hwk64j4prjebfojdv2ntbddcoi	63	42	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	63	43	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	64	1	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	64	2	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	64	4	however	however	RB
work_hwk64j4prjebfojdv2ntbddcoi	64	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	64	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	64	7	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	64	8	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	64	9	charge	charge	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	64	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	64	12	part	part	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	64	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	64	15	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	16	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	17	due	due	IN
work_hwk64j4prjebfojdv2ntbddcoi	64	18	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	64	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	64	20	high	high	JJ
work_hwk64j4prjebfojdv2ntbddcoi	64	21	initial	initial	JJ
work_hwk64j4prjebfojdv2ntbddcoi	64	22	installation	installation	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	23	cost	cost	NN
work_hwk64j4prjebfojdv2ntbddcoi	64	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	65	1	Moreover	moreover	RB
work_hwk64j4prjebfojdv2ntbddcoi	65	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	65	3	its	-PRON-	PRP$
work_hwk64j4prjebfojdv2ntbddcoi	65	4	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	65	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	65	6	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	65	7	due	due	IN
work_hwk64j4prjebfojdv2ntbddcoi	65	8	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	65	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	65	10	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	65	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	65	12	independent	independent	JJ
work_hwk64j4prjebfojdv2ntbddcoi	65	13	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	65	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	65	15	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	65	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	66	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	66	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	66	3	research	research	NN
work_hwk64j4prjebfojdv2ntbddcoi	66	4	into	into	IN
work_hwk64j4prjebfojdv2ntbddcoi	66	5	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	66	6	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	66	7	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	66	8	on	on	RB
work_hwk64j4prjebfojdv2ntbddcoi	66	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	66	10	going	go	VBG
work_hwk64j4prjebfojdv2ntbddcoi	66	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	66	12	focusing	focus	VBG
work_hwk64j4prjebfojdv2ntbddcoi	66	13	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	66	14	increasing	increase	VBG
work_hwk64j4prjebfojdv2ntbddcoi	66	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	66	16	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	66	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	66	18	underground	underground	JJ
work_hwk64j4prjebfojdv2ntbddcoi	66	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	66	20	exchangers	exchanger	NNS
work_hwk64j4prjebfojdv2ntbddcoi	66	21	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	66	22	evaluating	evaluate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	66	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	66	24	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	66	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	67	1	Complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	67	2	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	67	3	combining	combine	VBG
work_hwk64j4prjebfojdv2ntbddcoi	67	4	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	67	5	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	67	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	67	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	67	8	have	have	VBP
work_hwk64j4prjebfojdv2ntbddcoi	67	9	been	be	VBN
work_hwk64j4prjebfojdv2ntbddcoi	67	10	studied	study	VBN
work_hwk64j4prjebfojdv2ntbddcoi	67	11	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	67	12	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	67	13	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	67	14	abroad	abroad	RB
work_hwk64j4prjebfojdv2ntbddcoi	67	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	68	1	When	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	68	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	68	3	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	68	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	68	5	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	68	6	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	68	7	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	68	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	68	9	Kong	Kong	NNP
work_hwk64j4prjebfojdv2ntbddcoi	68	10	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	68	11	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	68	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	69	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	69	2	21	21	CD
work_hwk64j4prjebfojdv2ntbddcoi	69	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	69	4	examined	examine	VBD
work_hwk64j4prjebfojdv2ntbddcoi	69	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	69	6	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	69	7	priority	priority	NN
work_hwk64j4prjebfojdv2ntbddcoi	69	8	based	base	VBN
work_hwk64j4prjebfojdv2ntbddcoi	69	9	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	69	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	69	11	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	69	12	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	69	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	70	1	Hwang	Hwang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	70	2	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	70	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	70	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	71	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	2	22	22	CD
work_hwk64j4prjebfojdv2ntbddcoi	71	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	71	5	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	71	7	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	8	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	9	23,24	23,24	CD
work_hwk64j4prjebfojdv2ntbddcoi	71	10	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	71	12	Nam	Nam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	13	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	14	25	25	CD
work_hwk64j4prjebfojdv2ntbddcoi	71	15	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	71	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	71	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	71	18	Shu	Shu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	19	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	20	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	71	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	72	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	72	2	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	72	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	72	4	examined	examine	VBN
work_hwk64j4prjebfojdv2ntbddcoi	72	5	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	72	6	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	72	7	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	72	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	72	9	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	72	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	72	11	suggested	suggest	VBD
work_hwk64j4prjebfojdv2ntbddcoi	72	12	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	72	13	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	72	14	way	way	NN
work_hwk64j4prjebfojdv2ntbddcoi	72	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	72	16	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	72	17	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	72	18	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	72	19	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	72	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	73	1	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	73	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	73	3	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	73	4	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	73	5	23,24	23,24	CD
work_hwk64j4prjebfojdv2ntbddcoi	73	6	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	73	7	assessed	assess	VBD
work_hwk64j4prjebfojdv2ntbddcoi	73	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	73	9	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	73	10	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	73	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	73	12	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	73	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	14	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	73	15	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	73	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	73	17	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	73	18	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	73	19	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	73	20	reported	report	VBD
work_hwk64j4prjebfojdv2ntbddcoi	73	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	73	22	optimal	optimal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	73	23	capacity	capacity	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	24	selection	selection	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	25	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	73	26	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	73	27	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	73	28	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	29	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	30	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	73	31	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	73	32	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	33	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	73	34	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	73	35	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	74	1	Jeon	Jeon	NNP
work_hwk64j4prjebfojdv2ntbddcoi	74	2	et	et	NNP
work_hwk64j4prjebfojdv2ntbddcoi	74	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	74	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	75	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	75	2	27	27	CD
work_hwk64j4prjebfojdv2ntbddcoi	75	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	75	4	reported	report	VBD
work_hwk64j4prjebfojdv2ntbddcoi	75	5	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	75	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	75	7	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	75	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	75	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	75	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	12	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	75	14	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	75	15	should	should	MD
work_hwk64j4prjebfojdv2ntbddcoi	75	16	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	75	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	75	18	priority	priority	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	19	but	but	CC
work_hwk64j4prjebfojdv2ntbddcoi	75	20	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	75	21	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	22	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	75	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	75	24	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	75	26	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	75	27	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	75	28	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	75	29	inadequate	inadequate	JJ
work_hwk64j4prjebfojdv2ntbddcoi	75	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	76	1	Yu	Yu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	76	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	76	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	76	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	77	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	77	2	28	28	CD
work_hwk64j4prjebfojdv2ntbddcoi	77	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	77	4	evaluated	evaluate	VBD
work_hwk64j4prjebfojdv2ntbddcoi	77	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	77	6	practical	practical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	77	7	suggestions	suggestion	NNS
work_hwk64j4prjebfojdv2ntbddcoi	77	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	77	9	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	77	10	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	77	11	regarding	regard	VBG
work_hwk64j4prjebfojdv2ntbddcoi	77	12	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	77	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	77	14	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	77	15	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	77	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	77	17	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	77	18	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	77	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	78	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	78	2	present	present	JJ
work_hwk64j4prjebfojdv2ntbddcoi	78	3	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	78	4	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	78	5	conducted	conduct	VBN
work_hwk64j4prjebfojdv2ntbddcoi	78	6	based	base	VBN
work_hwk64j4prjebfojdv2ntbddcoi	78	7	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	78	8	their	-PRON-	PRP$
work_hwk64j4prjebfojdv2ntbddcoi	78	9	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	78	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	79	1	Opening	opening	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	79	3	closing	closing	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	79	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	79	6	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	7	handling	handling	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	8	unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	9	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	79	10	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	79	11	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	79	12	added	add	VBD
work_hwk64j4prjebfojdv2ntbddcoi	79	13	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	79	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	79	15	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	16	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	79	18	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	79	19	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	79	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	79	22	time	time	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	23	delay	delay	NN
work_hwk64j4prjebfojdv2ntbddcoi	79	24	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	79	25	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	79	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	80	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	80	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	80	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	80	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	80	5	9323	9323	CD
work_hwk64j4prjebfojdv2ntbddcoi	80	6	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	80	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	80	8	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	80	9	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	80	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	80	11	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	80	12	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	80	13	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	80	14	considered	consider	VBN
work_hwk64j4prjebfojdv2ntbddcoi	80	15	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	80	16	examining	examine	VBG
work_hwk64j4prjebfojdv2ntbddcoi	80	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	80	18	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	80	19	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	80	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	80	21	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	80	22	unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	80	23	or	or	CC
work_hwk64j4prjebfojdv2ntbddcoi	80	24	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	80	25	reflect	reflect	VB
work_hwk64j4prjebfojdv2ntbddcoi	80	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	80	27	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	80	28	thermal	thermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	80	29	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	80	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	81	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	81	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	81	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	81	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	81	5	focus	focus	NN
work_hwk64j4prjebfojdv2ntbddcoi	81	6	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	81	7	adjusted	adjust	VBN
work_hwk64j4prjebfojdv2ntbddcoi	81	8	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	81	9	compare	compare	VB
work_hwk64j4prjebfojdv2ntbddcoi	81	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	81	11	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	81	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	82	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	82	2	debate	debate	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	82	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	82	5	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	6	improvement	improvement	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	82	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	82	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	82	11	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	12	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	13	or	or	CC
work_hwk64j4prjebfojdv2ntbddcoi	82	14	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	82	15	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	82	16	insufficient	insufficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	82	17	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	83	1	Kalz	Kalz	NNP
work_hwk64j4prjebfojdv2ntbddcoi	83	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	83	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	83	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	84	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	84	2	29	29	CD
work_hwk64j4prjebfojdv2ntbddcoi	84	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	84	4	emphasized	emphasize	VBD
work_hwk64j4prjebfojdv2ntbddcoi	84	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	84	6	substantial	substantial	JJ
work_hwk64j4prjebfojdv2ntbddcoi	84	7	impact	impact	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	84	9	auxiliary	auxiliary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	84	10	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	11	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	12	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	84	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	84	14	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	84	16	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	84	18	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	84	19	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	84	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	85	1	Kalz	Kalz	NNP
work_hwk64j4prjebfojdv2ntbddcoi	85	2	et	et	FW
work_hwk64j4prjebfojdv2ntbddcoi	85	3	al	al	NNP
work_hwk64j4prjebfojdv2ntbddcoi	85	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	86	1	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	86	2	30	30	CD
work_hwk64j4prjebfojdv2ntbddcoi	86	3	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	86	4	also	also	RB
work_hwk64j4prjebfojdv2ntbddcoi	86	5	presented	present	VBD
work_hwk64j4prjebfojdv2ntbddcoi	86	6	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	86	7	comprehensive	comprehensive	JJ
work_hwk64j4prjebfojdv2ntbddcoi	86	8	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	86	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	86	11	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	86	13	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	86	14	concepts	concept	NNS
work_hwk64j4prjebfojdv2ntbddcoi	86	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	86	16	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	86	17	low	low	JJ
work_hwk64j4prjebfojdv2ntbddcoi	86	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	86	19	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	20	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	86	21	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	86	22	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	86	23	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	86	24	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	25	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	26	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	86	27	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	28	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	86	29	occupant	occupant	VB
work_hwk64j4prjebfojdv2ntbddcoi	86	30	thermal	thermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	86	31	comfort	comfort	NN
work_hwk64j4prjebfojdv2ntbddcoi	86	32	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	87	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	87	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	87	3	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	87	4	reference	reference	NN
work_hwk64j4prjebfojdv2ntbddcoi	87	5	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	87	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	87	7	following	follow	VBG
work_hwk64j4prjebfojdv2ntbddcoi	87	8	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	87	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	87	10	carried	carry	VBN
work_hwk64j4prjebfojdv2ntbddcoi	87	11	out	out	RP
work_hwk64j4prjebfojdv2ntbddcoi	87	12	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	87	13	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	87	14	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	87	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	88	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	88	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	88	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	88	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	88	5	research	research	NN
work_hwk64j4prjebfojdv2ntbddcoi	88	6	into	into	IN
work_hwk64j4prjebfojdv2ntbddcoi	88	7	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	88	8	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	88	9	regarding	regard	VBG
work_hwk64j4prjebfojdv2ntbddcoi	88	10	multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	88	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	88	12	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	88	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	88	14	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	88	15	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	88	16	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	17	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	18	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	19	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	88	20	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	88	21	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	88	22	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	88	23	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	88	24	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	25	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	88	26	chiller	chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	27	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	88	28	heaters	heaters	NNP
work_hwk64j4prjebfojdv2ntbddcoi	88	29	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	88	30	insufficient	insufficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	88	31	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	89	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	89	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	89	3	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	89	4	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	89	5	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	89	6	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	89	7	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	89	8	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	89	9	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	89	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	89	11	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	89	12	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	89	13	GHP	ghp	JJ
work_hwk64j4prjebfojdv2ntbddcoi	89	14	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	89	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	89	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	89	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	89	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	89	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	89	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	90	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	90	2	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	90	3	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	90	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	90	5	after	after	IN
work_hwk64j4prjebfojdv2ntbddcoi	90	6	selecting	select	VBG
work_hwk64j4prjebfojdv2ntbddcoi	90	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	90	8	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	90	9	containing	contain	VBG
work_hwk64j4prjebfojdv2ntbddcoi	90	10	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	90	11	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	90	12	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	90	13	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	90	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	90	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	90	16	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	90	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	90	18	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	90	19	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	90	20	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	90	21	maximized	maximize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	90	22	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	90	23	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	90	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	90	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	90	26	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	90	27	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	90	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	91	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	91	2	paper	paper	NN
work_hwk64j4prjebfojdv2ntbddcoi	91	3	proposes	propose	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	91	4	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	91	5	evaluates	evaluate	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	91	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	91	7	methods	method	NNS
work_hwk64j4prjebfojdv2ntbddcoi	91	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	91	9	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	91	10	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	91	11	regarding	regard	VBG
work_hwk64j4prjebfojdv2ntbddcoi	91	12	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	91	13	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	91	14	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	91	15	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	91	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	91	17	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	91	18	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	91	19	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	91	20	simulations	simulation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	91	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	92	1	2	2	LS
work_hwk64j4prjebfojdv2ntbddcoi	92	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	93	1	Building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	93	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	93	3	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	93	4	Information	Information	NNP
work_hwk64j4prjebfojdv2ntbddcoi	93	5	2.1	2.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	93	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	94	1	Building	build	VBG
work_hwk64j4prjebfojdv2ntbddcoi	94	2	Information	information	NN
work_hwk64j4prjebfojdv2ntbddcoi	94	3	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	94	4	chosen	choose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	94	5	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	94	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	94	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	94	8	K	K	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	94	10	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	11	Hospital	Hospital	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	12	located	locate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	94	13	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	94	14	Chilgok	Chilgok	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	94	16	Gyeongbuk	Gyeongbuk	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	94	18	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	94	19	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	94	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	95	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	95	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	95	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	95	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	95	5	exterior	exterior	NN
work_hwk64j4prjebfojdv2ntbddcoi	95	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	95	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	95	8	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	95	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	96	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	96	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	96	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	97	1	Exterior	Exterior	NNP
work_hwk64j4prjebfojdv2ntbddcoi	97	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	97	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	97	4	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	97	5	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	98	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	98	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	98	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	5	9324	9324	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	6	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	98	7	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	98	8	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	98	9	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	10	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	98	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	98	13	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	14	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	98	15	three	three	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	16	stories	story	NNS
work_hwk64j4prjebfojdv2ntbddcoi	98	17	below	below	IN
work_hwk64j4prjebfojdv2ntbddcoi	98	18	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	19	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	98	20	nine	nine	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	21	above	above	JJ
work_hwk64j4prjebfojdv2ntbddcoi	98	22	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	23	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	98	24	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	98	25	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	98	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	98	27	unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	28	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	98	29	530	530	CD
work_hwk64j4prjebfojdv2ntbddcoi	98	30	tonne	tonne	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	31	refrigerant	refrigerant	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	32	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	98	33	RT	RT	NNP
work_hwk64j4prjebfojdv2ntbddcoi	98	34	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	98	35	capacity	capacity	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	36	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	98	37	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	98	38	renewable	renewable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	98	39	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	40	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	98	41	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	99	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	99	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	99	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	100	1	Summary	summary	NN
work_hwk64j4prjebfojdv2ntbddcoi	100	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	100	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	100	4	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	100	5	information	information	NN
work_hwk64j4prjebfojdv2ntbddcoi	100	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	101	1	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	101	2	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	101	3	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	101	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	101	5	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	101	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	102	1	Building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	2	name	name	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	3	Kyungpook	Kyungpook	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	4	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	5	Hospital	Hospital	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	6	Building	Building	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	7	stories	story	NNS
work_hwk64j4prjebfojdv2ntbddcoi	102	8	Building	build	VBG
work_hwk64j4prjebfojdv2ntbddcoi	102	9	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	102	10	three	three	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	11	stories	story	NNS
work_hwk64j4prjebfojdv2ntbddcoi	102	12	below	below	IN
work_hwk64j4prjebfojdv2ntbddcoi	102	13	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	102	15	nine	nine	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	16	above	above	IN
work_hwk64j4prjebfojdv2ntbddcoi	102	17	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	18	Building	Building	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	19	area	area	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	20	9737	9737	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	21	m2	m2	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	22	Total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	102	23	floor	floor	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	24	area	area	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	25	81,928	81,928	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	26	m2	m2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	27	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	29	area	area	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	30	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	102	31	installation	installation	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	32	2263	2263	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	33	m2	m2	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	34	Installed	Installed	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	35	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	102	36	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	102	37	capacity	capacity	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	38	6.708	6.708	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	39	GJ	gj	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	40	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	102	41	h	h	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	42	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	102	43	530	530	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	44	Refrigeration	refrigeration	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	45	ton	ton	NN
work_hwk64j4prjebfojdv2ntbddcoi	102	46	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	102	47	2.2	2.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	102	48	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	103	1	System	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	2	Information	information	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	3	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	4	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	103	5	lists	list	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	103	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	103	7	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	8	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	103	9	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	103	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	103	11	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	12	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	14	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	103	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	103	16	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	17	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	103	18	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	103	19	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	103	20	GHP	ghp	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	21	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	23	6.708	6.708	CD
work_hwk64j4prjebfojdv2ntbddcoi	103	24	GJ	gj	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	25	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	103	26	h	h	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	27	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	28	530	530	CD
work_hwk64j4prjebfojdv2ntbddcoi	103	29	Refrigeration	refrigeration	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	30	ton	ton	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	31	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	32	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	103	33	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	103	34	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	35	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	36	36.70	36.70	CD
work_hwk64j4prjebfojdv2ntbddcoi	103	37	GJ	gj	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	38	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	103	39	h	h	NNP
work_hwk64j4prjebfojdv2ntbddcoi	103	40	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	41	2900	2900	CD
work_hwk64j4prjebfojdv2ntbddcoi	103	42	refrigeration	refrigeration	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	43	ton	ton	NN
work_hwk64j4prjebfojdv2ntbddcoi	103	44	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	45	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	103	46	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	104	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	104	2	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	104	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	104	4	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	104	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	104	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	104	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	104	8	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	9	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	10	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	11	produced	produce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	104	12	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	104	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	104	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	15	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	17	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	104	18	supplied	supply	VBN
work_hwk64j4prjebfojdv2ntbddcoi	104	19	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	104	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	104	21	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	22	coil	coil	NNP
work_hwk64j4prjebfojdv2ntbddcoi	104	23	unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	24	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	104	25	FCU	FCU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	104	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	104	27	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	104	28	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	104	29	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	104	30	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	104	31	operates	operate	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	104	32	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	104	33	section	section	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	34	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	104	35	charge	charge	NN
work_hwk64j4prjebfojdv2ntbddcoi	104	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	105	1	Currently	currently	RB
work_hwk64j4prjebfojdv2ntbddcoi	105	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	105	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	105	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	105	5	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	105	6	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	105	7	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	105	8	controlled	control	VBN
work_hwk64j4prjebfojdv2ntbddcoi	105	9	automatically	automatically	RB
work_hwk64j4prjebfojdv2ntbddcoi	105	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	106	1	Both	both	DT
work_hwk64j4prjebfojdv2ntbddcoi	106	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	106	3	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	106	4	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	106	5	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	106	6	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	106	8	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	9	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	106	10	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	106	11	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	106	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	106	13	numerical	numerical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	106	14	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	16	based	base	VBN
work_hwk64j4prjebfojdv2ntbddcoi	106	17	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	106	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	106	19	hot	hot	JJ
work_hwk64j4prjebfojdv2ntbddcoi	106	20	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	106	21	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	106	22	supply	supply	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	23	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	106	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	107	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	107	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	107	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	107	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	107	6	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	107	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	107	8	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	9	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	107	11	very	very	RB
work_hwk64j4prjebfojdv2ntbddcoi	107	12	low	low	JJ
work_hwk64j4prjebfojdv2ntbddcoi	107	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	107	14	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	107	15	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	16	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	107	17	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	107	18	operate	operate	VBP
work_hwk64j4prjebfojdv2ntbddcoi	107	19	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	107	20	meet	meet	VB
work_hwk64j4prjebfojdv2ntbddcoi	107	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	107	22	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	23	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	107	25	help	help	VB
work_hwk64j4prjebfojdv2ntbddcoi	107	26	reduce	reduce	VB
work_hwk64j4prjebfojdv2ntbddcoi	107	27	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	107	28	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	29	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	107	30	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	31	wastage	wastage	NN
work_hwk64j4prjebfojdv2ntbddcoi	107	32	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	108	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	108	2	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	108	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	109	1	Room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	109	2	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	109	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	110	1	Classification	classification	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	2	Temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	3	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	110	4	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	110	5	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	110	7	Humidity	Humidity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	8	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	110	9	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	10	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	110	11	Summer	Summer	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	12	Winter	Winter	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	13	Summer	Summer	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	14	Winter	Winter	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	15	Ward	Ward	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	16	department	department	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	17	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	18	23	23	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	19	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	20	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	21	Department	Department	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	22	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	110	23	pharmacy	pharmacy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	24	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	25	22	22	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	26	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	27	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	28	Outpatient	Outpatient	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	29	department	department	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	30	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	31	22	22	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	32	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	33	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	34	Operating	operating	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	35	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	36	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	37	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	38	50	50	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	39	50	50	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	40	Recovery	recovery	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	41	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	42	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	43	25	25	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	44	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	45	50	50	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	46	Office	office	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	47	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	48	20	20	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	49	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	50	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	51	Assembly	assembly	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	52	hall	hall	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	53	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	54	20	20	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	55	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	56	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	57	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	110	58	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	110	59	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	60	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	110	61	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	110	62	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	110	63	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	64	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	65	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	110	66	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	110	67	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	68	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	110	69	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	110	70	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	71	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	110	72	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	110	73	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	110	74	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	75	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	110	76	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	110	77	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	111	1	An	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	111	2	underground	underground	JJ
work_hwk64j4prjebfojdv2ntbddcoi	111	3	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	111	4	exchanger	exchanger	NN
work_hwk64j4prjebfojdv2ntbddcoi	111	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	111	6	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	111	7	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	111	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	111	9	depth	depth	NN
work_hwk64j4prjebfojdv2ntbddcoi	111	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	111	11	169	169	CD
work_hwk64j4prjebfojdv2ntbddcoi	111	12	m	m	NNS
work_hwk64j4prjebfojdv2ntbddcoi	111	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	111	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	111	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	111	16	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	111	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	111	18	drilling	drilling	NN
work_hwk64j4prjebfojdv2ntbddcoi	111	19	holes	hole	NNS
work_hwk64j4prjebfojdv2ntbddcoi	111	20	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	111	21	140	140	CD
work_hwk64j4prjebfojdv2ntbddcoi	111	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	112	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	2	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	112	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	112	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	112	5	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	6	list	list	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	112	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	112	9	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	112	10	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	11	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	12	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	112	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	113	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	113	2	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	113	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	113	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	113	5	schedule	schedule	NN
work_hwk64j4prjebfojdv2ntbddcoi	113	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	113	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	113	8	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	113	9	chiller	chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	113	10	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	113	11	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	113	12	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	113	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	114	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	114	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	114	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	114	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	114	5	9325	9325	CD
work_hwk64j4prjebfojdv2ntbddcoi	114	6	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	114	7	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	114	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	115	1	Schematic	schematic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	115	2	diagram	diagram	NN
work_hwk64j4prjebfojdv2ntbddcoi	115	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	115	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	115	5	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	115	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	115	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	115	8	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	115	9	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	115	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	116	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	116	2	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	116	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	117	1	Schematic	schematic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	117	2	diagram	diagram	NN
work_hwk64j4prjebfojdv2ntbddcoi	117	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	117	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	117	5	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	117	6	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	117	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	118	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	118	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	118	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	118	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	118	5	9326	9326	CD
work_hwk64j4prjebfojdv2ntbddcoi	118	6	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	118	7	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	118	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	119	1	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	119	2	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	119	3	GHP	ghp	JJ
work_hwk64j4prjebfojdv2ntbddcoi	119	4	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	119	5	information	information	NN
work_hwk64j4prjebfojdv2ntbddcoi	119	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	120	1	Equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	2	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	3	GH-1	GH-1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	4	GH-2	GH-2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	5	Quantity	Quantity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	6	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	8	Capacity	Capacity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	9	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	10	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	11	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	120	12	h	h	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	13	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	14	Cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	120	15	Heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	16	Cooling	Cooling	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	17	Heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	18	0.59	0.59	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	19	0.62	0.62	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	20	0.12	0.12	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	21	0.13	0.13	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	22	Entering	enter	VBG
work_hwk64j4prjebfojdv2ntbddcoi	120	23	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	24	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	26	EST	EST	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	27	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	28	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	29	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	30	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	31	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	32	31	31	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	33	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	34	31	31	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	35	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	36	Supplied	supply	VBN
work_hwk64j4prjebfojdv2ntbddcoi	120	37	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	38	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	39	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	40	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	41	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	42	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	43	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	44	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	45	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	46	Return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	47	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	48	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	49	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	50	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	120	51	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	120	52	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	120	53	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	54	40	40	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	55	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	56	40	40	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	57	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	120	58	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	120	59	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	121	1	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	121	2	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	121	3	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	121	4	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	121	5	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	121	6	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	121	7	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	121	8	information	information	NN
work_hwk64j4prjebfojdv2ntbddcoi	121	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	122	1	Equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	2	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	3	DAC	DAC	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	4	H-1	H-1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	5	DAC	DAC	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	6	H-2	H-2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	7	Quantity	Quantity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	8	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	9	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	10	Capacity	Capacity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	12	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	13	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	122	14	h	h	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	16	Cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	122	17	Heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	18	Cooling	Cooling	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	19	Heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	20	10.13	10.13	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	21	10.13	10.13	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	22	6.33	6.33	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	23	6.33	6.33	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	24	Cool	cool	JJ
work_hwk64j4prjebfojdv2ntbddcoi	122	25	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	26	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	27	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	28	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	29	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	30	Inlet	Inlet	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	31	Outlet	Outlet	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	32	Inlet	Inlet	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	33	Outlet	Outlet	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	34	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	35	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	36	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	37	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	38	Hot	hot	JJ
work_hwk64j4prjebfojdv2ntbddcoi	122	39	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	40	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	41	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	42	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	43	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	44	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	45	60	60	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	46	55	55	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	47	60	60	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	48	Coolant	coolant	NN
work_hwk64j4prjebfojdv2ntbddcoi	122	49	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	50	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	51	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	122	52	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	122	53	32	32	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	54	37.5	37.5	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	55	32	32	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	56	37.5	37.5	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	57	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	122	58	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	123	1	Development	development	NN
work_hwk64j4prjebfojdv2ntbddcoi	123	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	123	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	123	4	Hybrid	Hybrid	NNP
work_hwk64j4prjebfojdv2ntbddcoi	123	5	Operation	Operation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	123	6	Method	Method	NNP
work_hwk64j4prjebfojdv2ntbddcoi	123	7	3.1	3.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	123	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	124	1	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	124	2	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	124	3	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	124	4	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	124	5	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	124	6	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	124	7	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	124	8	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	124	9	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	124	10	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	124	11	System	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	12	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	124	13	power	power	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	14	capacity	capacity	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	15	demand	demand	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	124	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	124	18	Korean	korean	JJ
work_hwk64j4prjebfojdv2ntbddcoi	124	19	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	20	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	124	21	increased	increase	VBN
work_hwk64j4prjebfojdv2ntbddcoi	124	22	due	due	IN
work_hwk64j4prjebfojdv2ntbddcoi	124	23	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	124	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	124	25	increased	increase	VBN
work_hwk64j4prjebfojdv2ntbddcoi	124	26	power	power	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	27	demand	demand	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	28	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	124	29	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	124	30	conditioners	conditioner	NNS
work_hwk64j4prjebfojdv2ntbddcoi	124	31	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	125	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	125	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	125	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	125	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	125	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	125	6	there	there	EX
work_hwk64j4prjebfojdv2ntbddcoi	125	7	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	125	8	been	be	VBN
work_hwk64j4prjebfojdv2ntbddcoi	125	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	125	10	lack	lack	NN
work_hwk64j4prjebfojdv2ntbddcoi	125	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	125	12	research	research	NN
work_hwk64j4prjebfojdv2ntbddcoi	125	13	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	125	14	reducing	reduce	VBG
work_hwk64j4prjebfojdv2ntbddcoi	125	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	125	16	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	125	17	loads	load	NNS
work_hwk64j4prjebfojdv2ntbddcoi	125	18	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	125	19	improve	improve	VB
work_hwk64j4prjebfojdv2ntbddcoi	125	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	125	21	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	125	22	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	125	23	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	125	24	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	125	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	126	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	126	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	126	5	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	126	6	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	7	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	8	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	126	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	126	10	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	11	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	126	13	super	super	JJ
work_hwk64j4prjebfojdv2ntbddcoi	126	14	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	126	15	phenomenon	phenomenon	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	16	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	17	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	126	18	due	due	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	19	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	20	oversized	oversized	JJ
work_hwk64j4prjebfojdv2ntbddcoi	126	21	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	22	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	126	24	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	126	25	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	26	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	27	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	28	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	29	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	126	30	resulting	result	VBG
work_hwk64j4prjebfojdv2ntbddcoi	126	31	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	32	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	126	33	waste	waste	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	34	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	126	35	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	126	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	127	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	127	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	127	3	focused	focus	VBD
work_hwk64j4prjebfojdv2ntbddcoi	127	4	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	127	5	reducing	reduce	VBG
work_hwk64j4prjebfojdv2ntbddcoi	127	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	127	7	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	127	8	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	127	9	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	127	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	127	11	developing	develop	VBG
work_hwk64j4prjebfojdv2ntbddcoi	127	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	127	13	new	new	JJ
work_hwk64j4prjebfojdv2ntbddcoi	127	14	algorithm	algorithm	NN
work_hwk64j4prjebfojdv2ntbddcoi	127	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	128	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	128	2	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	128	3	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	128	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	128	6	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	128	7	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	8	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	9	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	10	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	128	11	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	128	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	128	13	evaluated	evaluate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	128	14	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	128	15	improve	improve	VB
work_hwk64j4prjebfojdv2ntbddcoi	128	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	128	17	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	18	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	128	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	129	1	3.1.1	3.1.1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	129	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	130	1	Existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	130	2	Operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	3	Condition	Condition	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	130	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	130	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	130	8	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	130	9	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	10	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	130	12	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	130	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	130	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	15	System	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	16	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	130	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	130	18	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	19	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	130	20	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	130	21	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	130	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	130	23	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	24	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	130	25	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	26	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	27	4a	4a	NNS
work_hwk64j4prjebfojdv2ntbddcoi	130	28	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	130	29	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	130	30	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	31	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	32	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	130	33	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	130	34	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	35	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	36	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	130	37	attributed	attribute	VBN
work_hwk64j4prjebfojdv2ntbddcoi	130	38	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	39	oversizing	oversizing	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	40	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	130	41	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	130	42	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	43	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	130	44	airflow	airflow	NNP
work_hwk64j4prjebfojdv2ntbddcoi	130	45	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	131	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	131	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	131	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	131	4	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	131	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	131	6	could	could	MD
work_hwk64j4prjebfojdv2ntbddcoi	131	7	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	131	8	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	131	9	maintained	maintain	VBN
work_hwk64j4prjebfojdv2ntbddcoi	131	10	at	at	IN
work_hwk64j4prjebfojdv2ntbddcoi	131	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	131	12	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	131	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	131	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	131	15	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	131	16	±	±	CD
work_hwk64j4prjebfojdv2ntbddcoi	131	17	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	131	18	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	131	19	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	131	20	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	131	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	132	1	To	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	132	2	solve	solve	VB
work_hwk64j4prjebfojdv2ntbddcoi	132	3	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	132	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	132	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	132	6	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	132	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	132	8	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	132	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	132	10	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	132	11	up	up	RP
work_hwk64j4prjebfojdv2ntbddcoi	132	12	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	132	13	reset	reset	VB
work_hwk64j4prjebfojdv2ntbddcoi	132	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	132	15	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	132	16	airflow	airflow	NNP
work_hwk64j4prjebfojdv2ntbddcoi	132	17	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	132	18	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	132	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	132	20	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	132	21	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	132	22	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	132	23	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	132	24	Equation	Equation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	132	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	132	26	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	132	27	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	132	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	133	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	2	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	133	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	133	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	133	5	resetting	resetting	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	133	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	133	8	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	9	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	10	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	11	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	133	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	134	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	134	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	134	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	134	5	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	7	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	134	8	controlled	control	VBN
work_hwk64j4prjebfojdv2ntbddcoi	134	9	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	134	10	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	134	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	134	12	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	14	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	134	15	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	134	16	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	134	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	134	18	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	19	4b	4b	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	20	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	134	21	m	m	LS
work_hwk64j4prjebfojdv2ntbddcoi	134	22	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	134	23	Air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	24	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	25	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	26	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	27	kg	kg	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	28	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	134	29	h	h	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	31	Qmax	Qmax	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	32	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	134	33	Indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	134	34	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	35	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	36	kJ	kJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	37	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	134	38	h	h	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	39	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	40	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	41	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	134	42	Specific	specific	JJ
work_hwk64j4prjebfojdv2ntbddcoi	134	43	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	44	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	45	kJ/(kg·	kJ/(kg·	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	46	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	47	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	48	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	49	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	50	ΔT	ΔT	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	51	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	134	52	Temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	53	difference	difference	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	54	between	between	IN
work_hwk64j4prjebfojdv2ntbddcoi	134	55	supply	supply	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	56	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	134	57	ventilation	ventilation	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	58	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	59	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	60	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	61	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	62	∆	∆	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	63	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	64	1	1	LS
work_hwk64j4prjebfojdv2ntbddcoi	134	65	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	66	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	67	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	134	68	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	134	69	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	134	70	9327	9327	CD
work_hwk64j4prjebfojdv2ntbddcoi	134	71	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	72	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	134	73	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	74	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	75	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	134	76	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	134	77	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	134	78	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	134	79	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	135	1	Existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	135	2	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	3	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	135	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	135	6	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	7	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	135	8	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	9	graph	graph	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	10	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	11	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	135	12	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	135	13	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	135	14	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	135	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	16	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	135	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	18	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	135	19	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	20	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	21	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	22	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	23	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	24	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	25	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	26	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	135	27	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	28	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	29	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	135	30	reset	reset	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	31	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	135	32	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	33	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	34	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	35	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	36	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	135	37	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	136	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	136	2	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	136	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	137	1	Reset	reset	VB
work_hwk64j4prjebfojdv2ntbddcoi	137	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	137	3	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	4	handling	handle	VBG
work_hwk64j4prjebfojdv2ntbddcoi	137	5	unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	6	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	137	7	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	137	8	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	137	9	fan	fan	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	10	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	11	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	12	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	137	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	138	1	Unit	unit	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	2	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	138	3	kg	kg	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	4	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	138	5	h	h	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	6	AHU1	AHU1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	7	AHU2	AHU2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	8	AHU3	AHU3	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	9	AHU4	AHU4	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	10	AHU5	AHU5	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	11	AHU6	ahu6	IN
work_hwk64j4prjebfojdv2ntbddcoi	138	12	AHU8	AHU8	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	13	Design	Design	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	14	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	15	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	16	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	17	51,840	51,840	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	18	19,200	19,200	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	19	32,640	32,640	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	20	49,200	49,200	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	21	38,400	38,400	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	22	25,200	25,200	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	23	36,000	36,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	24	Reset	reset	JJ
work_hwk64j4prjebfojdv2ntbddcoi	138	25	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	26	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	27	rate	rate	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	28	42,000	42,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	29	24,000	24,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	30	14,000	14,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	31	27,000	27,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	32	28,000	28,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	33	17,000	17,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	34	24,000	24,000	CD
work_hwk64j4prjebfojdv2ntbddcoi	138	35	Control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	36	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	138	37	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	138	38	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	138	39	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	138	40	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	41	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	42	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	138	43	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	138	44	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	45	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	138	46	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	47	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	138	48	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	138	49	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	50	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	138	51	accomplished	accomplish	VBN
work_hwk64j4prjebfojdv2ntbddcoi	138	52	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	138	53	considering	consider	VBG
work_hwk64j4prjebfojdv2ntbddcoi	138	54	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	138	55	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	56	side	side	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	57	returns	return	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	138	58	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	59	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	138	60	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	139	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	139	2	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	139	3	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	4	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	139	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	139	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	139	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	139	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	139	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	139	13	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	139	14	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	139	16	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	17	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	139	18	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	139	19	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	139	20	maintain	maintain	VB
work_hwk64j4prjebfojdv2ntbddcoi	139	21	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	139	22	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	139	23	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	139	25	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	139	26	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	139	27	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	139	28	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	139	29	Tset	Tset	NNP
work_hwk64j4prjebfojdv2ntbddcoi	139	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	139	31	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	139	32	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	139	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	140	1	That	that	RB
work_hwk64j4prjebfojdv2ntbddcoi	140	2	is	is	RB
work_hwk64j4prjebfojdv2ntbddcoi	140	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	140	4	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	140	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	140	6	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	140	7	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	8	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	9	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	140	11	lower	low	JJR
work_hwk64j4prjebfojdv2ntbddcoi	140	12	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	140	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	140	14	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	140	15	value	value	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	16	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	140	17	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	140	18	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	140	19	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	140	20	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	140	21	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	140	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	140	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	140	24	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	25	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	140	26	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	27	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	28	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	140	29	stopped	stop	VBN
work_hwk64j4prjebfojdv2ntbddcoi	140	30	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	140	31	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	140	32	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	140	33	less	less	JJR
work_hwk64j4prjebfojdv2ntbddcoi	140	34	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	140	35	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	140	36	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	140	37	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	140	38	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	140	39	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	140	40	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	41	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	42	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	140	43	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	140	44	on	on	RB
work_hwk64j4prjebfojdv2ntbddcoi	140	45	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	140	46	off	off	RB
work_hwk64j4prjebfojdv2ntbddcoi	140	47	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	140	48	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	141	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	141	2	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	141	3	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	141	4	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	141	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	141	6	constructed	construct	VBN
work_hwk64j4prjebfojdv2ntbddcoi	141	7	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	141	8	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	141	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	141	10	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	141	11	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	141	12	setting	set	VBG
work_hwk64j4prjebfojdv2ntbddcoi	141	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	142	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	142	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	142	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	142	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	142	5	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	142	6	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	142	7	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	142	8	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	142	9	under	under	IN
work_hwk64j4prjebfojdv2ntbddcoi	142	10	on	on	RB
work_hwk64j4prjebfojdv2ntbddcoi	142	11	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	142	12	off	off	NN
work_hwk64j4prjebfojdv2ntbddcoi	142	13	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	142	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	143	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	143	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	143	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	143	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	143	6	even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	143	7	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	143	8	there	there	EX
work_hwk64j4prjebfojdv2ntbddcoi	143	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	143	10	no	no	DT
work_hwk64j4prjebfojdv2ntbddcoi	143	11	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	12	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	143	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	143	14	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	143	15	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	143	17	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	18	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	143	19	unnecessarily	unnecessarily	RB
work_hwk64j4prjebfojdv2ntbddcoi	143	20	consumed	consume	VBN
work_hwk64j4prjebfojdv2ntbddcoi	143	21	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	143	22	meet	meet	VB
work_hwk64j4prjebfojdv2ntbddcoi	143	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	143	24	chilled	chill	VBN
work_hwk64j4prjebfojdv2ntbddcoi	143	25	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	26	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	27	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	28	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	143	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	144	1	Without	without	IN
work_hwk64j4prjebfojdv2ntbddcoi	144	2	limiting	limit	VBG
work_hwk64j4prjebfojdv2ntbddcoi	144	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	144	4	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	6	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	144	7	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	8	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	144	9	solve	solve	VB
work_hwk64j4prjebfojdv2ntbddcoi	144	10	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	144	11	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	12	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	144	13	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	144	14	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	144	15	important	important	JJ
work_hwk64j4prjebfojdv2ntbddcoi	144	16	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	144	17	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	144	18	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	19	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	20	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	144	21	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	144	22	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	144	23	reduce	reduce	VB
work_hwk64j4prjebfojdv2ntbddcoi	144	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	144	25	wasted	waste	VBN
work_hwk64j4prjebfojdv2ntbddcoi	144	26	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	144	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	145	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	145	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	145	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	145	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	145	5	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	145	6	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	145	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	145	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	145	9	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	145	10	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	145	11	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	145	12	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	145	13	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	145	14	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	145	15	responsible	responsible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	145	16	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	145	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	145	18	fixed	fixed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	145	19	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	145	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	145	21	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	145	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	146	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	146	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	146	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	146	4	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	146	5	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	146	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	146	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	146	8	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	146	9	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	146	10	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	146	11	separated	separate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	146	12	independently	independently	RB
work_hwk64j4prjebfojdv2ntbddcoi	146	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	146	14	i.e.	i.e.	FW
work_hwk64j4prjebfojdv2ntbddcoi	146	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	146	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	146	17	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	146	18	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	146	19	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	146	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	146	21	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	146	22	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	146	23	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	146	24	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	146	25	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	146	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	147	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	147	2	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	147	3	way	way	NN
work_hwk64j4prjebfojdv2ntbddcoi	147	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	147	5	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	147	6	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	147	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	147	8	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	147	9	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	147	10	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	147	11	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	147	12	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	147	13	even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	147	14	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	147	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	147	16	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	147	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	147	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	147	19	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	147	20	satisfies	satisfie	NNS
work_hwk64j4prjebfojdv2ntbddcoi	147	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	147	22	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	147	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	147	24	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	147	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	148	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	148	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	148	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	148	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	148	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	148	6	wastage	wastage	NN
work_hwk64j4prjebfojdv2ntbddcoi	148	7	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	148	8	occur	occur	VB
work_hwk64j4prjebfojdv2ntbddcoi	148	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	149	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	149	2	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	149	3	presents	present	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	149	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	149	5	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	149	6	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	149	7	status	status	NN
work_hwk64j4prjebfojdv2ntbddcoi	149	8	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	149	9	algorithm	algorithm	NNP
work_hwk64j4prjebfojdv2ntbddcoi	149	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	150	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	150	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	150	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	150	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	150	5	9328	9328	CD
work_hwk64j4prjebfojdv2ntbddcoi	150	6	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	150	7	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	150	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	151	1	Control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	151	2	algorithms	algorithm	NNS
work_hwk64j4prjebfojdv2ntbddcoi	151	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	151	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	151	5	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	151	6	operating	operating	NN
work_hwk64j4prjebfojdv2ntbddcoi	151	7	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	151	8	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	151	9	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	151	10	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	151	11	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	151	12	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	151	13	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	151	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	152	1	①	①	CD
work_hwk64j4prjebfojdv2ntbddcoi	152	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	152	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	152	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	152	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	152	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	152	7	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	152	8	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	152	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	152	10	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	152	11	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	152	12	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	152	13	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	152	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	153	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	153	2	Activate	activate	VB
work_hwk64j4prjebfojdv2ntbddcoi	153	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	153	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	5	pump	pump	VBP
work_hwk64j4prjebfojdv2ntbddcoi	153	6	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	153	7	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	153	8	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	153	9	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	153	10	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	153	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	153	12	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	153	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	153	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	153	16	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	17	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	18	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	19	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	20	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	21	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	153	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	153	23	Tw	Tw	NNP
work_hwk64j4prjebfojdv2ntbddcoi	153	24	>	>	XX
work_hwk64j4prjebfojdv2ntbddcoi	153	25	Tset	Tset	NNP
work_hwk64j4prjebfojdv2ntbddcoi	153	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	153	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	154	1	Determine	determine	VB
work_hwk64j4prjebfojdv2ntbddcoi	154	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	154	3	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	154	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	154	6	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	154	10	depending	depend	VBG
work_hwk64j4prjebfojdv2ntbddcoi	154	11	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	154	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	154	13	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	14	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	154	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	155	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	155	2	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	155	3	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	4	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	6	maintains	maintain	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	155	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	155	8	present	present	JJ
work_hwk64j4prjebfojdv2ntbddcoi	155	9	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	10	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	155	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	155	12	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	155	13	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	14	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	15	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	155	16	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	155	17	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	155	18	less	less	JJR
work_hwk64j4prjebfojdv2ntbddcoi	155	19	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	155	20	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	155	21	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	155	22	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	155	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	156	1	②	②	CD
work_hwk64j4prjebfojdv2ntbddcoi	156	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	156	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	156	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	156	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	156	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	156	7	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	156	8	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	156	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	156	10	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	156	11	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	156	12	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	156	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	157	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	157	2	When	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	157	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	157	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	5	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	6	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	7	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	157	8	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	9	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	10	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	11	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	157	12	lower	low	JJR
work_hwk64j4prjebfojdv2ntbddcoi	157	13	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	157	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	157	15	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	157	16	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	157	18	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	157	19	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	157	20	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	157	21	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	157	22	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	157	23	stop	stop	VB
work_hwk64j4prjebfojdv2ntbddcoi	157	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	157	25	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	26	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	28	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	157	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	158	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	158	2	To	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	158	3	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	158	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	158	5	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	158	8	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	158	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	158	10	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	11	pump	pump	VBP
work_hwk64j4prjebfojdv2ntbddcoi	158	12	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	158	13	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	14	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	15	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	16	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	158	17	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	158	18	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	158	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	158	20	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	158	21	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	158	23	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	158	24	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	158	25	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	158	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	158	27	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	158	28	operate	operate	VBP
work_hwk64j4prjebfojdv2ntbddcoi	158	29	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	158	30	next	next	JJ
work_hwk64j4prjebfojdv2ntbddcoi	158	31	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	32	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	33	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	158	34	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	159	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	159	2	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	3	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	4	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	5	stops	stop	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	159	6	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	7	sequentially	sequentially	RB
work_hwk64j4prjebfojdv2ntbddcoi	159	8	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	159	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	159	10	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	11	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	12	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	159	13	lower	low	JJR
work_hwk64j4prjebfojdv2ntbddcoi	159	14	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	159	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	159	16	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	159	17	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	18	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	19	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	159	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	159	22	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	23	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	24	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	159	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	160	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	160	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	160	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	160	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	160	5	9329	9329	CD
work_hwk64j4prjebfojdv2ntbddcoi	160	6	3.1.2	3.1.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	160	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	161	1	Sequencing	Sequencing	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	2	Operation	Operation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	3	Condition	Condition	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	161	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	161	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	161	8	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	161	9	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	10	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	161	12	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	13	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	161	16	System	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	161	18	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	19	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	161	20	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	161	21	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	161	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	161	23	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	24	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	161	25	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	26	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	161	27	regardless	regardless	RB
work_hwk64j4prjebfojdv2ntbddcoi	161	28	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	161	29	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	30	outside	outside	JJ
work_hwk64j4prjebfojdv2ntbddcoi	161	31	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	32	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	161	33	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	161	34	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	161	35	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	161	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	37	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	38	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	161	39	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	40	pump	pump	VBP
work_hwk64j4prjebfojdv2ntbddcoi	161	41	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	161	42	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	43	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	44	side	side	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	45	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	161	46	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	161	47	return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	48	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	161	49	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	161	50	fixed	fix	VBN
work_hwk64j4prjebfojdv2ntbddcoi	161	51	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	161	52	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	161	53	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	161	54	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	161	55	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	162	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	162	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	162	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	162	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	162	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	162	7	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	8	return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	162	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	162	11	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	12	side	side	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	13	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	162	14	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	162	15	unnecessary	unnecessary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	162	16	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	17	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	162	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	163	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	163	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	163	3	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	163	4	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	163	5	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	163	6	Table	Table	NNP
work_hwk64j4prjebfojdv2ntbddcoi	163	7	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	163	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	163	9	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	163	10	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	11	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	12	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	163	13	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	163	14	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	163	15	increase	increase	VB
work_hwk64j4prjebfojdv2ntbddcoi	163	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	163	17	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	163	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	163	20	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	21	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	22	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	23	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	163	24	reducing	reduce	VBG
work_hwk64j4prjebfojdv2ntbddcoi	163	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	163	26	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	27	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	163	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	164	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	164	2	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	164	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	165	1	Summary	summary	NN
work_hwk64j4prjebfojdv2ntbddcoi	165	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	165	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	165	4	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	165	5	cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	165	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	165	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	165	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	165	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	165	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	165	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	165	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	166	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	166	3	Classification	classification	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	4	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	5	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	166	6	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	166	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	166	8	Existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	166	9	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	10	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	166	12	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	166	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	166	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	166	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	16	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	166	17	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	166	18	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	166	19	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	166	20	Sequencing	Sequencing	NNP
work_hwk64j4prjebfojdv2ntbddcoi	166	21	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	22	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	23	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	166	24	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	166	25	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	166	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	166	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	28	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	166	29	return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	30	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	31	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	32	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	166	33	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	166	34	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	166	35	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	166	36	cause	cause	VB
work_hwk64j4prjebfojdv2ntbddcoi	166	37	problems	problem	NNS
work_hwk64j4prjebfojdv2ntbddcoi	166	38	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	166	39	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	166	40	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	166	41	comfort	comfort	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	42	or	or	CC
work_hwk64j4prjebfojdv2ntbddcoi	166	43	cause	cause	VB
work_hwk64j4prjebfojdv2ntbddcoi	166	44	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	166	45	waste	waste	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	46	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	166	47	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	166	48	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	167	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	167	2	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	167	3	because	because	IN
work_hwk64j4prjebfojdv2ntbddcoi	167	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	167	5	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	167	6	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	167	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	167	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	167	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	167	10	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	167	11	regardless	regardless	RB
work_hwk64j4prjebfojdv2ntbddcoi	167	12	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	167	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	167	14	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	167	15	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	167	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	167	17	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	167	18	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	167	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	168	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	168	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	168	3	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	168	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	168	5	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	7	fails	fail	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	168	8	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	168	9	conform	conform	VB
work_hwk64j4prjebfojdv2ntbddcoi	168	10	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	168	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	168	12	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	168	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	168	15	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	168	16	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	168	17	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	168	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	168	19	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	168	20	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	21	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	22	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	168	23	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	168	24	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	168	25	operate	operate	VB
work_hwk64j4prjebfojdv2ntbddcoi	168	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	168	27	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	168	28	pump	pump	VB
work_hwk64j4prjebfojdv2ntbddcoi	168	29	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	168	30	adding	add	VBG
work_hwk64j4prjebfojdv2ntbddcoi	168	31	one	one	CD
work_hwk64j4prjebfojdv2ntbddcoi	168	32	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	168	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	169	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	169	2	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	169	3	presents	present	NNS
work_hwk64j4prjebfojdv2ntbddcoi	169	4	algorithms	algorithm	NNS
work_hwk64j4prjebfojdv2ntbddcoi	169	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	169	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	169	7	sequencing	sequencing	NN
work_hwk64j4prjebfojdv2ntbddcoi	169	8	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	169	9	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	169	10	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	169	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	169	12	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	169	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	169	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	170	1	If	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	170	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	170	3	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	4	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	5	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	170	6	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	170	7	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	170	8	sequence	sequence	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	9	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	170	10	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	170	11	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	12	monitoring	monitoring	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	170	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	170	15	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	170	16	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	170	17	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	170	18	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	19	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	170	20	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	170	21	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	170	22	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	170	23	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	170	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	170	25	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	170	26	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	170	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	171	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	171	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	171	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	171	5	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	171	6	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	171	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	171	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	9	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	171	10	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	171	11	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	171	12	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	171	13	reduce	reduce	VB
work_hwk64j4prjebfojdv2ntbddcoi	171	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	171	15	waste	waste	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	171	17	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	171	19	improve	improve	VB
work_hwk64j4prjebfojdv2ntbddcoi	171	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	171	21	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	22	comfort	comfort	NN
work_hwk64j4prjebfojdv2ntbddcoi	171	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	172	1	①	①	CD
work_hwk64j4prjebfojdv2ntbddcoi	172	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	172	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	172	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	172	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	172	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	172	7	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	172	8	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	172	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	173	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	173	2	Activate	activate	VB
work_hwk64j4prjebfojdv2ntbddcoi	173	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	173	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	5	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	6	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	173	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	173	8	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	173	10	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	173	11	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	173	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	173	13	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	173	14	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	173	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	173	17	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	173	18	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	19	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	173	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	173	21	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	173	22	>	>	XX
work_hwk64j4prjebfojdv2ntbddcoi	173	23	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	173	24	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	173	25	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	173	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	173	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	174	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	174	2	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	3	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	4	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	174	5	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	174	6	sequentially	sequentially	RB
work_hwk64j4prjebfojdv2ntbddcoi	174	7	upon	upon	IN
work_hwk64j4prjebfojdv2ntbddcoi	174	8	failure	failure	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	9	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	174	10	share	share	VB
work_hwk64j4prjebfojdv2ntbddcoi	174	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	174	12	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	174	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	174	15	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	16	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	174	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	174	18	single	single	JJ
work_hwk64j4prjebfojdv2ntbddcoi	174	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	20	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	174	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	175	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	175	2	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	3	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	175	5	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	175	7	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	175	8	upon	upon	IN
work_hwk64j4prjebfojdv2ntbddcoi	175	9	failure	failure	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	10	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	175	11	share	share	VB
work_hwk64j4prjebfojdv2ntbddcoi	175	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	175	13	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	14	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	175	15	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	175	16	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	175	17	pumps	pump	NNS
work_hwk64j4prjebfojdv2ntbddcoi	175	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	176	1			NNP
work_hwk64j4prjebfojdv2ntbddcoi	176	2	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	176	3	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	176	4	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	176	5	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	176	6	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	7	maintains	maintain	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	176	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	176	9	present	present	JJ
work_hwk64j4prjebfojdv2ntbddcoi	176	10	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	11	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	176	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	176	13	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	176	14	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	15	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	16	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	176	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	176	18	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	19	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	20	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	176	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	177	1	②	②	CD
work_hwk64j4prjebfojdv2ntbddcoi	177	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	177	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	177	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	177	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	177	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	177	7	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	177	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	178	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	178	2	When	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	178	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	178	4	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	178	7	lower	low	JJR
work_hwk64j4prjebfojdv2ntbddcoi	178	8	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	178	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	178	10	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	178	11	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	12	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	178	13	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	178	14	≤	≤	NNP
work_hwk64j4prjebfojdv2ntbddcoi	178	15	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	178	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	178	17	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	178	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	178	20	stop	stop	VB
work_hwk64j4prjebfojdv2ntbddcoi	178	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	178	22	sequentially	sequentially	JJ
work_hwk64j4prjebfojdv2ntbddcoi	178	23	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	178	24	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	178	25	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	178	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	27	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	178	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	179	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	179	2	To	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	179	3	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	179	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	179	5	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	179	8	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	179	9	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	10	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	11	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	12	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	13	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	179	14	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	179	15	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	179	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	179	17	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	18	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	19	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	179	21	operate	operate	VBP
work_hwk64j4prjebfojdv2ntbddcoi	179	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	179	23	next	next	JJ
work_hwk64j4prjebfojdv2ntbddcoi	179	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	179	25	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	179	26	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	179	27	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	179	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	179	29	additionally	additionally	RB
work_hwk64j4prjebfojdv2ntbddcoi	179	30	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	179	31	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	179	32	>	>	XX
work_hwk64j4prjebfojdv2ntbddcoi	179	33	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	179	34	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	179	35	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	179	36	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	179	37	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	180	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	180	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	180	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	180	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	180	5	9330	9330	CD
work_hwk64j4prjebfojdv2ntbddcoi	180	6	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	180	7	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	180	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	181	1	Control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	181	2	algorithms	algorithm	NNS
work_hwk64j4prjebfojdv2ntbddcoi	181	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	181	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	181	5	sequencing	sequencing	NN
work_hwk64j4prjebfojdv2ntbddcoi	181	6	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	181	7	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	181	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	181	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	181	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	181	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	181	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	181	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	181	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	182	1	3.2	3.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	182	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	183	1	Combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	2	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	183	3	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	183	5	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	183	6	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	7	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	8	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	183	9	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	10	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	11	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	12	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	183	13	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	183	15	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	183	16	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	183	18	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	19	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	183	20	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	183	22	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	23	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	24	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	183	25	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	183	26	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	183	27	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	29	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	183	30	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	183	31	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	32	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	183	33	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	34	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	183	35	separated	separate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	183	36	independently	independently	RB
work_hwk64j4prjebfojdv2ntbddcoi	183	37	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	183	38	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	183	39	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	183	40	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	41	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	183	42	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	183	43	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	183	44	being	be	VBG
work_hwk64j4prjebfojdv2ntbddcoi	183	45	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	183	46	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	184	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	2	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	184	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	4	Table	Table	NNP
work_hwk64j4prjebfojdv2ntbddcoi	184	5	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	184	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	184	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	184	8	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	9	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	10	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	184	11	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	184	12	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	184	13	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	184	14	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	184	15	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	16	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	17	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	184	19	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	184	20	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	184	22	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	23	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	184	24	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	184	25	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	184	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	184	27	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	184	28	while	while	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	29	maximizing	maximize	VBG
work_hwk64j4prjebfojdv2ntbddcoi	184	30	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	184	31	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	32	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	184	33	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	184	34	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	35	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	184	36	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	184	37	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	185	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	185	2	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	185	3	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	185	4	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	185	5	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	185	6	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	185	7	two	two	CD
work_hwk64j4prjebfojdv2ntbddcoi	185	8	types	type	NNS
work_hwk64j4prjebfojdv2ntbddcoi	185	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	185	10	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	185	11	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	186	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	186	2	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	186	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	187	1	Summary	summary	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	187	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	187	4	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	5	cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	187	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	187	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	187	8	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	9	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	187	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	187	11	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	187	12	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	187	13	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	187	14	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	187	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	187	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	187	17	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	187	18	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	19	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	187	20	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	21	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	187	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	188	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	2	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	3	Classification	classification	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	4	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	6	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	188	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	8	Existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	188	9	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	10	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	188	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	188	13	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	188	14	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	188	15	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	16	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	188	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	188	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	188	19	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	20	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	188	22	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	23	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	24	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	25	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	26	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	188	27	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	28	Hybrid	Hybrid	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	29	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	30	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	31	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	188	32	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	188	33	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	188	34	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	188	35	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	36	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	188	37	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	188	38	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	188	39	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	40	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	41	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	188	42	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	43	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	188	44	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	188	45	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	46	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	188	47	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	48	9331	9331	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	49	3.2.1	3.2.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	188	50	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	189	1	Existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	189	2	Operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	3	Condition	Condition	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	189	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	189	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	189	8	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	9	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	10	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	12	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	13	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	16	Systems	Systems	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	189	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	189	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	189	19	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	21	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	23	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	24	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	189	25	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	26	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	27	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	28	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	29	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	189	30	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	189	31	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	189	32	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	189	33	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	189	34	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	35	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	36	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	37	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	38	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	189	39	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	40	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	41	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	189	42	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	43	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	189	44	responsible	responsible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	45	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	189	46	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	189	47	fixed	fixed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	189	48	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	189	49	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	189	50	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	189	51	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	190	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	190	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	190	3	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	190	4	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	190	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	190	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	190	7	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	190	8	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	190	9	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	190	10	separated	separate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	190	11	independently	independently	RB
work_hwk64j4prjebfojdv2ntbddcoi	190	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	190	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	190	14	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	190	15	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	190	16	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	190	17	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	190	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	190	19	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	190	20	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	190	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	190	22	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	190	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	191	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	191	2	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	191	3	way	way	NN
work_hwk64j4prjebfojdv2ntbddcoi	191	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	191	5	even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	191	6	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	191	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	191	8	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	191	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	191	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	191	11	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	191	12	satisfies	satisfie	NNS
work_hwk64j4prjebfojdv2ntbddcoi	191	13	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	191	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	191	15	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	191	16	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	191	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	191	18	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	191	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	191	20	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	191	21	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	191	22	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	191	23	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	191	24	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	191	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	192	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	192	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	192	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	192	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	192	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	192	6	wastage	wastage	NN
work_hwk64j4prjebfojdv2ntbddcoi	192	7	occurs	occur	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	192	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	193	1	3.2.2	3.2.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	193	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	194	1	Hybrid	Hybrid	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	2	Operation	Operation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	3	Condition	Condition	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	194	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	194	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	194	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	194	8	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	194	9	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	10	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	12	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	13	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	16	Systems	Systems	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	194	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	194	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	194	19	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	21	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	23	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	24	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	194	25	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	26	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	27	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	28	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	29	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	194	30	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	194	31	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	194	32	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	194	33	Among	among	IN
work_hwk64j4prjebfojdv2ntbddcoi	194	34	them	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	194	35	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	194	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	194	37	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	194	38	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	39	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	194	40	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	194	41	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	194	42	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	194	43	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	194	44	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	45	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	194	46	selected	select	VBN
work_hwk64j4prjebfojdv2ntbddcoi	194	47	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	194	48	integrated	integrate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	194	49	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	194	50	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	194	51	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	52	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	53	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	194	54	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	194	55	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	195	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	195	2	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	195	3	words	word	NNS
work_hwk64j4prjebfojdv2ntbddcoi	195	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	195	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	195	6	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	7	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	8	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	195	9	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	195	10	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	195	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	195	12	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	195	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	14	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	195	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	195	17	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	195	18	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	195	19	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	195	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	21	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	195	22	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	195	23	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	24	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	25	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	195	26	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	195	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	196	1	If	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	196	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	3	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	196	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	196	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	196	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	196	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	196	11	maximized	maximize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	196	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	196	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	14	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	196	15	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	16	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	196	17	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	196	19	i.e.	i.e.	FW
work_hwk64j4prjebfojdv2ntbddcoi	196	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	196	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	22	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	196	23	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	24	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	25	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	196	26	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	196	27	minimized	minimize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	196	28	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	196	29	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	30	would	would	MD
work_hwk64j4prjebfojdv2ntbddcoi	196	31	result	result	VB
work_hwk64j4prjebfojdv2ntbddcoi	196	32	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	196	33	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	196	34	increase	increase	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	35	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	196	36	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	37	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	196	38	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	197	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	197	2	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	197	3	presents	present	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	197	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	197	5	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	197	6	algorithm	algorithm	NNP
work_hwk64j4prjebfojdv2ntbddcoi	197	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	198	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	198	2	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	198	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	199	1	Hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	199	2	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	3	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	199	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	199	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	199	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	199	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	199	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	199	11	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	199	12	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	199	14	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	199	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	200	1	①	①	CD
work_hwk64j4prjebfojdv2ntbddcoi	200	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	200	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	200	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	200	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	200	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	200	7	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	200	8	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	200	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	201	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	201	2	Activate	activate	VB
work_hwk64j4prjebfojdv2ntbddcoi	201	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	201	4	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	5	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	6	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	201	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	201	8	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	201	10	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	201	11	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	201	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	201	13	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	201	14	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	201	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	201	17	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	201	18	space	space	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	19	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	201	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	201	21	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	201	22	>	>	XX
work_hwk64j4prjebfojdv2ntbddcoi	201	23	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	201	24	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	201	25	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	201	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	201	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	202	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	202	2	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	3	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	4	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	202	5	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	202	6	sequentially	sequentially	RB
work_hwk64j4prjebfojdv2ntbddcoi	202	7	upon	upon	IN
work_hwk64j4prjebfojdv2ntbddcoi	202	8	failure	failure	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	9	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	202	10	share	share	VB
work_hwk64j4prjebfojdv2ntbddcoi	202	11	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	202	12	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	202	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	202	14	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	202	15	9332	9332	CD
work_hwk64j4prjebfojdv2ntbddcoi	202	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	202	17	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	202	19	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	202	20	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	21	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	202	22	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	202	23	single	single	JJ
work_hwk64j4prjebfojdv2ntbddcoi	202	24	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	25	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	202	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	203	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	203	2	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	3	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	203	5	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	203	7	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	203	8	upon	upon	IN
work_hwk64j4prjebfojdv2ntbddcoi	203	9	failure	failure	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	10	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	203	11	share	share	VB
work_hwk64j4prjebfojdv2ntbddcoi	203	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	203	13	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	14	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	203	15	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	203	16	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	203	17	pumps	pump	NNS
work_hwk64j4prjebfojdv2ntbddcoi	203	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	204	1	②	②	CD
work_hwk64j4prjebfojdv2ntbddcoi	204	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	204	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	204	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	204	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	204	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	204	7	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	204	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	205	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	205	2	When	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	205	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	205	4	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	6	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	205	7	lower	low	JJR
work_hwk64j4prjebfojdv2ntbddcoi	205	8	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	205	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	205	10	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	205	11	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	12	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	205	13	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	205	14	≤	≤	NNP
work_hwk64j4prjebfojdv2ntbddcoi	205	15	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	205	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	205	17	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	205	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	205	20	stop	stop	VB
work_hwk64j4prjebfojdv2ntbddcoi	205	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	205	22	sequentially	sequentially	JJ
work_hwk64j4prjebfojdv2ntbddcoi	205	23	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	205	24	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	205	25	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	205	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	27	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	205	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	206	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	206	2	To	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	206	3	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	206	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	206	5	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	206	8	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	206	9	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	10	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	11	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	12	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	13	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	206	14	higher	high	JJR
work_hwk64j4prjebfojdv2ntbddcoi	206	15	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	206	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	206	17	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	18	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	19	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	206	21	operate	operate	VBP
work_hwk64j4prjebfojdv2ntbddcoi	206	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	206	23	next	next	JJ
work_hwk64j4prjebfojdv2ntbddcoi	206	24	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	206	25	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	206	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	206	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	206	28	additionally	additionally	RB
work_hwk64j4prjebfojdv2ntbddcoi	206	29	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	206	30	Troom	Troom	NNP
work_hwk64j4prjebfojdv2ntbddcoi	206	31	>	>	XX
work_hwk64j4prjebfojdv2ntbddcoi	206	32	Tr	Tr	NNP
work_hwk64j4prjebfojdv2ntbddcoi	206	33	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	206	34	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	206	35	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	206	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	207	1			NNS
work_hwk64j4prjebfojdv2ntbddcoi	207	2	If	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	207	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	207	4	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	207	5	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	6	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	7	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	8	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	207	9	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	207	10	bear	bear	VB
work_hwk64j4prjebfojdv2ntbddcoi	207	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	207	12	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	207	14	activate	activate	VBP
work_hwk64j4prjebfojdv2ntbddcoi	207	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	207	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	207	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	207	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	207	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	208	1	4	4	LS
work_hwk64j4prjebfojdv2ntbddcoi	208	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	209	1	Simulations	Simulations	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	209	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	209	3	Results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	209	4	4.1	4.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	209	5	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	210	1	Simulation	Simulation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	2	Information	Information	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	3	Building	Building	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	4	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	210	5	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	210	6	performed	perform	VBN
work_hwk64j4prjebfojdv2ntbddcoi	210	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	210	8	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	210	9	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	210	10	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	210	11	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	12	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	210	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	210	14	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	210	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	210	16	transient	transient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	210	17	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	210	18	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	210	19	program	program	NN
work_hwk64j4prjebfojdv2ntbddcoi	210	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	210	21	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	210	23	3D	3d	NN
work_hwk64j4prjebfojdv2ntbddcoi	210	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	210	25	Google	Google	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	26	Sketch	Sketch	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	27	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	210	28	Up	Up	NNP
work_hwk64j4prjebfojdv2ntbddcoi	210	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	211	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	211	2	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	211	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	211	4	Figures	figure	NNS
work_hwk64j4prjebfojdv2ntbddcoi	211	5	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	211	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	211	7	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	211	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	211	9	detailed	detailed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	211	10	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	211	11	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	211	12	entered	enter	VBN
work_hwk64j4prjebfojdv2ntbddcoi	211	13	into	into	IN
work_hwk64j4prjebfojdv2ntbddcoi	211	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	211	15	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	211	16	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	211	17	via	via	IN
work_hwk64j4prjebfojdv2ntbddcoi	211	18	Trnbuild	Trnbuild	NNP
work_hwk64j4prjebfojdv2ntbddcoi	211	19	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	211	20	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	211	21	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	211	22	Studio	Studio	NNP
work_hwk64j4prjebfojdv2ntbddcoi	211	23	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	211	24	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	211	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	211	26	HVAC	HVAC	NNP
work_hwk64j4prjebfojdv2ntbddcoi	211	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	211	28	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	211	29	implemented	implement	VBN
work_hwk64j4prjebfojdv2ntbddcoi	211	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	212	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	212	2	weather	weather	NN
work_hwk64j4prjebfojdv2ntbddcoi	212	3	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	212	4	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	212	5	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	212	6	Daegu	Daegu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	212	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	212	8	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	212	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	213	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	213	2	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	213	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	213	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	213	5	components	component	NNS
work_hwk64j4prjebfojdv2ntbddcoi	213	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	213	7	properties	property	NNS
work_hwk64j4prjebfojdv2ntbddcoi	213	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	213	9	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	213	10	wall	wall	NN
work_hwk64j4prjebfojdv2ntbddcoi	213	11	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	214	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	214	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	214	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	214	5	hospital	hospital	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	6	building	build	VBG
work_hwk64j4prjebfojdv2ntbddcoi	214	7	heat	heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	214	8	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	9	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	10	operates	operate	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	214	11	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	214	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	214	13	facility	facility	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	14	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	214	15	h	h	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	16	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	214	17	day	day	NN
work_hwk64j4prjebfojdv2ntbddcoi	214	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	215	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	215	2	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	215	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	216	1	Material	material	JJ
work_hwk64j4prjebfojdv2ntbddcoi	216	2	property	property	NN
work_hwk64j4prjebfojdv2ntbddcoi	216	3	specifications	specification	NNS
work_hwk64j4prjebfojdv2ntbddcoi	216	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	217	1	Classfication	Classfication	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	2	Construction	Construction	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	3	Thick	Thick	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	5	m	m	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	7	Conductivity	Conductivity	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	8	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	9	W	W	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	10	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	217	11	mK	mK	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	12	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	13	Density	Density	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	15	kg	kg	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	16	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	217	17	m3	m3	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	217	19	Exterior	Exterior	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	20	wall	wall	NN
work_hwk64j4prjebfojdv2ntbddcoi	217	21	Granite	Granite	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	22	0.03	0.03	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	23	3.17	3.17	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	24	2560	2560	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	25	panel	panel	NN
work_hwk64j4prjebfojdv2ntbddcoi	217	26	0.1	0.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	27	0.51	0.51	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	28	140	140	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	29	Insulation	Insulation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	30	0.042	0.042	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	31	0.036	0.036	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	32	140	140	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	33	Gypboard	gypboard	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	34	0.025	0.025	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	35	0.58	0.58	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	36	800	800	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	37	Interior	Interior	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	38	wall	wall	NN
work_hwk64j4prjebfojdv2ntbddcoi	217	39	Gypboard	Gypboard	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	40	0.016	0.016	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	41	0.16	0.16	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	42	801	801	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	43	Air	Air	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	44	0.022	0.022	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	45	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	217	46	-	-	:
work_hwk64j4prjebfojdv2ntbddcoi	217	47	Gypboard	Gypboard	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	48	0.016	0.016	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	49	0.16	0.16	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	50	801	801	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	51	Floor	Floor	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	52	Concrete	Concrete	NNP
work_hwk64j4prjebfojdv2ntbddcoi	217	53	0.2	0.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	54	1.6	1.6	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	55	2240	2240	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	56	Insulation	insulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	217	57	0.061	0.061	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	58	0.051	0.051	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	59	140	140	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	60	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	217	61	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	217	62	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	218	1	Building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	218	2	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	218	3	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	218	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	218	5	sketch	sketch	NN
work_hwk64j4prjebfojdv2ntbddcoi	218	6	up	up	RP
work_hwk64j4prjebfojdv2ntbddcoi	218	7	program	program	NN
work_hwk64j4prjebfojdv2ntbddcoi	218	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	219	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	219	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	219	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	219	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	219	5	9333	9333	CD
work_hwk64j4prjebfojdv2ntbddcoi	219	6	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	219	7	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	219	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	220	1	Trnbuild	trnbuild	NN
work_hwk64j4prjebfojdv2ntbddcoi	220	2	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	220	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	221	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	221	2	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	221	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	222	1	Transient	transient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	222	2	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	3	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	4	program	program	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	5	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	222	6	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	222	7	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	222	8	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	9	studio	studio	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	10	modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	222	11	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	223	1	4.1.1	4.1.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	223	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	224	1	Building	build	VBG
work_hwk64j4prjebfojdv2ntbddcoi	224	2	Modeling	model	VBG
work_hwk64j4prjebfojdv2ntbddcoi	224	3	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	4	aim	aim	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	224	6	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	7	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	224	9	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	224	10	show	show	VB
work_hwk64j4prjebfojdv2ntbddcoi	224	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	12	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	13	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	224	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	16	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	224	17	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	224	18	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	224	19	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	20	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	224	21	improve	improve	VB
work_hwk64j4prjebfojdv2ntbddcoi	224	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	23	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	24	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	25	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	224	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	224	27	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	224	28	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	224	29	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	224	30	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	224	31	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	224	32	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	224	33	Figures	Figures	NNP
work_hwk64j4prjebfojdv2ntbddcoi	224	34	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	224	35	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	224	36	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	224	37	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	224	38	31	31	CD
work_hwk64j4prjebfojdv2ntbddcoi	224	39	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	224	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	225	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	225	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	225	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	225	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	225	5	9334	9334	CD
work_hwk64j4prjebfojdv2ntbddcoi	225	6	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	225	7	a	a	NN
work_hwk64j4prjebfojdv2ntbddcoi	225	8	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	225	9	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	225	10	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	225	11	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	225	12	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	225	13	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	225	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	226	1	Simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	2	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	3	chart	chart	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	226	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	226	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	226	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	10	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	226	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	12	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	226	13	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	14	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	226	15	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	16	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	226	18	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	19	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	20	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	226	21	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	23	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	24	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	226	25	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	226	26	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	226	27	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	28	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	226	29	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	30	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	31	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	32	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	226	33	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	34	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	35	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	226	36	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	37	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	226	38	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	226	39	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	40	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	41	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	226	42	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	226	43	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	226	44	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	226	45	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	226	46	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	227	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	227	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	227	3	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	227	5	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	6	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	227	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	227	8	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	10	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	227	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	227	13	Type	Type	NNP
work_hwk64j4prjebfojdv2ntbddcoi	227	14	927	927	CD
work_hwk64j4prjebfojdv2ntbddcoi	227	15	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	227	16	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	17	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	227	18	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	20	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	227	21	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	227	22	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	227	23	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	227	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	228	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	228	2	Type	type	NN
work_hwk64j4prjebfojdv2ntbddcoi	228	3	557a	557a	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	228	4	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	228	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	228	6	vertical	vertical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	228	7	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	228	8	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	228	9	exchanger	exchanger	NN
work_hwk64j4prjebfojdv2ntbddcoi	228	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	229	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	229	2	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	3	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	4	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	5	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	229	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	229	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	229	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	229	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	229	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	12	used	use	VBD
work_hwk64j4prjebfojdv2ntbddcoi	229	13	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	229	14	Type	Type	NNP
work_hwk64j4prjebfojdv2ntbddcoi	229	15	911	911	CD
work_hwk64j4prjebfojdv2ntbddcoi	229	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	229	17	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	229	18	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	229	19	off	off	NN
work_hwk64j4prjebfojdv2ntbddcoi	229	20	controller	controller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	229	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	230	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	230	2	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	230	3	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	4	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	5	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	230	6	implemented	implement	VBD
work_hwk64j4prjebfojdv2ntbddcoi	230	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	230	8	sequencing	sequencing	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	9	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	10	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	230	11	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	230	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	230	13	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	14	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	15	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	230	16	connected	connect	VBN
work_hwk64j4prjebfojdv2ntbddcoi	230	17	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	230	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	230	19	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	21	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	230	22	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	230	23	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	230	24	operating	operating	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	25	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	230	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	231	1	For	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	231	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	231	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	231	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	231	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	231	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	8	implemented	implement	VBN
work_hwk64j4prjebfojdv2ntbddcoi	231	9	outdoor	outdoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	231	10	reset	reset	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	11	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	12	connects	connect	NNS
work_hwk64j4prjebfojdv2ntbddcoi	231	13	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	15	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	18	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	19	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	231	20	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	22	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	23	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	25	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	26	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	231	27	operating	operating	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	29	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	231	30	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	231	31	outside	outside	JJ
work_hwk64j4prjebfojdv2ntbddcoi	231	32	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	231	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	232	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	232	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	232	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	232	5	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	232	6	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	7	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	8	used	use	VBD
work_hwk64j4prjebfojdv2ntbddcoi	232	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	232	10	Type	Type	NNP
work_hwk64j4prjebfojdv2ntbddcoi	232	11	661	661	CD
work_hwk64j4prjebfojdv2ntbddcoi	232	12	device	device	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	13	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	232	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	232	15	time	time	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	16	delay	delay	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	232	18	reflected	reflect	VBD
work_hwk64j4prjebfojdv2ntbddcoi	232	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	232	20	ambient	ambient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	232	21	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	22	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	232	23	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	232	24	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	232	25	performed	perform	VBN
work_hwk64j4prjebfojdv2ntbddcoi	232	26	sequentially	sequentially	RB
work_hwk64j4prjebfojdv2ntbddcoi	232	27	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	232	28	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	232	29	equation	equation	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	30	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	232	31	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	232	32	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	233	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	233	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	233	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	233	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	233	5	9335	9335	CD
work_hwk64j4prjebfojdv2ntbddcoi	233	6	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	233	7	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	233	8	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	233	9	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	233	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	233	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	233	12	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	233	13	operating	operating	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	14	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	15	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	233	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	233	17	separate	separate	JJ
work_hwk64j4prjebfojdv2ntbddcoi	233	18	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	19	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	20	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	233	21	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	22	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	233	23	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	233	24	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	233	25	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	233	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	233	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	234	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	234	2	Type	Type	NNP
work_hwk64j4prjebfojdv2ntbddcoi	234	3	678	678	CD
work_hwk64j4prjebfojdv2ntbddcoi	234	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	234	5	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	6	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	7	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	234	8	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	234	9	Type	Type	NNP
work_hwk64j4prjebfojdv2ntbddcoi	234	10	700	700	CD
work_hwk64j4prjebfojdv2ntbddcoi	234	11	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	234	12	gas	gas	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	13	boiler	boiler	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	14	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	234	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	234	16	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	234	17	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	234	18	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	234	19	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	234	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	234	21	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	22	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	234	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	234	24	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	234	25	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	26	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	234	27	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	234	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	235	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	235	2	12a	12a	NNS
work_hwk64j4prjebfojdv2ntbddcoi	235	3	presents	present	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	235	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	235	5	schematic	schematic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	235	6	diagram	diagram	NN
work_hwk64j4prjebfojdv2ntbddcoi	235	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	235	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	235	9	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	235	10	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	236	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	236	2	shown	show	VBN
work_hwk64j4prjebfojdv2ntbddcoi	236	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	236	4	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	5	12b	12b	NNS
work_hwk64j4prjebfojdv2ntbddcoi	236	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	236	7	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	236	8	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	236	9	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	236	10	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	236	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	236	12	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	236	13	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	236	14	simulated	simulate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	236	15	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	236	16	modeling	model	VBG
work_hwk64j4prjebfojdv2ntbddcoi	236	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	236	18	single	single	JJ
work_hwk64j4prjebfojdv2ntbddcoi	236	19	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	236	21	combines	combine	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	236	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	236	23	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	24	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	25	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	236	26	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	27	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	236	28	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	236	29	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	236	30	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	236	31	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	236	32	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	236	33	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	236	34	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	236	35	separated	separated	JJ
work_hwk64j4prjebfojdv2ntbddcoi	236	36	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	236	37	independent	independent	JJ
work_hwk64j4prjebfojdv2ntbddcoi	236	38	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	237	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	237	2	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	237	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	237	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	237	5	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	237	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	237	7	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	237	8	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	237	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	238	1	Simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	2	flow	flow	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	3	chart	chart	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	238	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	238	6	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	7	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	238	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	238	9	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	10	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	11	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	12	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	13	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	238	14	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	238	15	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	16	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	17	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	238	18	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	19	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	20	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	238	21	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	22	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	238	23	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	24	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	238	25	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	26	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	27	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	238	28	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	238	29	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	30	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	31	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	32	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	33	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	238	34	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	35	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	36	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	238	37	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	38	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	39	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	40	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	41	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	238	42	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	238	43	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	238	44	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	45	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	238	46	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	47	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	48	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	49	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	238	50	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	51	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	52	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	238	53	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	238	54	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	55	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	238	56	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	57	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	58	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	238	59	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	238	60	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	61	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	238	62	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	63	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	64	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	65	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	238	66	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	238	67	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	238	68	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	238	69	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	238	70	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	239	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	239	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	239	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	239	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	239	5	9336	9336	CD
work_hwk64j4prjebfojdv2ntbddcoi	239	6	4.1.2	4.1.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	239	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	240	1	Simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	2	Validation	validation	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	3	According	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	240	4	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	5	Equations	equation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	240	6	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	7	2)–(5	2)–(5	NNP
work_hwk64j4prjebfojdv2ntbddcoi	240	8	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	240	10	mean	mean	VB
work_hwk64j4prjebfojdv2ntbddcoi	240	11	bias	bias	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	12	error	error	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	13	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	14	MBE	MBE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	240	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	240	17	coefficient	coefficient	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	19	variation	variation	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	21	root	root	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	22	mean	mean	VBP
work_hwk64j4prjebfojdv2ntbddcoi	240	23	square	square	JJ
work_hwk64j4prjebfojdv2ntbddcoi	240	24	error	error	NN
work_hwk64j4prjebfojdv2ntbddcoi	240	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	26	Cv	Cv	NNP
work_hwk64j4prjebfojdv2ntbddcoi	240	27	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	28	RMSE	RMSE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	240	29	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	240	31	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	240	32	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	240	33	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	240	34	one	one	CD
work_hwk64j4prjebfojdv2ntbddcoi	240	35	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	240	37	statistical	statistical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	240	38	methods	method	NNS
work_hwk64j4prjebfojdv2ntbddcoi	240	39	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	240	40	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	41	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	240	42	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	240	43	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	240	44	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	240	45	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	240	46	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	240	47	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	240	48	evaluate	evaluate	VB
work_hwk64j4prjebfojdv2ntbddcoi	240	49	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	240	50	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	240	51	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	240	52	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	240	53	simulations	simulation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	240	54	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	241	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	2	corresponding	corresponding	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	3	equations	equation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	4	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	241	5	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	6	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	241	7	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	241	8	where	where	WRB
work_hwk64j4prjebfojdv2ntbddcoi	241	9	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	241	10	SINT	SINT	NNP
work_hwk64j4prjebfojdv2ntbddcoi	241	11	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	241	12	Simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	13	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	15	kWh	kWh	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	16	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	17	MINT	MINT	NNP
work_hwk64j4prjebfojdv2ntbddcoi	241	18	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	241	19	Actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	20	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	21	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	22	kWh	kWh	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	23	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	24	NINT	NINT	NNP
work_hwk64j4prjebfojdv2ntbddcoi	241	25	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	241	26	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	27	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	28	number	number	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	29	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	30	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	31	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	32	According	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	241	33	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	34	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	35	ASHRAE	ashrae	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	36	Guideline	Guideline	NNP
work_hwk64j4prjebfojdv2ntbddcoi	241	37	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	241	38	[	[	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	39	32	32	CD
work_hwk64j4prjebfojdv2ntbddcoi	241	40	]	]	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	241	41	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	241	42	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	43	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	44	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	45	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	46	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	47	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	48	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	241	49	reliable	reliable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	50	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	51	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	52	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	53	entered	enter	VBN
work_hwk64j4prjebfojdv2ntbddcoi	241	54	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	55	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	56	range	range	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	57	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	58	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	59	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	241	60	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	241	61	comparable	comparable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	62	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	241	63	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	241	64	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	241	65	data	data	NN
work_hwk64j4prjebfojdv2ntbddcoi	241	66	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	241	67	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	242	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	242	2	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	242	3	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	4	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	242	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	242	6	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	7	’s	’s	POS
work_hwk64j4prjebfojdv2ntbddcoi	242	8	electricity	electricity	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	9	usage	usage	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	10	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	242	11	August	August	NNP
work_hwk64j4prjebfojdv2ntbddcoi	242	12	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	242	13	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	242	14	348,682	348,682	CD
work_hwk64j4prjebfojdv2ntbddcoi	242	15	kWh	kWh	NNS
work_hwk64j4prjebfojdv2ntbddcoi	242	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	242	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	242	18	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	242	19	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	242	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	242	22	electricity	electricity	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	23	usage	usage	NN
work_hwk64j4prjebfojdv2ntbddcoi	242	24	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	242	25	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	242	26	337,283	337,283	CD
work_hwk64j4prjebfojdv2ntbddcoi	242	27	kWh	kWh	NNS
work_hwk64j4prjebfojdv2ntbddcoi	242	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	243	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	243	2	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	3	compares	compare	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	243	4	well	well	RB
work_hwk64j4prjebfojdv2ntbddcoi	243	5	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	243	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	243	7	value	value	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	243	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	243	10	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	243	12	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	243	13	power	power	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	14	capacity	capacity	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	15	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	243	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	243	17	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	18	value	value	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	19	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	243	20	calculated	calculate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	243	21	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	243	22	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	243	23	96.7	96.7	CD
work_hwk64j4prjebfojdv2ntbddcoi	243	24	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	243	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	243	26	that	that	DT
work_hwk64j4prjebfojdv2ntbddcoi	243	27	actually	actually	RB
work_hwk64j4prjebfojdv2ntbddcoi	243	28	measured	measure	VBN
work_hwk64j4prjebfojdv2ntbddcoi	243	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	244	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	244	2	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	244	3	words	word	NNS
work_hwk64j4prjebfojdv2ntbddcoi	244	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	244	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	244	6	MBE	MBE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	244	7	value	value	NN
work_hwk64j4prjebfojdv2ntbddcoi	244	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	244	9	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	244	10	−3.27	−3.27	NNP
work_hwk64j4prjebfojdv2ntbddcoi	244	11	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	244	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	244	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	244	14	Cv	Cv	NNP
work_hwk64j4prjebfojdv2ntbddcoi	244	15	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	244	16	RMSE	RMSE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	244	17	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	244	18	values	value	NNS
work_hwk64j4prjebfojdv2ntbddcoi	244	19	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	244	20	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	244	21	10.83	10.83	CD
work_hwk64j4prjebfojdv2ntbddcoi	244	22	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	244	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	245	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	245	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	245	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	245	4	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	245	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	245	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	245	7	simulations	simulation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	245	8	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	245	9	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	245	10	considered	consider	VBN
work_hwk64j4prjebfojdv2ntbddcoi	245	11	as	as	RB
work_hwk64j4prjebfojdv2ntbddcoi	245	12	accurate	accurate	JJ
work_hwk64j4prjebfojdv2ntbddcoi	245	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	246	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	246	2	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	246	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	247	1	Simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	247	2	validation	validation	NN
work_hwk64j4prjebfojdv2ntbddcoi	247	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	247	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	248	1	Calibration	calibration	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	2	type	type	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	3	Index	Index	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	4	Acceptable	acceptable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	248	5	value	value	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	6	Result	Result	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	7	Monthly	monthly	JJ
work_hwk64j4prjebfojdv2ntbddcoi	248	8	MBE	MBE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	9	month	month	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	10	±5	±5	CD
work_hwk64j4prjebfojdv2ntbddcoi	248	11	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	12	−3.27	−3.27	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	13	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	14	Cv	Cv	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	15	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	248	16	RMSE	RMSE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	248	17	month	month	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	248	19	15	15	CD
work_hwk64j4prjebfojdv2ntbddcoi	248	20	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	21	10.83	10.83	CD
work_hwk64j4prjebfojdv2ntbddcoi	248	22	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	248	23	4.2	4.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	248	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	249	1	Simulation	Simulation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	249	2	Result	Result	NNP
work_hwk64j4prjebfojdv2ntbddcoi	249	3	4.2.1	4.2.1	CD
work_hwk64j4prjebfojdv2ntbddcoi	249	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	250	1	Operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	250	2	Cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	250	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	250	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	250	5	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	250	6	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	250	7	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	250	8	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	9	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	10	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	250	11	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	12	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	13	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	14	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	250	15	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	16	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	17	13	13	CD
work_hwk64j4prjebfojdv2ntbddcoi	250	18	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	250	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	250	20	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	250	21	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	250	22	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	250	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	250	24	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	250	25	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	250	26	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	250	27	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	250	28	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	250	29	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	250	30	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	250	31	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	32	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	250	33	±1	±1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	34	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	35	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	250	36	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	250	37	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	250	38	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	250	39	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	250	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	251	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	251	2	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	251	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	251	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	251	5	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	251	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	251	7	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	251	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	251	9	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	251	10	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	251	11	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	251	12	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	251	13	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	251	14	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	251	15	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	251	16	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	251	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	251	18	±1	±1	NNP
work_hwk64j4prjebfojdv2ntbddcoi	251	19	°	°	NNP
work_hwk64j4prjebfojdv2ntbddcoi	251	20	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	251	21	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	251	22	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	251	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	251	24	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	251	25	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	252	1	Even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	252	2	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	252	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	252	4	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	252	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	252	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	252	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	252	8	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	252	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	252	10	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	252	11	slightly	slightly	RB
work_hwk64j4prjebfojdv2ntbddcoi	252	12	out	out	RB
work_hwk64j4prjebfojdv2ntbddcoi	252	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	252	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	252	15	occupants	occupant	NNS
work_hwk64j4prjebfojdv2ntbddcoi	252	16	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	252	17	uncomfortable	uncomfortable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	252	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	253	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	253	2	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	253	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	253	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	253	5	simulations	simulation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	253	6	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	253	7	verified	verify	VBN
work_hwk64j4prjebfojdv2ntbddcoi	253	8	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	253	9	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	253	10	cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	253	11	setting	set	VBG
work_hwk64j4prjebfojdv2ntbddcoi	253	12	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	253	13	range	range	NN
work_hwk64j4prjebfojdv2ntbddcoi	253	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	253	15	set	set	VBN
work_hwk64j4prjebfojdv2ntbddcoi	253	16	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	253	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	253	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	253	19	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	253	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	254	1	For	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	254	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	254	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	254	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	254	5	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	254	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	254	7	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	8	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	9	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	254	11	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	254	12	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	254	13	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	254	14	average	average	JJ
work_hwk64j4prjebfojdv2ntbddcoi	254	15	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	16	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	17	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	254	18	23.6	23.6	CD
work_hwk64j4prjebfojdv2ntbddcoi	254	19	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	254	20	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	254	21	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	254	22	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	254	23	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	24	25.35	25.35	CD
work_hwk64j4prjebfojdv2ntbddcoi	254	25	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	254	26	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	27	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	254	28	minimum	minimum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	254	29	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	254	30	21.13	21.13	CD
work_hwk64j4prjebfojdv2ntbddcoi	254	31	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	254	32	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	254	33	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	255	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	255	4	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	5	average	average	JJ
work_hwk64j4prjebfojdv2ntbddcoi	255	6	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	7	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	8	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	9	∑	∑	.
work_hwk64j4prjebfojdv2ntbddcoi	255	10	∑	∑	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	11	100	100	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	12	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	13	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	14	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	15	∑	∑	.
work_hwk64j4prjebfojdv2ntbddcoi	255	16	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	17	3	3	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	18	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	19	∑	∑	.
work_hwk64j4prjebfojdv2ntbddcoi	255	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	21	4	4	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	23	100	100	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	24	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	25	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	26	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	255	27	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	255	28	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	29	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	255	30	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	31	9337	9337	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	32	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	255	33	23.88	23.88	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	34	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	255	35	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	255	36	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	255	37	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	255	38	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	39	25.62	25.62	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	40	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	255	41	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	42	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	255	43	minimum	minimum	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	44	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	255	45	21.17	21.17	CD
work_hwk64j4prjebfojdv2ntbddcoi	255	46	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	255	47	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	255	48	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	256	1	Case1	case1	LS
work_hwk64j4prjebfojdv2ntbddcoi	256	2	-	-	:
work_hwk64j4prjebfojdv2ntbddcoi	256	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	256	4	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	5	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	6	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	7	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	256	8	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	256	9	follows	follow	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	256	10	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	256	11	average	average	JJ
work_hwk64j4prjebfojdv2ntbddcoi	256	12	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	13	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	14	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	256	15	23.67	23.67	CD
work_hwk64j4prjebfojdv2ntbddcoi	256	16	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	256	17	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	256	19	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	256	20	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	21	25.58	25.58	CD
work_hwk64j4prjebfojdv2ntbddcoi	256	22	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	256	23	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	256	25	minimum	minimum	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	26	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	256	27	22.08	22.08	CD
work_hwk64j4prjebfojdv2ntbddcoi	256	28	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	256	29	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	256	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	257	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	257	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	257	4	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	257	5	average	average	JJ
work_hwk64j4prjebfojdv2ntbddcoi	257	6	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	7	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	8	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	257	9	23.68	23.68	CD
work_hwk64j4prjebfojdv2ntbddcoi	257	10	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	257	11	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	257	12	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	257	13	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	257	14	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	15	25.44	25.44	CD
work_hwk64j4prjebfojdv2ntbddcoi	257	16	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	257	17	C	c	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	257	19	minimum	minimum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	257	20	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	257	21	23.53	23.53	CD
work_hwk64j4prjebfojdv2ntbddcoi	257	22	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	257	23	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	257	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	258	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	258	2	Cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	258	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	258	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	258	5	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	258	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	258	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	258	8	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	258	9	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	258	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	258	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	258	12	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	258	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	258	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	258	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	258	16	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	258	17	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	258	18	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	258	19	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	258	20	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	258	21	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	258	22	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	258	23	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	258	24	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	258	25	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	258	26	separated	separate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	258	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	259	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	2	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	259	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	259	4	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	259	5	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	259	6	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	259	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	259	8	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	259	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	259	10	applying	apply	VBG
work_hwk64j4prjebfojdv2ntbddcoi	259	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	259	12	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	13	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	259	15	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	259	16	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	259	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	259	18	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	259	19	high	high	JJ
work_hwk64j4prjebfojdv2ntbddcoi	259	20	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	21	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	22	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	23	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	259	24	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	259	25	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	259	26	combined	combined	JJ
work_hwk64j4prjebfojdv2ntbddcoi	259	27	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	28	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	259	29	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	259	30	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	259	31	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	32	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	259	33	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	259	34	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	35	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	259	36	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	37	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	259	38	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	260	1	First	first	RB
work_hwk64j4prjebfojdv2ntbddcoi	260	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	260	3	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	260	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	260	5	after	after	IN
work_hwk64j4prjebfojdv2ntbddcoi	260	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	260	7	high	high	JJ
work_hwk64j4prjebfojdv2ntbddcoi	260	8	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	9	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	260	10	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	260	11	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	260	12	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	260	13	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	260	14	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	260	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	260	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	260	17	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	18	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	19	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	260	20	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	21	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	260	22	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	260	23	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	260	24	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	260	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	260	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	260	27	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	260	28	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	260	29	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	260	30	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	260	31	charge	charge	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	32	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	260	33	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	260	34	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	260	35	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	261	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	261	2	listed	list	VBN
work_hwk64j4prjebfojdv2ntbddcoi	261	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	261	4	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	5	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	261	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	261	8	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	9	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	10	approached	approach	VBD
work_hwk64j4prjebfojdv2ntbddcoi	261	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	261	12	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	13	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	14	more	more	RBR
work_hwk64j4prjebfojdv2ntbddcoi	261	15	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	261	16	Cases	Cases	NNP
work_hwk64j4prjebfojdv2ntbddcoi	261	17	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	18	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	261	19	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	20	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	261	21	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	22	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	261	23	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	24	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	261	25	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	261	26	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	261	27	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	261	28	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	261	29	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	261	30	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	261	31	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	32	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	33	variation	variation	NN
work_hwk64j4prjebfojdv2ntbddcoi	261	34	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	261	35	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	261	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	262	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	262	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	262	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	262	4	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	262	5	thermal	thermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	262	6	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	262	7	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	262	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	262	9	comfortable	comfortable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	262	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	262	11	stable	stable	JJ
work_hwk64j4prjebfojdv2ntbddcoi	262	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	263	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	263	2	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	263	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	263	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	263	5	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	263	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	263	7	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	263	8	13	13	CD
work_hwk64j4prjebfojdv2ntbddcoi	263	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	264	1	Indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	2	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	3	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	264	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	264	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	264	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	264	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	10	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	264	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	264	12	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	13	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	264	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	15	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	264	16	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	17	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	264	18	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	19	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	264	21	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	22	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	264	24	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	26	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	27	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	264	28	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	264	29	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	264	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	31	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	264	32	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	33	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	34	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	35	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	264	36	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	37	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	38	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	264	39	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	40	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	264	41	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	264	42	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	43	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	44	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	264	45	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	264	46	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	264	47	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	264	48	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	264	49	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	265	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	265	2	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	265	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	265	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	265	5	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	265	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	265	7	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	265	8	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	265	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	266	1	Indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	2	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	3	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	266	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	266	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	266	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	266	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	10	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	266	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	266	12	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	13	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	266	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	15	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	266	16	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	17	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	266	18	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	19	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	266	21	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	22	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	23	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	266	24	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	25	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	26	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	27	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	266	28	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	266	29	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	266	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	31	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	266	32	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	33	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	34	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	35	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	266	36	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	37	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	38	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	266	39	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	40	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	266	41	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	266	42	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	43	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	44	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	266	45	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	266	46	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	266	47	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	266	48	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	266	49	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	267	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	267	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	267	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	267	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	267	5	9338	9338	CD
work_hwk64j4prjebfojdv2ntbddcoi	267	6	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	7	15	15	CD
work_hwk64j4prjebfojdv2ntbddcoi	267	8	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	267	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	267	10	graph	graph	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	267	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	267	13	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	267	14	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	267	15	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	267	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	17	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	18	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	267	19	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	20	inlet	inlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	267	22	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	23	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	267	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	267	25	coefficient	coefficient	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	26	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	267	27	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	28	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	267	29	COP	COP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	267	30	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	267	31	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	267	32	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	267	33	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	267	34	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	268	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	268	2	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	268	3	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	268	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	268	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	268	6	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	268	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	268	8	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	268	9	appeared	appear	VBD
work_hwk64j4prjebfojdv2ntbddcoi	268	10	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	268	11	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	268	12	3.25	3.25	CD
work_hwk64j4prjebfojdv2ntbddcoi	268	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	269	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	269	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	269	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	269	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	269	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	269	6	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	269	7	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	269	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	269	9	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	269	10	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	269	11	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	269	12	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	269	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	269	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	269	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	269	16	inlet	inlet	JJ
work_hwk64j4prjebfojdv2ntbddcoi	269	17	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	269	18	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	269	19	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	269	20	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	269	21	°	°	NNS
work_hwk64j4prjebfojdv2ntbddcoi	269	22	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	269	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	270	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	270	2	wasted	waste	VBN
work_hwk64j4prjebfojdv2ntbddcoi	270	3	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	270	4	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	270	5	consumed	consume	VBN
work_hwk64j4prjebfojdv2ntbddcoi	270	6	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	270	7	meet	meet	VB
work_hwk64j4prjebfojdv2ntbddcoi	270	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	270	9	chilled	chill	VBN
work_hwk64j4prjebfojdv2ntbddcoi	270	10	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	270	11	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	270	12	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	270	13	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	270	14	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	270	15	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	270	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	271	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	271	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	271	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	271	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	271	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	271	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	271	7	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	271	8	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	271	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	271	10	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	271	11	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	271	12	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	271	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	271	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	271	15	COP	COP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	271	16	had	have	VBD
work_hwk64j4prjebfojdv2ntbddcoi	271	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	271	18	maximum	maximum	NN
work_hwk64j4prjebfojdv2ntbddcoi	271	19	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	271	20	4.2	4.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	271	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	272	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	272	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	272	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	272	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	272	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	272	6	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	272	7	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	272	8	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	272	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	272	10	12–18	12–18	CD
work_hwk64j4prjebfojdv2ntbddcoi	272	11	°	°	NNS
work_hwk64j4prjebfojdv2ntbddcoi	272	12	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	272	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	273	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	273	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	273	4	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	273	5	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	273	6	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	273	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	273	8	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	273	9	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	273	10	showed	show	VBD
work_hwk64j4prjebfojdv2ntbddcoi	273	11	better	well	JJR
work_hwk64j4prjebfojdv2ntbddcoi	273	12	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	13	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	273	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	273	15	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	16	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	273	18	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	273	19	reflected	reflect	VBD
work_hwk64j4prjebfojdv2ntbddcoi	273	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	273	21	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	22	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	273	23	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	273	24	resulting	result	VBG
work_hwk64j4prjebfojdv2ntbddcoi	273	25	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	273	26	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	273	27	savings	saving	NNS
work_hwk64j4prjebfojdv2ntbddcoi	273	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	274	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	2	16	16	CD
work_hwk64j4prjebfojdv2ntbddcoi	274	3	shows	show	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	274	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	274	5	graph	graph	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	274	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	274	8	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	274	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	274	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	274	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	12	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	13	hot	hot	JJ
work_hwk64j4prjebfojdv2ntbddcoi	274	14	inlet	inlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	274	16	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	17	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	274	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	274	19	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	20	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	274	21	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	274	22	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	274	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	275	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	275	2	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	275	3	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	275	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	275	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	275	6	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	275	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	275	8	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	275	9	appeared	appear	VBD
work_hwk64j4prjebfojdv2ntbddcoi	275	10	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	275	11	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	275	12	3.59	3.59	CD
work_hwk64j4prjebfojdv2ntbddcoi	275	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	276	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	276	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	276	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	276	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	276	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	276	6	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	276	7	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	276	8	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	276	9	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	276	10	41	41	CD
work_hwk64j4prjebfojdv2ntbddcoi	276	11	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	276	12	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	276	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	276	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	276	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	276	16	inlet	inlet	JJ
work_hwk64j4prjebfojdv2ntbddcoi	276	17	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	276	18	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	276	19	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	276	20	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	276	21	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	276	22	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	276	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	277	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	277	2	wasted	waste	VBN
work_hwk64j4prjebfojdv2ntbddcoi	277	3	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	277	4	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	277	5	consumed	consume	VBN
work_hwk64j4prjebfojdv2ntbddcoi	277	6	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	277	7	meet	meet	VB
work_hwk64j4prjebfojdv2ntbddcoi	277	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	277	9	chilled	chill	VBN
work_hwk64j4prjebfojdv2ntbddcoi	277	10	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	277	11	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	277	12	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	277	13	41	41	CD
work_hwk64j4prjebfojdv2ntbddcoi	277	14	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	277	15	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	277	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	278	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	278	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	278	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	278	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	278	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	278	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	278	7	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	278	8	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	278	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	278	10	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	278	11	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	278	12	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	278	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	278	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	278	15	COP	COP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	278	16	had	have	VBD
work_hwk64j4prjebfojdv2ntbddcoi	278	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	278	18	maximum	maximum	NN
work_hwk64j4prjebfojdv2ntbddcoi	278	19	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	278	20	4.15	4.15	CD
work_hwk64j4prjebfojdv2ntbddcoi	278	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	279	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	279	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	279	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	279	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	279	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	279	6	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	279	7	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	279	8	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	279	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	279	10	40–43	40–43	CD
work_hwk64j4prjebfojdv2ntbddcoi	279	11	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	279	12	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	279	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	280	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	280	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	280	4	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	280	5	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	280	6	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	280	7	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	280	8	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	280	9	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	280	10	showed	show	VBD
work_hwk64j4prjebfojdv2ntbddcoi	280	11	better	well	JJR
work_hwk64j4prjebfojdv2ntbddcoi	280	12	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	13	than	than	IN
work_hwk64j4prjebfojdv2ntbddcoi	280	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	280	15	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	16	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	280	18	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	280	19	reflected	reflect	VBD
work_hwk64j4prjebfojdv2ntbddcoi	280	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	280	21	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	22	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	280	23	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	280	24	resulting	result	VBG
work_hwk64j4prjebfojdv2ntbddcoi	280	25	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	280	26	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	280	27	savings	saving	NNS
work_hwk64j4prjebfojdv2ntbddcoi	280	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	281	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	281	2	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	281	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	281	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	281	5	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	281	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	281	7	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	281	8	15	15	CD
work_hwk64j4prjebfojdv2ntbddcoi	281	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	282	1	Coefficient	coefficient	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	282	3	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	5	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	7	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	282	8	summer	summer	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	9	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	10	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	11	inlet	inlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	12	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	282	13	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	14	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	282	15	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	282	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	282	17	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	18	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	19	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	282	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	21	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	282	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	23	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	282	24	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	25	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	282	26	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	27	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	28	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	282	29	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	30	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	31	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	282	32	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	33	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	34	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	35	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	282	36	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	282	37	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	282	38	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	39	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	282	40	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	41	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	42	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	43	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	282	44	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	45	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	46	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	282	47	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	48	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	282	49	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	282	50	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	51	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	52	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	282	53	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	282	54	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	282	55	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	282	56	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	282	57	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	283	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	283	2	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	283	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	283	4	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	283	5	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	283	6	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	283	7	Figure	Figure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	283	8	16	16	CD
work_hwk64j4prjebfojdv2ntbddcoi	283	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	284	1	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	284	3	winter	winter	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	4	hot	hot	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	5	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	6	inlet	inlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	284	8	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	9	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	284	10	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	284	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	284	12	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	284	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	16	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	284	17	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	18	a	a	LS
work_hwk64j4prjebfojdv2ntbddcoi	284	19	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	20	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	284	21	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	22	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	23	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	284	24	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	25	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	26	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	284	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	28	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	29	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	30	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	284	31	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	284	32	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	284	33	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	34	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	284	35	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	36	b	b	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	37	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	38	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	284	39	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	40	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	41	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	284	42	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	43	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	284	44	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	284	45	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	46	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	47	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	284	48	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	284	49	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	284	50	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	284	51	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	284	52	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	285	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	285	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	285	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	285	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	285	5	9339	9339	CD
work_hwk64j4prjebfojdv2ntbddcoi	285	6	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	7	17	17	CD
work_hwk64j4prjebfojdv2ntbddcoi	285	8	presents	present	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	285	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	285	10	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	285	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	285	12	comparative	comparative	JJ
work_hwk64j4prjebfojdv2ntbddcoi	285	13	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	285	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	285	16	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	285	17	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	285	18	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	285	19	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	20	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	21	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	22	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	285	23	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	285	24	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	25	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	285	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	286	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	286	2	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	286	3	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	286	4	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	286	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	286	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	286	7	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	286	8	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	286	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	286	10	469	469	CD
work_hwk64j4prjebfojdv2ntbddcoi	286	11	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	286	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	287	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	287	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	287	3	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	287	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	287	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	287	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	287	7	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	287	8	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	287	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	287	10	sequencing	sequencing	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	11	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	12	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	287	13	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	287	14	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	15	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	287	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	287	18	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	287	19	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	20	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	287	21	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	287	22	208	208	CD
work_hwk64j4prjebfojdv2ntbddcoi	287	23	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	287	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	288	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	288	2	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	288	3	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	288	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	288	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	288	6	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	288	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	288	8	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	288	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	288	10	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	288	11	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	288	12	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	288	13	44	44	CD
work_hwk64j4prjebfojdv2ntbddcoi	288	14	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	288	15	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	288	16	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	288	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	288	18	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	288	19	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	288	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	289	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	289	3	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	289	4	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	289	5	showed	show	VBD
work_hwk64j4prjebfojdv2ntbddcoi	289	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	289	7	highest	high	JJS
work_hwk64j4prjebfojdv2ntbddcoi	289	8	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	289	9	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	10	savings	saving	NNS
work_hwk64j4prjebfojdv2ntbddcoi	289	11	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	289	12	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	289	13	most	most	RBS
work_hwk64j4prjebfojdv2ntbddcoi	289	14	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	289	15	methods	method	NNS
work_hwk64j4prjebfojdv2ntbddcoi	289	16	because	because	IN
work_hwk64j4prjebfojdv2ntbddcoi	289	17	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	289	18	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	289	19	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	289	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	289	21	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	22	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	23	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	289	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	289	25	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	26	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	289	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	290	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	2	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	3	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	4	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	290	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	290	6	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	290	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	290	8	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	290	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	290	10	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	290	11	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	290	12	increase	increase	VB
work_hwk64j4prjebfojdv2ntbddcoi	290	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	14	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	290	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	17	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	18	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	19	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	290	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	21	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	290	22	uses	use	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	290	23	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	24	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	290	25	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	290	26	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	290	27	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	28	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	29	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	30	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	290	31	save	save	VB
work_hwk64j4prjebfojdv2ntbddcoi	290	32	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	33	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	34	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	290	35	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	290	36	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	37	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	290	38	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	290	39	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	290	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	291	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	291	2	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	291	3	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	291	4	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	5	would	would	MD
work_hwk64j4prjebfojdv2ntbddcoi	291	6	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	291	7	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	291	8	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	291	9	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	291	10	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	291	11	GHP	ghp	JJ
work_hwk64j4prjebfojdv2ntbddcoi	291	12	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	13	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	14	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	291	15	improves	improve	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	291	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	291	17	reduces	reduce	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	291	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	291	19	ABS	abs	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	20	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	21	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	291	22	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	23	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	24	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	291	25	improves	improve	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	291	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	291	27	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	28	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	291	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	292	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	292	2	17	17	CD
work_hwk64j4prjebfojdv2ntbddcoi	292	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	293	1	Comparison	comparison	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	293	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	293	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	5	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	6	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	293	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	293	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	293	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	12	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	293	13	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	14	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	293	15	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	293	16	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	293	17	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	293	18	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	293	19	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	20	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	21	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	293	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	293	23	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	24	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	25	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	293	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	27	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	293	28	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	29	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	293	30	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	293	31	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	293	32	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	293	33	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	293	34	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	35	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	36	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	293	37	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	293	38	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	39	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	293	40	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	293	41	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	293	42	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	294	1	4.2.2	4.2.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	294	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	295	1	Operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	2	Cases	case	NNS
work_hwk64j4prjebfojdv2ntbddcoi	295	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	295	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	5	Combination	Combination	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	6	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	295	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	295	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	295	10	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	295	11	Heat	Heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	12	Pump	Pump	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	13	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	295	14	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	15	-	-	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	16	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	17	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	295	18	Systems	Systems	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	295	19	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	295	20	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	21	Absorption	Absorption	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	22	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	295	23	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	24	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	295	25	Chiller	Chiller	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	26	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	295	27	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	28	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	29	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	30	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	295	31	lists	list	NNS
work_hwk64j4prjebfojdv2ntbddcoi	295	32	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	33	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	34	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	35	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	295	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	37	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	295	38	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	295	39	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	40	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	295	41	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	295	42	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	295	43	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	295	44	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	296	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	2	18	18	CD
work_hwk64j4prjebfojdv2ntbddcoi	296	3	presents	present	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	296	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	296	5	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	296	7	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	8	relationship	relationship	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	9	graph	graph	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	296	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	296	12	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	296	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	296	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	296	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	16	coefficient	coefficient	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	17	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	296	18	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	296	19	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	296	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	297	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	297	2	maximum	maximum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	297	3	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	297	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	297	5	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	297	6	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	297	7	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	297	8	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	297	9	appears	appear	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	297	10	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	297	11	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	297	12	3.4	3.4	CD
work_hwk64j4prjebfojdv2ntbddcoi	297	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	298	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	298	2	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	298	3	operations	operation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	298	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	298	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	298	6	target	target	NN
work_hwk64j4prjebfojdv2ntbddcoi	298	7	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	298	8	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	298	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	298	10	separate	separate	JJ
work_hwk64j4prjebfojdv2ntbddcoi	298	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	298	12	independent	independent	JJ
work_hwk64j4prjebfojdv2ntbddcoi	298	13	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	298	14	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	298	15	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	298	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	298	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	298	18	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	298	19	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	298	20	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	298	21	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	298	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	299	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	299	2	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	299	3	way	way	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	299	5	all	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	299	6	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	8	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	299	9	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	299	10	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	299	11	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	299	12	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	299	13	even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	299	14	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	299	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	299	16	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	299	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	299	19	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	20	satisfies	satisfie	NNS
work_hwk64j4prjebfojdv2ntbddcoi	299	21	only	only	RB
work_hwk64j4prjebfojdv2ntbddcoi	299	22	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	299	23	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	299	24	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	299	25	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	299	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	299	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	300	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	300	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	300	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	300	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	300	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	300	6	wastage	wastage	NN
work_hwk64j4prjebfojdv2ntbddcoi	300	7	occurs	occur	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	300	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	301	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	301	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	301	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	301	4	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	301	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	301	6	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	301	7	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	301	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	301	10	combined	combine	VBN
work_hwk64j4prjebfojdv2ntbddcoi	301	11	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	301	12	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	301	13	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	301	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	15	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	16	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	301	17	enhance	enhance	VB
work_hwk64j4prjebfojdv2ntbddcoi	301	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	301	19	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	20	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	301	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	301	22	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	301	23	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	301	24	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	301	25	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	26	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	301	27	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	301	28	achieve	achieve	VB
work_hwk64j4prjebfojdv2ntbddcoi	301	29	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	301	30	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	301	31	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	301	32	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	301	33	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	301	34	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	301	35	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	302	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	302	2	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	302	3	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	302	4	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	302	5	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	302	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	302	7	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	302	8	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	302	9	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	302	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	302	11	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	302	12	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	302	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	302	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	302	15	COP	COP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	302	16	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	302	17	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	302	18	maximum	maximum	NN
work_hwk64j4prjebfojdv2ntbddcoi	302	19	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	302	20	4.2	4.2	CD
work_hwk64j4prjebfojdv2ntbddcoi	302	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	303	1	Increasingly	increasingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	303	2	better	well	JJR
work_hwk64j4prjebfojdv2ntbddcoi	303	3	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	303	4	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	303	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	303	6	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	303	7	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	303	8	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	303	9	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	303	10	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	303	11	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	303	12	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	303	13	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	303	14	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	303	15	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	303	16	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	303	17	achieved	achieve	VBN
work_hwk64j4prjebfojdv2ntbddcoi	303	18	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	303	19	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	303	20	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	303	21	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	303	22	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	303	23	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	303	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	303	25	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	303	26	directly	directly	RB
work_hwk64j4prjebfojdv2ntbddcoi	303	27	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	304	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	2	19	19	CD
work_hwk64j4prjebfojdv2ntbddcoi	304	3	compares	compare	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	304	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	304	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	6	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	304	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	304	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	10	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	11	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	304	12	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	304	13	Cases	Cases	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	304	14	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	304	15	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	304	16	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	304	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	304	18	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	304	19	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	304	20	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	304	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	305	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	305	2	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	305	3	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	305	4	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	305	5	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	6	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	7	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	9	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	305	10	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	305	11	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	305	12	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	305	13	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	14	30	30	CD
work_hwk64j4prjebfojdv2ntbddcoi	305	15	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	16	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	305	17	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	18	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	305	19	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	305	20	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	305	21	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	305	22	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	305	24	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	305	27	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	305	28	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	29	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	305	30	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	31	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	305	32	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	305	33	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	34	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	35	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	305	36	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	305	37	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	305	38	80	80	CD
work_hwk64j4prjebfojdv2ntbddcoi	305	39	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	305	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	306	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	306	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	306	3	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	306	4	method	method	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	306	6	although	although	IN
work_hwk64j4prjebfojdv2ntbddcoi	306	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	306	8	outlet	outlet	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	9	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	306	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	306	12	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	306	13	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	306	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	306	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	16	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	306	17	fitted	fit	VBN
work_hwk64j4prjebfojdv2ntbddcoi	306	18	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	306	19	approximately	approximately	RB
work_hwk64j4prjebfojdv2ntbddcoi	306	20	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	306	21	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	306	22	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	306	23	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	306	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	306	25	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	26	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	27	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	306	28	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	306	29	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	306	30	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	306	31	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	306	32	9340	9340	CD
work_hwk64j4prjebfojdv2ntbddcoi	306	33	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	306	34	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	306	35	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	306	36	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	306	37	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	306	38	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	306	39	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	306	40	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	307	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	307	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	307	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	307	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	307	5	improved	improved	JJ
work_hwk64j4prjebfojdv2ntbddcoi	307	6	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	307	7	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	307	8	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	307	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	307	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	307	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	307	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	307	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	307	14	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	307	15	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	307	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	307	17	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	307	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	307	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	307	20	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	307	21	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	307	22	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	307	23	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	307	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	308	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	308	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	308	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	308	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	308	6	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	308	7	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	8	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	308	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	308	11	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	12	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	13	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	14	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	308	15	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	308	16	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	308	17	78	78	CD
work_hwk64j4prjebfojdv2ntbddcoi	308	18	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	308	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	309	1	Table	table	NN
work_hwk64j4prjebfojdv2ntbddcoi	309	2	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	309	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	310	1	Indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	310	2	environmental	environmental	JJ
work_hwk64j4prjebfojdv2ntbddcoi	310	3	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	310	4	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	310	5	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	310	6	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	310	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	310	8	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	310	9	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	310	10	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	310	11	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	310	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	310	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	310	14	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	310	15	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	310	16	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	310	17	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	310	18	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	310	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	311	1	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	2	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	3	Room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	4	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	5	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	6	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	7	°	°	,
work_hwk64j4prjebfojdv2ntbddcoi	311	8	C	C	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	9	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	10	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	11	HP	HP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	12	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	13	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	14	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	15	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	16	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	17	Total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	311	18	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	19	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	21	GJ	GJ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	311	23	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	24	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	25	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	311	26	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	27	23.5	23.5	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	28	3.35	3.35	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	29	469	469	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	30	7515.7	7515.7	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	31	Case	Case	NNP
work_hwk64j4prjebfojdv2ntbddcoi	311	32	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	33	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	311	34	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	35	23.9	23.9	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	36	4.22	4.22	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	37	208	208	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	38	1431.98	1431.98	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	39	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	311	40	18	18	CD
work_hwk64j4prjebfojdv2ntbddcoi	311	41	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	312	1	COP	cop	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	312	3	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	4	relationship	relationship	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	5	graph	graph	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	312	7	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	8	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	312	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	312	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	312	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	312	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	312	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	312	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	21	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	312	22	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	23	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	312	24	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	312	25	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	312	26	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	312	27	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	312	28	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	29	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	30	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	312	31	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	312	32	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	33	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	34	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	35	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	36	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	312	37	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	38	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	39	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	312	40	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	41	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	42	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	312	43	Case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	44	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	312	45	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	312	46	2	2	CD
work_hwk64j4prjebfojdv2ntbddcoi	312	47	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	312	48	sequencing	sequence	VBG
work_hwk64j4prjebfojdv2ntbddcoi	312	49	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	50	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	51	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	312	52	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	312	53	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	54	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	312	55	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	56	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	57	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	312	58	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	312	59	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	60	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	312	61	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	62	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	312	63	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	313	1	Figure	figure	NN
work_hwk64j4prjebfojdv2ntbddcoi	313	2	19	19	CD
work_hwk64j4prjebfojdv2ntbddcoi	313	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	314	1	Comparison	comparison	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	314	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	314	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	5	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	6	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	314	7	combination	combination	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	8	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	314	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	314	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	314	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	314	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	314	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	314	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	314	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	314	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	314	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	314	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	314	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	315	1	4.3	4.3	LS
work_hwk64j4prjebfojdv2ntbddcoi	315	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	316	1	Future	Future	NNP
work_hwk64j4prjebfojdv2ntbddcoi	316	2	Research	Research	NNP
work_hwk64j4prjebfojdv2ntbddcoi	316	3	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	316	4	Progress	Progress	NNP
work_hwk64j4prjebfojdv2ntbddcoi	316	5	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	316	6	most	most	JJS
work_hwk64j4prjebfojdv2ntbddcoi	316	7	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	316	8	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	316	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	316	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	316	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	316	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	316	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	316	14	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	316	15	responsible	responsible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	316	16	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	316	17	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	316	18	conditioning	condition	VBG
work_hwk64j4prjebfojdv2ntbddcoi	316	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	316	20	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	316	21	part	part	NN
work_hwk64j4prjebfojdv2ntbddcoi	316	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	317	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	317	2	addition	addition	NN
work_hwk64j4prjebfojdv2ntbddcoi	317	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	317	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	317	5	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	317	6	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	317	7	decrease	decrease	VB
work_hwk64j4prjebfojdv2ntbddcoi	317	8	because	because	IN
work_hwk64j4prjebfojdv2ntbddcoi	317	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	317	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	317	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	317	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	317	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	317	14	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	317	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	317	16	existing	exist	VBG
work_hwk64j4prjebfojdv2ntbddcoi	317	17	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	317	18	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	317	19	are	be	VBP
work_hwk64j4prjebfojdv2ntbddcoi	317	20	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	317	21	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	317	22	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	317	23	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	317	24	9341	9341	CD
work_hwk64j4prjebfojdv2ntbddcoi	317	25	separate	separate	JJ
work_hwk64j4prjebfojdv2ntbddcoi	317	26	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	317	27	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	317	28	independently	independently	RB
work_hwk64j4prjebfojdv2ntbddcoi	317	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	318	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	318	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	318	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	318	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	318	6	even	even	RB
work_hwk64j4prjebfojdv2ntbddcoi	318	7	if	if	IN
work_hwk64j4prjebfojdv2ntbddcoi	318	8	there	there	EX
work_hwk64j4prjebfojdv2ntbddcoi	318	9	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	318	10	no	no	DT
work_hwk64j4prjebfojdv2ntbddcoi	318	11	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	12	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	318	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	318	14	AHU	AHU	NNP
work_hwk64j4prjebfojdv2ntbddcoi	318	15	served	serve	VBN
work_hwk64j4prjebfojdv2ntbddcoi	318	16	area	area	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	318	18	unnecessary	unnecessary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	318	19	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	20	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	318	21	consumed	consume	VBN
work_hwk64j4prjebfojdv2ntbddcoi	318	22	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	318	23	meet	meet	VB
work_hwk64j4prjebfojdv2ntbddcoi	318	24	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	318	25	chilled	chill	VBN
work_hwk64j4prjebfojdv2ntbddcoi	318	26	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	27	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	28	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	29	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	318	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	319	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	319	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	3	developed	develop	VBD
work_hwk64j4prjebfojdv2ntbddcoi	319	4	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	319	5	Multi	Multi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	319	6	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	319	7	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	319	8	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	9	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	10	algorithm	algorithm	NNP
work_hwk64j4prjebfojdv2ntbddcoi	319	11	according	accord	VBG
work_hwk64j4prjebfojdv2ntbddcoi	319	12	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	319	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	319	14	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	15	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	319	17	which	which	WDT
work_hwk64j4prjebfojdv2ntbddcoi	319	18	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	319	19	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	319	20	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	319	21	accordance	accordance	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	22	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	319	23	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	319	24	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	25	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	319	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	320	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	320	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	320	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	320	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	320	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	320	6	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	320	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	320	8	hospital	hospital	NN
work_hwk64j4prjebfojdv2ntbddcoi	320	9	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	320	10	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	320	11	being	be	VBG
work_hwk64j4prjebfojdv2ntbddcoi	320	12	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	320	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	320	14	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	320	15	developed	developed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	320	16	algorithm	algorithm	NN
work_hwk64j4prjebfojdv2ntbddcoi	320	17	has	have	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	320	18	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	320	19	problem	problem	NN
work_hwk64j4prjebfojdv2ntbddcoi	320	20	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	320	21	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	320	22	it	-PRON-	PRP
work_hwk64j4prjebfojdv2ntbddcoi	320	23	can	can	MD
work_hwk64j4prjebfojdv2ntbddcoi	320	24	not	not	RB
work_hwk64j4prjebfojdv2ntbddcoi	320	25	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	320	26	applied	apply	VBN
work_hwk64j4prjebfojdv2ntbddcoi	320	27	immediately	immediately	RB
work_hwk64j4prjebfojdv2ntbddcoi	320	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	321	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	321	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	321	3	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	321	4	reliability	reliability	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	5	validation	validation	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	321	7	pre	pre	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	8	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	321	9	simulation	simulation	JJ
work_hwk64j4prjebfojdv2ntbddcoi	321	10	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	11	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	321	12	conducted	conduct	VBN
work_hwk64j4prjebfojdv2ntbddcoi	321	13	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	321	14	short	short	JJ
work_hwk64j4prjebfojdv2ntbddcoi	321	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	321	16	term	term	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	17	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	321	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	322	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	322	2	simple	simple	JJ
work_hwk64j4prjebfojdv2ntbddcoi	322	3	comparison	comparison	NN
work_hwk64j4prjebfojdv2ntbddcoi	322	4	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	322	5	difficult	difficult	JJ
work_hwk64j4prjebfojdv2ntbddcoi	322	6	because	because	IN
work_hwk64j4prjebfojdv2ntbddcoi	322	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	322	8	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	322	9	status	status	NN
work_hwk64j4prjebfojdv2ntbddcoi	322	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	322	11	each	each	DT
work_hwk64j4prjebfojdv2ntbddcoi	322	12	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	322	13	varies	varie	NNS
work_hwk64j4prjebfojdv2ntbddcoi	322	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	323	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	323	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	323	3	future	future	JJ
work_hwk64j4prjebfojdv2ntbddcoi	323	4	studies	study	NNS
work_hwk64j4prjebfojdv2ntbddcoi	323	5	focusing	focus	VBG
work_hwk64j4prjebfojdv2ntbddcoi	323	6	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	323	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	323	8	integration	integration	NN
work_hwk64j4prjebfojdv2ntbddcoi	323	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	323	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	323	11	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	323	12	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	323	13	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	323	14	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	323	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	323	16	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	323	17	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	323	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	323	19	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	323	20	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	323	21	compensate	compensate	VB
work_hwk64j4prjebfojdv2ntbddcoi	323	22	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	323	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	323	24	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	323	25	algorithm	algorithm	NN
work_hwk64j4prjebfojdv2ntbddcoi	323	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	324	1	Complementary	complementary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	324	2	algorithms	algorithm	NNS
work_hwk64j4prjebfojdv2ntbddcoi	324	3	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	324	4	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	324	5	applied	apply	VBN
work_hwk64j4prjebfojdv2ntbddcoi	324	6	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	324	7	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	324	8	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	324	9	long	long	JJ
work_hwk64j4prjebfojdv2ntbddcoi	324	10	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	324	11	term	term	NN
work_hwk64j4prjebfojdv2ntbddcoi	324	12	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	324	13	will	will	MD
work_hwk64j4prjebfojdv2ntbddcoi	324	14	examine	examine	VB
work_hwk64j4prjebfojdv2ntbddcoi	324	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	324	16	effective	effective	JJ
work_hwk64j4prjebfojdv2ntbddcoi	324	17	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	324	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	324	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	324	20	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	324	21	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	324	22	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	324	23	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	324	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	325	1	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	325	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	326	1	Conclusions	conclusion	NNS
work_hwk64j4prjebfojdv2ntbddcoi	326	2	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	326	3	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	326	4	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	326	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	326	6	after	after	IN
work_hwk64j4prjebfojdv2ntbddcoi	326	7	selecting	select	VBG
work_hwk64j4prjebfojdv2ntbddcoi	326	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	326	9	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	326	10	containing	contain	VBG
work_hwk64j4prjebfojdv2ntbddcoi	326	11	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	326	12	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	326	13	installed	instal	VBN
work_hwk64j4prjebfojdv2ntbddcoi	326	14	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	326	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	326	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	326	17	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	326	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	326	19	excellent	excellent	JJ
work_hwk64j4prjebfojdv2ntbddcoi	326	20	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	326	21	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	326	22	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	326	23	maximized	maximize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	326	24	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	326	25	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	326	26	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	326	27	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	326	28	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	326	29	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	326	30	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	327	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	327	2	methods	method	NNS
work_hwk64j4prjebfojdv2ntbddcoi	327	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	327	4	complex	complex	JJ
work_hwk64j4prjebfojdv2ntbddcoi	327	5	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	6	regarding	regard	VBG
work_hwk64j4prjebfojdv2ntbddcoi	327	7	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	327	8	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	327	10	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	327	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	327	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	327	14	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	327	15	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	327	16	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	327	17	evaluated	evaluate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	327	18	through	through	IN
work_hwk64j4prjebfojdv2ntbddcoi	327	19	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	20	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	327	21	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	327	22	1	1	LS
work_hwk64j4prjebfojdv2ntbddcoi	327	23	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	327	24	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	327	25	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	327	26	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	327	27	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	327	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	29	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	327	30	building	build	VBG
work_hwk64j4prjebfojdv2ntbddcoi	327	31	operates	operate	NNS
work_hwk64j4prjebfojdv2ntbddcoi	327	32	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	327	33	match	match	VB
work_hwk64j4prjebfojdv2ntbddcoi	327	34	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	327	35	setting	setting	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	36	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	327	37	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	327	38	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	39	side	side	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	40	return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	41	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	327	42	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	328	1	Accordingly	accordingly	RB
work_hwk64j4prjebfojdv2ntbddcoi	328	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	328	3	on	on	RB
work_hwk64j4prjebfojdv2ntbddcoi	328	4	/	/	SYM
work_hwk64j4prjebfojdv2ntbddcoi	328	5	off	off	NNP
work_hwk64j4prjebfojdv2ntbddcoi	328	6	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	328	7	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	328	8	performed	perform	VBN
work_hwk64j4prjebfojdv2ntbddcoi	328	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	329	1	On	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	329	2	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	329	3	other	other	JJ
work_hwk64j4prjebfojdv2ntbddcoi	329	4	hand	hand	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	329	6	no	no	DT
work_hwk64j4prjebfojdv2ntbddcoi	329	7	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	8	area	area	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	9	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	329	10	used	use	VBN
work_hwk64j4prjebfojdv2ntbddcoi	329	11	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	329	12	fit	fit	VB
work_hwk64j4prjebfojdv2ntbddcoi	329	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	329	14	chilled	chill	VBN
work_hwk64j4prjebfojdv2ntbddcoi	329	15	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	16	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	17	at	at	IN
work_hwk64j4prjebfojdv2ntbddcoi	329	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	329	19	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	20	point	point	NN
work_hwk64j4prjebfojdv2ntbddcoi	329	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	330	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	330	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	330	3	unnecessary	unnecessary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	330	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	330	5	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	330	6	consumed	consume	VBN
work_hwk64j4prjebfojdv2ntbddcoi	330	7	highlighting	highlight	VBG
work_hwk64j4prjebfojdv2ntbddcoi	330	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	330	9	need	need	NN
work_hwk64j4prjebfojdv2ntbddcoi	330	10	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	330	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	330	12	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	330	13	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	330	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	331	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	331	2	2	2	LS
work_hwk64j4prjebfojdv2ntbddcoi	331	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	331	4	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	331	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	331	6	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	7	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	331	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	331	9	return	return	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	10	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	331	12	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	331	13	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	331	14	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	331	15	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	331	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	17	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	331	18	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	331	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	331	20	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	21	wastage	wastage	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	22	occurs	occur	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	331	23	regardless	regardless	RB
work_hwk64j4prjebfojdv2ntbddcoi	331	24	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	331	25	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	331	26	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	331	27	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	28	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	331	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	332	1	Therefore	therefore	RB
work_hwk64j4prjebfojdv2ntbddcoi	332	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	332	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	332	4	actual	actual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	332	5	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	332	6	that	that	WDT
work_hwk64j4prjebfojdv2ntbddcoi	332	7	reflects	reflect	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	332	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	332	9	room	room	NN
work_hwk64j4prjebfojdv2ntbddcoi	332	10	temperature	temperature	NN
work_hwk64j4prjebfojdv2ntbddcoi	332	11	monitoring	monitor	VBG
work_hwk64j4prjebfojdv2ntbddcoi	332	12	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	332	13	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	332	14	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	332	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	333	1	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	333	2	3	3	LS
work_hwk64j4prjebfojdv2ntbddcoi	333	3	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	333	4	Owing	owe	VBG
work_hwk64j4prjebfojdv2ntbddcoi	333	5	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	333	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	7	separation	separation	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	333	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	10	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	333	11	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	333	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	333	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	14	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	333	17	when	when	WRB
work_hwk64j4prjebfojdv2ntbddcoi	333	18	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	19	entire	entire	JJ
work_hwk64j4prjebfojdv2ntbddcoi	333	20	load	load	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	21	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	333	22	satisfied	satisfied	JJ
work_hwk64j4prjebfojdv2ntbddcoi	333	23	as	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	333	24	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	25	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	333	26	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	27	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	333	28	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	29	waste	waste	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	30	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	333	31	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	32	occurs	occur	NNS
work_hwk64j4prjebfojdv2ntbddcoi	333	33	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	333	34	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	333	35	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	333	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	334	1	By	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	334	2	incorporating	incorporate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	334	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	334	4	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	334	6	improved	improved	JJ
work_hwk64j4prjebfojdv2ntbddcoi	334	7	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	8	could	could	MD
work_hwk64j4prjebfojdv2ntbddcoi	334	9	be	be	VB
work_hwk64j4prjebfojdv2ntbddcoi	334	10	achieved	achieve	VBN
work_hwk64j4prjebfojdv2ntbddcoi	334	11	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	334	12	maximizing	maximize	VBG
work_hwk64j4prjebfojdv2ntbddcoi	334	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	334	14	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	334	15	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	334	16	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	334	17	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	18	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	19	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	334	20	hence	hence	RB
work_hwk64j4prjebfojdv2ntbddcoi	334	21	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	334	22	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	334	23	minimum	minimum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	334	24	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	334	26	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	334	27	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	28	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	29	plan	plan	NN
work_hwk64j4prjebfojdv2ntbddcoi	334	30	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	334	31	proposed	propose	VBN
work_hwk64j4prjebfojdv2ntbddcoi	334	32	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	335	1	As	as	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	2	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	3	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	335	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	6	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	7	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	8	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	335	9	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	10	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	11	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	12	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	13	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	14	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	15	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	17	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	18	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	19	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	20	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	335	21	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	335	22	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	335	23	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	24	ABS	ABS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	335	25	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	26	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	335	27	heater	heater	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	28	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	29	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	335	30	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	335	31	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	32	30	30	CD
work_hwk64j4prjebfojdv2ntbddcoi	335	33	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	34	compared	compare	VBN
work_hwk64j4prjebfojdv2ntbddcoi	335	35	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	36	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	37	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	38	condition	condition	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	39	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	40	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	41	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	42	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	43	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	335	44	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	45	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	335	46	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	47	total	total	JJ
work_hwk64j4prjebfojdv2ntbddcoi	335	48	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	49	consumption	consumption	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	50	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	51	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	335	52	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	53	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	54	equipment	equipment	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	55	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	335	56	reduced	reduce	VBN
work_hwk64j4prjebfojdv2ntbddcoi	335	57	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	335	58	78	78	CD
work_hwk64j4prjebfojdv2ntbddcoi	335	59	%	%	NN
work_hwk64j4prjebfojdv2ntbddcoi	335	60	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	336	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	336	2	results	result	NNS
work_hwk64j4prjebfojdv2ntbddcoi	336	3	showed	show	VBD
work_hwk64j4prjebfojdv2ntbddcoi	336	4	that	that	IN
work_hwk64j4prjebfojdv2ntbddcoi	336	5	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	336	6	efficient	efficient	JJ
work_hwk64j4prjebfojdv2ntbddcoi	336	7	operation	operation	NN
work_hwk64j4prjebfojdv2ntbddcoi	336	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	336	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	336	10	Multi	multi	JJ
work_hwk64j4prjebfojdv2ntbddcoi	336	11	-	-	JJ
work_hwk64j4prjebfojdv2ntbddcoi	336	12	GHP	GHP	NNP
work_hwk64j4prjebfojdv2ntbddcoi	336	13	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	336	14	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	336	15	possible	possible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	336	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	337	1	Acknowledgments	acknowledgment	NNS
work_hwk64j4prjebfojdv2ntbddcoi	337	2	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	337	3	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	4	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	337	5	supported	support	VBN
work_hwk64j4prjebfojdv2ntbddcoi	337	6	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	337	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	337	8	grant	grant	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	9	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	337	10	14CTAP	14ctap	JJ
work_hwk64j4prjebfojdv2ntbddcoi	337	11	-	-	:
work_hwk64j4prjebfojdv2ntbddcoi	337	12	C078946	C078946	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	337	14	01	01	CD
work_hwk64j4prjebfojdv2ntbddcoi	337	15	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	337	16	from	from	IN
work_hwk64j4prjebfojdv2ntbddcoi	337	17	Infrastructure	infrastructure	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	18	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	337	19	transportation	transportation	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	20	technology	technology	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	21	promotion	promotion	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	22	research	research	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	23	Program	Program	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	24	funded	fund	VBN
work_hwk64j4prjebfojdv2ntbddcoi	337	25	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	337	26	Ministry	Ministry	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	27	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	337	28	Land	Land	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	29	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	337	30	Infrastructure	Infrastructure	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	31	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	337	32	Transport	Transport	NNP
work_hwk64j4prjebfojdv2ntbddcoi	337	33	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	337	34	Korean	korean	JJ
work_hwk64j4prjebfojdv2ntbddcoi	337	35	government	government	NN
work_hwk64j4prjebfojdv2ntbddcoi	337	36	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	338	1	Author	author	NN
work_hwk64j4prjebfojdv2ntbddcoi	338	2	Contributions	Contributions	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	338	3	All	all	DT
work_hwk64j4prjebfojdv2ntbddcoi	338	4	authors	author	NNS
work_hwk64j4prjebfojdv2ntbddcoi	338	5	contributed	contribute	VBD
work_hwk64j4prjebfojdv2ntbddcoi	338	6	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	338	7	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	338	8	work	work	NN
work_hwk64j4prjebfojdv2ntbddcoi	338	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	339	1	Young	young	JJ
work_hwk64j4prjebfojdv2ntbddcoi	339	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	339	3	Ju	Ju	NNP
work_hwk64j4prjebfojdv2ntbddcoi	339	4	Jung	Jung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	339	5	performed	perform	VBD
work_hwk64j4prjebfojdv2ntbddcoi	339	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	339	7	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	339	8	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	339	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	339	10	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	339	11	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	339	12	wrote	write	VBD
work_hwk64j4prjebfojdv2ntbddcoi	339	13	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	339	14	major	major	JJ
work_hwk64j4prjebfojdv2ntbddcoi	339	15	part	part	NN
work_hwk64j4prjebfojdv2ntbddcoi	339	16	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	339	17	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	339	18	article	article	NN
work_hwk64j4prjebfojdv2ntbddcoi	339	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	340	1	Hyo	Hyo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	340	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	340	3	Jun	Jun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	340	4	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	340	5	conducted	conduct	VBD
work_hwk64j4prjebfojdv2ntbddcoi	340	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	340	7	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	340	8	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	340	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	341	1	Kyung	Kyung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	341	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	341	3	Ju	Ju	NNP
work_hwk64j4prjebfojdv2ntbddcoi	341	4	Shin	Shin	NNP
work_hwk64j4prjebfojdv2ntbddcoi	341	5	Simulation	Simulation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	341	6	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	341	7	were	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	341	8	summarized	summarize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	341	9	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	342	1	Jae	Jae	NNP
work_hwk64j4prjebfojdv2ntbddcoi	342	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	342	3	Hun	Hun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	342	4	Jo	Jo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	342	5	proposed	propose	VBD
work_hwk64j4prjebfojdv2ntbddcoi	342	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	342	7	case	case	NN
work_hwk64j4prjebfojdv2ntbddcoi	342	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	342	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	342	10	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	342	11	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	342	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	342	13	Energies	Energies	NNP
work_hwk64j4prjebfojdv2ntbddcoi	342	14	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	342	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	342	16	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	342	17	9342	9342	CD
work_hwk64j4prjebfojdv2ntbddcoi	342	18	conducted	conduct	VBD
work_hwk64j4prjebfojdv2ntbddcoi	342	19	data	datum	NNS
work_hwk64j4prjebfojdv2ntbddcoi	342	20	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	342	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	343	1	Yong	Yong	NNP
work_hwk64j4prjebfojdv2ntbddcoi	343	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	343	3	Shik	Shik	NNP
work_hwk64j4prjebfojdv2ntbddcoi	343	4	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	343	5	performed	perform	VBD
work_hwk64j4prjebfojdv2ntbddcoi	343	6	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	343	7	result	result	NN
work_hwk64j4prjebfojdv2ntbddcoi	343	8	discussion	discussion	NN
work_hwk64j4prjebfojdv2ntbddcoi	343	9	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	343	10	gave	give	VBD
work_hwk64j4prjebfojdv2ntbddcoi	343	11	technical	technical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	343	12	support	support	NN
work_hwk64j4prjebfojdv2ntbddcoi	343	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	344	1	Young	young	JJ
work_hwk64j4prjebfojdv2ntbddcoi	344	2	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	344	3	Hum	Hum	NNP
work_hwk64j4prjebfojdv2ntbddcoi	344	4	Cho	Cho	NNP
work_hwk64j4prjebfojdv2ntbddcoi	344	5	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	344	6	responsible	responsible	JJ
work_hwk64j4prjebfojdv2ntbddcoi	344	7	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	344	8	this	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	344	9	article	article	NN
work_hwk64j4prjebfojdv2ntbddcoi	344	10	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	344	11	gave	give	VBD
work_hwk64j4prjebfojdv2ntbddcoi	344	12	conceptual	conceptual	JJ
work_hwk64j4prjebfojdv2ntbddcoi	344	13	advice	advice	NN
work_hwk64j4prjebfojdv2ntbddcoi	344	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	345	1	Conflicts	conflict	NNS
work_hwk64j4prjebfojdv2ntbddcoi	345	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	345	3	Interest	interest	NN
work_hwk64j4prjebfojdv2ntbddcoi	345	4	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	345	5	authors	author	NNS
work_hwk64j4prjebfojdv2ntbddcoi	345	6	declare	declare	VBP
work_hwk64j4prjebfojdv2ntbddcoi	345	7	no	no	DT
work_hwk64j4prjebfojdv2ntbddcoi	345	8	conflict	conflict	NN
work_hwk64j4prjebfojdv2ntbddcoi	345	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	345	10	interest	interest	NN
work_hwk64j4prjebfojdv2ntbddcoi	345	11	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	346	1	References	reference	NNS
work_hwk64j4prjebfojdv2ntbddcoi	346	2	1	1	CD
work_hwk64j4prjebfojdv2ntbddcoi	346	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	347	1	Technical	Technical	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	2	Report	Report	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	3	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	347	4	Medium	Medium	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	5	Term	Term	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	6	Oil	Oil	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	7	Market	Market	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	347	9	International	International	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	10	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	11	Agency	Agency	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	12	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	347	13	IEA	IEA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	14	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	347	15	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	347	16	Paris	Paris	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	347	18	France	France	NNP
work_hwk64j4prjebfojdv2ntbddcoi	347	19	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	347	20	2014	2014	CD
work_hwk64j4prjebfojdv2ntbddcoi	347	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	348	1	2	2	LS
work_hwk64j4prjebfojdv2ntbddcoi	348	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	349	1	Healy	Healy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	349	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	349	3	P.F.	P.F.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	350	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	350	2	Ugursal	Ugursal	NNP
work_hwk64j4prjebfojdv2ntbddcoi	350	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	350	4	V.I.	V.I.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	351	1	Performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	351	3	economic	economic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	351	4	feasibility	feasibility	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	351	6	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	7	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	351	8	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	10	pumps	pump	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	351	11	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	351	12	cold	cold	JJ
work_hwk64j4prjebfojdv2ntbddcoi	351	13	climate	climate	NN
work_hwk64j4prjebfojdv2ntbddcoi	351	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	352	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	352	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	353	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	354	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	354	2	Res	Res	NNP
work_hwk64j4prjebfojdv2ntbddcoi	354	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	355	1	1997	1997	CD
work_hwk64j4prjebfojdv2ntbddcoi	355	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	355	3	21	21	CD
work_hwk64j4prjebfojdv2ntbddcoi	355	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	355	5	857–870	857–870	CD
work_hwk64j4prjebfojdv2ntbddcoi	355	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	356	1	3	3	LS
work_hwk64j4prjebfojdv2ntbddcoi	356	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	357	1	Lienau	Lienau	NNP
work_hwk64j4prjebfojdv2ntbddcoi	357	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	357	3	P.J.	P.J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	358	1	Geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	358	2	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	358	3	pump	pump	VBP
work_hwk64j4prjebfojdv2ntbddcoi	358	4	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	358	5	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	358	6	utility	utility	NN
work_hwk64j4prjebfojdv2ntbddcoi	358	7	programs	program	NNS
work_hwk64j4prjebfojdv2ntbddcoi	358	8	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	358	9	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	358	10	United	United	NNP
work_hwk64j4prjebfojdv2ntbddcoi	358	11	States	States	NNP
work_hwk64j4prjebfojdv2ntbddcoi	358	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	359	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	359	2	Sources	Sources	NNP
work_hwk64j4prjebfojdv2ntbddcoi	359	3	1997	1997	CD
work_hwk64j4prjebfojdv2ntbddcoi	359	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	359	5	19	19	CD
work_hwk64j4prjebfojdv2ntbddcoi	359	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	359	7	1–8	1–8	CD
work_hwk64j4prjebfojdv2ntbddcoi	359	8	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	360	1	4	4	LS
work_hwk64j4prjebfojdv2ntbddcoi	360	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	361	1	Phetteplace	Phetteplace	NNP
work_hwk64j4prjebfojdv2ntbddcoi	361	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	361	3	G.	G.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	361	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	361	5	Sullivan	Sullivan	NNP
work_hwk64j4prjebfojdv2ntbddcoi	361	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	361	7	W.	W.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	361	8	Performance	Performance	NNP
work_hwk64j4prjebfojdv2ntbddcoi	361	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	361	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	361	11	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	361	12	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	361	13	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	361	14	coupled	couple	VBN
work_hwk64j4prjebfojdv2ntbddcoi	361	15	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	361	16	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	361	17	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	361	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	362	1	ASHRAE	ASHRAE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	362	2	Trans	Trans	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	362	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	363	1	1998	1998	CD
work_hwk64j4prjebfojdv2ntbddcoi	363	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	363	3	104	104	CD
work_hwk64j4prjebfojdv2ntbddcoi	363	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	363	5	763–770	763–770	CD
work_hwk64j4prjebfojdv2ntbddcoi	363	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	364	1	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	364	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	365	1	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	365	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	365	3	A.	a.	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	1	Performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	2	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	366	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	366	5	vertical	vertical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	366	6	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	8	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	9	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	10	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	366	11	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	366	12	Izmir	Izmir	NNP
work_hwk64j4prjebfojdv2ntbddcoi	366	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	366	14	Turkey	Turkey	NNP
work_hwk64j4prjebfojdv2ntbddcoi	366	15	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	367	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	367	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	368	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	369	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	369	2	Res	Res	NNP
work_hwk64j4prjebfojdv2ntbddcoi	369	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	370	1	2002	2002	CD
work_hwk64j4prjebfojdv2ntbddcoi	370	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	370	3	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	370	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	370	5	1121–1139	1121–1139	CD
work_hwk64j4prjebfojdv2ntbddcoi	370	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	371	1	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	371	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	372	1	Haehnlein	Haehnlein	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	372	3	S.	S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	372	5	Bayer	Bayer	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	372	7	P.	P.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	372	9	Blum	Blum	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	372	11	P.	P.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	372	12	International	international	JJ
work_hwk64j4prjebfojdv2ntbddcoi	372	13	legal	legal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	372	14	status	status	NN
work_hwk64j4prjebfojdv2ntbddcoi	372	15	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	372	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	372	17	use	use	NN
work_hwk64j4prjebfojdv2ntbddcoi	372	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	372	19	shallow	shallow	JJ
work_hwk64j4prjebfojdv2ntbddcoi	372	20	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	372	21	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	372	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	373	1	Renew	renew	VB
work_hwk64j4prjebfojdv2ntbddcoi	373	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	374	1	Sustain	sustain	NN
work_hwk64j4prjebfojdv2ntbddcoi	374	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	375	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	375	2	Rev.	Rev.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	376	1	2010	2010	CD
work_hwk64j4prjebfojdv2ntbddcoi	376	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	376	3	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	376	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	376	5	2611–2625	2611–2625	CD
work_hwk64j4prjebfojdv2ntbddcoi	376	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	377	1	7	7	LS
work_hwk64j4prjebfojdv2ntbddcoi	377	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	378	1	Luo	Luo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	378	3	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	378	5	Rohn	Rohn	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	378	7	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	378	9	Bayer	Bayer	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	378	11	M.	M.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	378	13	Priess	Priess	NNP
work_hwk64j4prjebfojdv2ntbddcoi	378	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	378	15	A.	a.	NN
work_hwk64j4prjebfojdv2ntbddcoi	379	1	Thermal	thermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	379	2	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	379	3	comparison	comparison	NN
work_hwk64j4prjebfojdv2ntbddcoi	379	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	379	5	borehole	borehole	NNP
work_hwk64j4prjebfojdv2ntbddcoi	379	6	heat	heat	NNP
work_hwk64j4prjebfojdv2ntbddcoi	379	7	exchangers	exchanger	NNS
work_hwk64j4prjebfojdv2ntbddcoi	379	8	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	379	9	different	different	JJ
work_hwk64j4prjebfojdv2ntbddcoi	379	10	drillhole	drillhole	NNP
work_hwk64j4prjebfojdv2ntbddcoi	379	11	diameters	diameter	NNS
work_hwk64j4prjebfojdv2ntbddcoi	379	12	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	380	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	380	2	2013	2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	380	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	380	4	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	380	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	380	6	4187–4206	4187–4206	CD
work_hwk64j4prjebfojdv2ntbddcoi	380	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	381	1	8	8	LS
work_hwk64j4prjebfojdv2ntbddcoi	381	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	382	1	Rees	Rees	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	382	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	382	3	S.	S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	382	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	382	5	Curtis	Curtis	NNP
work_hwk64j4prjebfojdv2ntbddcoi	382	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	382	7	R.	R.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	382	8	National	National	NNP
work_hwk64j4prjebfojdv2ntbddcoi	382	9	deployment	deployment	NN
work_hwk64j4prjebfojdv2ntbddcoi	382	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	382	11	domestic	domestic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	382	12	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	382	13	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	382	14	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	382	15	technology	technology	NN
work_hwk64j4prjebfojdv2ntbddcoi	382	16	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	382	17	Observations	observation	NNS
work_hwk64j4prjebfojdv2ntbddcoi	382	18	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	382	19	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	382	20	UK	UK	NNP
work_hwk64j4prjebfojdv2ntbddcoi	382	21	experience	experience	NN
work_hwk64j4prjebfojdv2ntbddcoi	382	22	1995–2013	1995–2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	382	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	383	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	383	2	2014	2014	CD
work_hwk64j4prjebfojdv2ntbddcoi	383	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	383	4	7	7	CD
work_hwk64j4prjebfojdv2ntbddcoi	383	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	383	6	5460–5499	5460–5499	CD
work_hwk64j4prjebfojdv2ntbddcoi	383	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	384	1	9	9	CD
work_hwk64j4prjebfojdv2ntbddcoi	384	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	385	1	Byun	Byun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	385	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	385	3	J.K.	J.K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	385	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	385	5	Jeong	Jeong	NNP
work_hwk64j4prjebfojdv2ntbddcoi	385	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	385	7	D.H.	D.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	385	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	385	9	Choi	Choi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	385	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	385	11	Y.D.	Y.D.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	386	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	386	2	Shin	Shin	NNP
work_hwk64j4prjebfojdv2ntbddcoi	386	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	386	4	J.K.	J.K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	387	1	Analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	2	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	387	3	fuel	fuel	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	4	cell	cell	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	5	driven	drive	VBN
work_hwk64j4prjebfojdv2ntbddcoi	387	6	ground	ground	NNP
work_hwk64j4prjebfojdv2ntbddcoi	387	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	8	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	9	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	10	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	387	11	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	387	12	community	community	NN
work_hwk64j4prjebfojdv2ntbddcoi	387	13	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	387	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	388	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	388	2	2013	2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	388	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	388	4	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	388	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	388	6	2428–2445	2428–2445	CD
work_hwk64j4prjebfojdv2ntbddcoi	388	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	389	1	10	10	CD
work_hwk64j4prjebfojdv2ntbddcoi	389	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	390	1	Zhai	Zhai	NNP
work_hwk64j4prjebfojdv2ntbddcoi	390	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	390	3	X.Q.	X.Q.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	391	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	391	2	Wang	Wang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	391	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	391	4	X.L.	X.L.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	392	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	392	2	Pei	Pei	NNP
work_hwk64j4prjebfojdv2ntbddcoi	392	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	392	4	H.T.	H.T.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	393	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	393	2	Yang	Yang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	393	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	393	4	Y.	Y.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	393	5	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	393	6	Wang	Wang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	393	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	393	8	R.Z.	R.Z.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	394	1	Experimental	experimental	JJ
work_hwk64j4prjebfojdv2ntbddcoi	394	2	investigation	investigation	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	3	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	394	4	optimization	optimization	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	394	6	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	394	7	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	8	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	10	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	12	under	under	IN
work_hwk64j4prjebfojdv2ntbddcoi	394	13	different	different	JJ
work_hwk64j4prjebfojdv2ntbddcoi	394	14	indoor	indoor	JJ
work_hwk64j4prjebfojdv2ntbddcoi	394	15	set	set	NN
work_hwk64j4prjebfojdv2ntbddcoi	394	16	temperatures	temperature	NNS
work_hwk64j4prjebfojdv2ntbddcoi	394	17	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	395	1	Appl	Appl	NNP
work_hwk64j4prjebfojdv2ntbddcoi	395	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	396	1	Therm	therm	NN
work_hwk64j4prjebfojdv2ntbddcoi	396	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	397	1	Eng	Eng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	397	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	398	1	2012	2012	CD
work_hwk64j4prjebfojdv2ntbddcoi	398	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	398	3	48	48	CD
work_hwk64j4prjebfojdv2ntbddcoi	398	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	398	5	105–116	105–116	CD
work_hwk64j4prjebfojdv2ntbddcoi	398	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	399	1	11	11	CD
work_hwk64j4prjebfojdv2ntbddcoi	399	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	400	1	Bakirci	Bakirci	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	400	3	K.	K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	400	5	Ozyurt	Ozyurt	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	400	7	O.	O.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	400	9	Comakli	Comakli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	400	11	K.	K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	400	13	Comakli	Comakli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	400	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	400	15	O.	O.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	401	1	Energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	2	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	401	4	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	401	5	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	401	6	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	401	7	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	8	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	10	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	11	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	12	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	401	13	vertical	vertical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	401	14	closed	closed	JJ
work_hwk64j4prjebfojdv2ntbddcoi	401	15	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	401	16	loop	loop	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	17	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	401	18	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	401	19	applications	application	NNS
work_hwk64j4prjebfojdv2ntbddcoi	401	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	402	1	Energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	402	2	2011	2011	CD
work_hwk64j4prjebfojdv2ntbddcoi	402	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	402	4	36	36	CD
work_hwk64j4prjebfojdv2ntbddcoi	402	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	402	6	3224–3232	3224–3232	CD
work_hwk64j4prjebfojdv2ntbddcoi	402	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	403	1	12	12	CD
work_hwk64j4prjebfojdv2ntbddcoi	403	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	404	1	Yang	Yang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	404	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	404	3	W.	W.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	404	4	Experimental	Experimental	NNP
work_hwk64j4prjebfojdv2ntbddcoi	404	5	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	6	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	404	8	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	404	9	direct	direct	JJ
work_hwk64j4prjebfojdv2ntbddcoi	404	10	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	404	11	expansion	expansion	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	12	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	13	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	15	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	404	16	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	404	17	Xiangtan	Xiangtan	NNP
work_hwk64j4prjebfojdv2ntbddcoi	404	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	404	19	China	China	NNP
work_hwk64j4prjebfojdv2ntbddcoi	404	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	405	1	Energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	405	2	2013	2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	405	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	405	4	59	59	CD
work_hwk64j4prjebfojdv2ntbddcoi	405	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	405	6	334–339	334–339	CD
work_hwk64j4prjebfojdv2ntbddcoi	405	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	406	1	13	13	CD
work_hwk64j4prjebfojdv2ntbddcoi	406	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	407	1	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	407	3	W.	W.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	407	5	Choi	Choi	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	407	7	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	407	9	Cho	Cho	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	407	11	H.	H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	12	Performance	Performance	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	13	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	407	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	407	15	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	407	16	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	407	17	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	407	18	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	407	19	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	407	20	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	407	21	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	407	22	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	407	23	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	407	24	residential	residential	JJ
work_hwk64j4prjebfojdv2ntbddcoi	407	25	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	407	26	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	408	1	Renew	renew	VB
work_hwk64j4prjebfojdv2ntbddcoi	408	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	409	1	Energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	409	2	2013	2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	409	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	409	4	50	50	CD
work_hwk64j4prjebfojdv2ntbddcoi	409	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	409	6	596–604	596–604	CD
work_hwk64j4prjebfojdv2ntbddcoi	409	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	410	1	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	410	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	411	1	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	411	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	411	3	O.	O.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	411	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	411	5	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	411	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	411	7	A.	A.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	412	1	Modeling	modeling	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	2	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	412	3	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	4	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	5	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	412	6	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	7	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	8	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	412	9	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	412	10	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	412	11	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	12	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	412	13	systems	system	NNS
work_hwk64j4prjebfojdv2ntbddcoi	412	14	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	413	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	413	2	Build	Build	NNP
work_hwk64j4prjebfojdv2ntbddcoi	413	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	414	1	2007	2007	CD
work_hwk64j4prjebfojdv2ntbddcoi	414	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	414	3	39	39	CD
work_hwk64j4prjebfojdv2ntbddcoi	414	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	414	5	66–75	66–75	CD
work_hwk64j4prjebfojdv2ntbddcoi	414	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	415	1	15	15	CD
work_hwk64j4prjebfojdv2ntbddcoi	415	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	416	1	Salvalai	Salvalai	NNP
work_hwk64j4prjebfojdv2ntbddcoi	416	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	416	3	G.	G.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	416	4	Implementation	Implementation	NNP
work_hwk64j4prjebfojdv2ntbddcoi	416	5	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	416	6	validation	validation	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	416	8	simplified	simplified	JJ
work_hwk64j4prjebfojdv2ntbddcoi	416	9	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	10	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	11	model	model	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	12	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	416	13	IDA	IDA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	416	14	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	416	15	ICE	ICE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	416	16	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	17	simulation	simulation	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	18	environment	environment	NN
work_hwk64j4prjebfojdv2ntbddcoi	416	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	417	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	417	2	Build	Build	NNP
work_hwk64j4prjebfojdv2ntbddcoi	417	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	418	1	2012	2012	CD
work_hwk64j4prjebfojdv2ntbddcoi	418	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	418	3	49	49	CD
work_hwk64j4prjebfojdv2ntbddcoi	418	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	418	5	132–141	132–141	CD
work_hwk64j4prjebfojdv2ntbddcoi	418	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	419	1	16	16	CD
work_hwk64j4prjebfojdv2ntbddcoi	419	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	420	1	Esen	Esen	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	420	3	H.	H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	420	5	Inalli	Inalli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	420	7	M.	M.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	420	9	Esen	Esen	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	420	11	M.	M.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	12	Technoeconomic	Technoeconomic	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	13	appraisal	appraisal	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	420	15	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	420	16	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	17	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	18	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	19	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	20	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	21	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	420	22	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	420	23	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	24	season	season	NN
work_hwk64j4prjebfojdv2ntbddcoi	420	25	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	420	26	eastern	eastern	JJ
work_hwk64j4prjebfojdv2ntbddcoi	420	27	Turkey	Turkey	NNP
work_hwk64j4prjebfojdv2ntbddcoi	420	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	421	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	421	2	Convers	Convers	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	421	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	422	1	Manag	Manag	NNP
work_hwk64j4prjebfojdv2ntbddcoi	422	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	423	1	2006	2006	CD
work_hwk64j4prjebfojdv2ntbddcoi	423	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	423	3	47	47	CD
work_hwk64j4prjebfojdv2ntbddcoi	423	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	423	5	1281–1297	1281–1297	CD
work_hwk64j4prjebfojdv2ntbddcoi	423	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	424	1	Energies	energy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	424	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	424	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	424	4	8	8	CD
work_hwk64j4prjebfojdv2ntbddcoi	424	5	9343	9343	CD
work_hwk64j4prjebfojdv2ntbddcoi	424	6	17	17	CD
work_hwk64j4prjebfojdv2ntbddcoi	424	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	425	1	Ally	Ally	NNP
work_hwk64j4prjebfojdv2ntbddcoi	425	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	425	3	M.R.	M.R.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	426	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	426	2	Munk	Munk	NNP
work_hwk64j4prjebfojdv2ntbddcoi	426	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	426	4	J.D.	J.D.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	427	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	427	2	Baxter	Baxter	NNP
work_hwk64j4prjebfojdv2ntbddcoi	427	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	427	4	V.D.	V.D.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	428	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	428	2	Gehl	Gehl	NNP
work_hwk64j4prjebfojdv2ntbddcoi	428	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	428	4	A.C.	A.C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	428	5	Exergy	Exergy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	428	6	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	7	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	428	8	operational	operational	JJ
work_hwk64j4prjebfojdv2ntbddcoi	428	9	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	10	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	428	11	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	428	12	horizontal	horizontal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	428	13	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	14	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	428	15	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	16	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	17	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	18	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	19	operated	operate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	428	20	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	428	21	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	428	22	low	low	JJ
work_hwk64j4prjebfojdv2ntbddcoi	428	23	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	428	24	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	25	test	test	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	26	house	house	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	27	under	under	IN
work_hwk64j4prjebfojdv2ntbddcoi	428	28	simulated	simulate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	428	29	occupancy	occupancy	NN
work_hwk64j4prjebfojdv2ntbddcoi	428	30	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	428	31	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	429	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	429	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	430	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	430	2	Refrig	Refrig	NNP
work_hwk64j4prjebfojdv2ntbddcoi	430	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	431	1	2012	2012	CD
work_hwk64j4prjebfojdv2ntbddcoi	431	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	431	3	35	35	CD
work_hwk64j4prjebfojdv2ntbddcoi	431	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	431	5	1092–1103	1092–1103	CD
work_hwk64j4prjebfojdv2ntbddcoi	431	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	432	1	18	18	CD
work_hwk64j4prjebfojdv2ntbddcoi	432	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	433	1	Ally	Ally	NNP
work_hwk64j4prjebfojdv2ntbddcoi	433	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	433	3	M.R.	M.R.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	434	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	434	2	Munk	Munk	NNP
work_hwk64j4prjebfojdv2ntbddcoi	434	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	434	4	J.D.	J.D.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	435	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	435	2	Baxter	Baxter	NNP
work_hwk64j4prjebfojdv2ntbddcoi	435	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	435	4	V.D.	V.D.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	436	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	436	2	Gehl	Gehl	NNP
work_hwk64j4prjebfojdv2ntbddcoi	436	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	436	4	A.C.	A.C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	436	5	Exergy	Exergy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	436	6	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	436	7	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	8	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	436	10	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	436	11	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	12	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	436	13	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	15	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	16	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	436	17	domestic	domestic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	436	18	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	19	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	20	under	under	IN
work_hwk64j4prjebfojdv2ntbddcoi	436	21	simulated	simulate	VBN
work_hwk64j4prjebfojdv2ntbddcoi	436	22	occupancy	occupancy	NN
work_hwk64j4prjebfojdv2ntbddcoi	436	23	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	436	24	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	437	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	437	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	438	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	438	2	Refrig	Refrig	NNP
work_hwk64j4prjebfojdv2ntbddcoi	438	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	439	1	2013	2013	CD
work_hwk64j4prjebfojdv2ntbddcoi	439	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	439	3	36	36	CD
work_hwk64j4prjebfojdv2ntbddcoi	439	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	439	5	1417–1430	1417–1430	CD
work_hwk64j4prjebfojdv2ntbddcoi	439	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	440	1	19	19	CD
work_hwk64j4prjebfojdv2ntbddcoi	440	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	441	1	Chen	Chen	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	441	3	C.	C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	441	5	Sun	Sun	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	441	7	F.	F.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	441	9	Feng	Feng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	441	11	L.	L.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	441	13	Liu	Liu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	441	15	M.	M.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	16	Underground	Underground	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	17	water	water	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	18	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	441	19	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	20	loop	loop	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	21	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	22	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	441	23	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	24	air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	25	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	441	26	conditioning	conditioning	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	27	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	28	applied	apply	VBN
work_hwk64j4prjebfojdv2ntbddcoi	441	29	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	441	30	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	441	31	residential	residential	JJ
work_hwk64j4prjebfojdv2ntbddcoi	441	32	building	building	NN
work_hwk64j4prjebfojdv2ntbddcoi	441	33	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	441	34	Beijing	Beijing	NNP
work_hwk64j4prjebfojdv2ntbddcoi	441	35	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	442	1	Appl	Appl	NNP
work_hwk64j4prjebfojdv2ntbddcoi	442	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	443	1	Energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	443	2	2005	2005	CD
work_hwk64j4prjebfojdv2ntbddcoi	443	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	443	4	82	82	CD
work_hwk64j4prjebfojdv2ntbddcoi	443	5	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	443	6	331–344	331–344	CD
work_hwk64j4prjebfojdv2ntbddcoi	443	7	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	444	1	20	20	CD
work_hwk64j4prjebfojdv2ntbddcoi	444	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	445	1	Sivasakthivel	Sivasakthivel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	445	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	445	3	T.	t.	NN
work_hwk64j4prjebfojdv2ntbddcoi	445	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	445	5	Murugaesan	Murugaesan	NNP
work_hwk64j4prjebfojdv2ntbddcoi	445	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	445	7	K.	K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	445	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	445	9	Sahoo	Sahoo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	445	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	445	11	P.K.	P.K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	446	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	446	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	446	4	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	5	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	446	6	CO2	CO2	NNP
work_hwk64j4prjebfojdv2ntbddcoi	446	7	saving	save	VBG
work_hwk64j4prjebfojdv2ntbddcoi	446	8	potential	potential	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	446	10	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	11	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	12	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	13	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	14	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	446	15	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	446	16	India	India	NNP
work_hwk64j4prjebfojdv2ntbddcoi	446	17	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	447	1	Renew	renew	VB
work_hwk64j4prjebfojdv2ntbddcoi	447	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	448	1	Sustain	sustain	NN
work_hwk64j4prjebfojdv2ntbddcoi	448	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	449	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	449	2	Rev.	Rev.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	450	1	2014	2014	CD
work_hwk64j4prjebfojdv2ntbddcoi	450	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	450	3	32	32	CD
work_hwk64j4prjebfojdv2ntbddcoi	450	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	450	5	278–293	278–293	CD
work_hwk64j4prjebfojdv2ntbddcoi	450	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	451	1	21	21	CD
work_hwk64j4prjebfojdv2ntbddcoi	451	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	452	1	Kong	Kong	NNP
work_hwk64j4prjebfojdv2ntbddcoi	452	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	452	3	D.S.	D.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	453	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	453	2	Jang	Jang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	453	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	453	4	Y.S.	Y.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	454	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	454	2	Ahn	Ahn	NNP
work_hwk64j4prjebfojdv2ntbddcoi	454	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	454	4	B.H.	B.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	455	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	455	2	Huh	huh	UH
work_hwk64j4prjebfojdv2ntbddcoi	455	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	455	4	J.H.	J.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	456	2	Study	Study	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	456	5	Methodology	Methodology	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	7	Design	Design	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	8	Optimization	Optimization	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	9	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	10	Cooling	Cooling	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	11	System	System	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	456	13	Technical	Technical	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	14	Report	Report	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	15	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	456	17	Society	Society	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	19	Air	air	NN
work_hwk64j4prjebfojdv2ntbddcoi	456	20	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	456	21	conditioning	conditioning	NN
work_hwk64j4prjebfojdv2ntbddcoi	456	22	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	456	23	Refrigerating	Refrigerating	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	24	Engineers	Engineers	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	456	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	456	26	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	456	27	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	456	28	2012	2012	CD
work_hwk64j4prjebfojdv2ntbddcoi	456	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	457	1	22	22	CD
work_hwk64j4prjebfojdv2ntbddcoi	457	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	458	1	Hwang	Hwang	NNP
work_hwk64j4prjebfojdv2ntbddcoi	458	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	458	3	I.J.	I.J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	459	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	459	2	Woo	Woo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	459	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	459	4	N.S.	N.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	460	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	460	2	Lee	Lee	NNP
work_hwk64j4prjebfojdv2ntbddcoi	460	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	460	4	H.C.	H.C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	460	5	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	460	6	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	7	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	460	8	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	460	9	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	10	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	11	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	460	12	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	460	13	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	14	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	15	with	with	IN
work_hwk64j4prjebfojdv2ntbddcoi	460	16	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	460	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	460	18	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	460	19	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	460	20	sources	source	NNS
work_hwk64j4prjebfojdv2ntbddcoi	460	21	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	461	1	Korean	Korean	NNP
work_hwk64j4prjebfojdv2ntbddcoi	461	2	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	461	3	Air	Air	NNP
work_hwk64j4prjebfojdv2ntbddcoi	461	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	461	5	Cond	Cond	NNP
work_hwk64j4prjebfojdv2ntbddcoi	461	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	462	1	Refrig	Refrig	NNP
work_hwk64j4prjebfojdv2ntbddcoi	462	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	463	1	Eng	Eng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	463	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	464	1	2006	2006	CD
work_hwk64j4prjebfojdv2ntbddcoi	464	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	464	3	18	18	CD
work_hwk64j4prjebfojdv2ntbddcoi	464	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	464	5	279–286	279–286	CD
work_hwk64j4prjebfojdv2ntbddcoi	464	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	465	1	23	23	CD
work_hwk64j4prjebfojdv2ntbddcoi	465	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	466	1	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	466	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	466	3	O.	O.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	466	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	466	5	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	466	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	466	7	A.	A.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	467	1	Experimental	experimental	JJ
work_hwk64j4prjebfojdv2ntbddcoi	467	2	investigation	investigation	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	467	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	467	5	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	467	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	467	8	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	467	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	467	10	assisted	assist	VBN
work_hwk64j4prjebfojdv2ntbddcoi	467	11	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	12	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	467	13	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	14	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	15	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	16	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	17	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	467	18	greenhouse	greenhouse	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	19	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	467	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	468	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	468	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	469	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	470	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	470	2	Res	Res	NNP
work_hwk64j4prjebfojdv2ntbddcoi	470	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	471	1	2004	2004	CD
work_hwk64j4prjebfojdv2ntbddcoi	471	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	471	3	29	29	CD
work_hwk64j4prjebfojdv2ntbddcoi	471	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	471	5	217–231	217–231	CD
work_hwk64j4prjebfojdv2ntbddcoi	471	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	472	1	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	472	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	473	1	Ozgener	Ozgener	NNP
work_hwk64j4prjebfojdv2ntbddcoi	473	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	473	3	O.	O.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	473	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	473	5	Hepbasli	Hepbasli	NNP
work_hwk64j4prjebfojdv2ntbddcoi	473	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	473	7	A.	A.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	474	1	Experimental	experimental	JJ
work_hwk64j4prjebfojdv2ntbddcoi	474	2	performance	performance	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	3	analysis	analysis	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	4	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	474	5	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	474	6	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	474	7	assisted	assisted	JJ
work_hwk64j4prjebfojdv2ntbddcoi	474	8	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	9	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	474	10	source	source	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	11	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	12	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	13	greenhouse	greenhouse	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	14	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	15	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	474	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	475	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	475	2	Build	Build	NNP
work_hwk64j4prjebfojdv2ntbddcoi	475	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	476	1	2005	2005	CD
work_hwk64j4prjebfojdv2ntbddcoi	476	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	476	3	37	37	CD
work_hwk64j4prjebfojdv2ntbddcoi	476	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	476	5	101–110	101–110	CD
work_hwk64j4prjebfojdv2ntbddcoi	476	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	477	1	25	25	CD
work_hwk64j4prjebfojdv2ntbddcoi	477	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	478	1	Nam	Nam	NNP
work_hwk64j4prjebfojdv2ntbddcoi	478	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	478	3	Y.J.	Y.J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	479	1	Study	study	VB
work_hwk64j4prjebfojdv2ntbddcoi	479	2	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	479	3	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	479	4	optimum	optimum	JJ
work_hwk64j4prjebfojdv2ntbddcoi	479	5	design	design	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	6	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	479	7	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	479	8	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	9	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	10	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	11	using	use	VBG
work_hwk64j4prjebfojdv2ntbddcoi	479	12	solar	solar	JJ
work_hwk64j4prjebfojdv2ntbddcoi	479	13	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	479	14	ground	ground	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	15	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	479	16	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	480	1	Korean	Korean	NNP
work_hwk64j4prjebfojdv2ntbddcoi	480	2	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	480	3	Air	Air	NNP
work_hwk64j4prjebfojdv2ntbddcoi	480	4	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	480	5	Cond	Cond	NNP
work_hwk64j4prjebfojdv2ntbddcoi	480	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	481	1	Refrig	Refrig	NNP
work_hwk64j4prjebfojdv2ntbddcoi	481	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	482	1	Eng	Eng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	482	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	483	1	2012	2012	CD
work_hwk64j4prjebfojdv2ntbddcoi	483	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	483	3	24	24	CD
work_hwk64j4prjebfojdv2ntbddcoi	483	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	483	5	509–514	509–514	CD
work_hwk64j4prjebfojdv2ntbddcoi	483	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	484	1	26	26	CD
work_hwk64j4prjebfojdv2ntbddcoi	484	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	485	1	Shu	Shu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	485	3	N.	N.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	4	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	485	5	Kameda	Kameda	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	6	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	485	7	N.	N.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	8	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	485	9	Kishida	Kishida	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	10	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	485	11	Y.	Y.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	12	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	485	13	Sonoda	Sonoda	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	485	15	H.	H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	16	Experimental	Experimental	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	17	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	485	18	theoretical	theoretical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	485	19	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	485	20	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	485	21	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	485	22	optimal	optimal	NNP
work_hwk64j4prjebfojdv2ntbddcoi	485	23	tilt	tilt	NN
work_hwk64j4prjebfojdv2ntbddcoi	485	24	angle	angle	NN
work_hwk64j4prjebfojdv2ntbddcoi	485	25	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	485	26	photovoltaic	photovoltaic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	485	27	panels	panel	NNS
work_hwk64j4prjebfojdv2ntbddcoi	485	28	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	486	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	486	2	Asian	Asian	NNP
work_hwk64j4prjebfojdv2ntbddcoi	486	3	Archit	Archit	NNP
work_hwk64j4prjebfojdv2ntbddcoi	486	4	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	487	1	Build	build	VB
work_hwk64j4prjebfojdv2ntbddcoi	487	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	488	1	Eng	Eng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	488	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	489	1	2006	2006	CD
work_hwk64j4prjebfojdv2ntbddcoi	489	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	489	3	5	5	CD
work_hwk64j4prjebfojdv2ntbddcoi	489	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	489	5	399–405	399–405	CD
work_hwk64j4prjebfojdv2ntbddcoi	489	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	490	1	27	27	CD
work_hwk64j4prjebfojdv2ntbddcoi	490	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	491	1	Jeon	Jeon	NNP
work_hwk64j4prjebfojdv2ntbddcoi	491	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	491	3	J.U.	J.U.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	492	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	492	2	Park	Park	NNP
work_hwk64j4prjebfojdv2ntbddcoi	492	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	492	4	J.S.	J.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	493	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	493	2	Myung	Myung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	493	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	493	4	W.H.	W.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	494	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	494	2	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	494	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	494	4	Y.K.	Y.K.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	495	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	495	2	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	495	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	495	4	Y.C.	Y.C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	496	1	Analytical	analytical	JJ
work_hwk64j4prjebfojdv2ntbddcoi	496	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	496	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	496	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	496	5	optimal	optimal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	496	6	operating	operate	VBG
work_hwk64j4prjebfojdv2ntbddcoi	496	7	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	496	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	496	9	a	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	496	10	hybrid	hybrid	JJ
work_hwk64j4prjebfojdv2ntbddcoi	496	11	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	496	12	plant	plant	NN
work_hwk64j4prjebfojdv2ntbddcoi	496	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	497	1	Korea	Korea	NNP
work_hwk64j4prjebfojdv2ntbddcoi	497	2	Soc	Soc	NNP
work_hwk64j4prjebfojdv2ntbddcoi	497	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	498	1	Geotherm	Geotherm	NNP
work_hwk64j4prjebfojdv2ntbddcoi	498	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	499	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	499	2	Eng	Eng	NNP
work_hwk64j4prjebfojdv2ntbddcoi	499	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	500	1	2010	2010	CD
work_hwk64j4prjebfojdv2ntbddcoi	500	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	500	3	6	6	CD
work_hwk64j4prjebfojdv2ntbddcoi	500	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	500	5	1–7	1–7	CD
work_hwk64j4prjebfojdv2ntbddcoi	500	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	501	1	28	28	CD
work_hwk64j4prjebfojdv2ntbddcoi	501	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	502	1	Yu	Yu	NNP
work_hwk64j4prjebfojdv2ntbddcoi	502	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	502	3	S.W.	S.W.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	503	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	503	2	Jung	Jung	NNP
work_hwk64j4prjebfojdv2ntbddcoi	503	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	503	4	Y.J.	Y.J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	504	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	504	2	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	504	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	504	4	S.H.	S.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	505	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	505	2	Jo	Jo	NNP
work_hwk64j4prjebfojdv2ntbddcoi	505	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	505	4	J.H.	J.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	506	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	506	2	Kim	Kim	NNP
work_hwk64j4prjebfojdv2ntbddcoi	506	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	506	4	Y.S.	Y.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	507	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	507	2	Cho	Cho	NNP
work_hwk64j4prjebfojdv2ntbddcoi	507	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	507	4	Y.H.	Y.H.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	508	1	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	508	2	study	study	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	3	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	508	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	508	5	optimized	optimize	VBN
work_hwk64j4prjebfojdv2ntbddcoi	508	6	control	control	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	7	strategies	strategy	NNS
work_hwk64j4prjebfojdv2ntbddcoi	508	8	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	508	9	geothermal	geothermal	JJ
work_hwk64j4prjebfojdv2ntbddcoi	508	10	heat	heat	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	11	pump	pump	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	12	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	13	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	508	14	absorption	absorption	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	15	chiller	chiller	NN
work_hwk64j4prjebfojdv2ntbddcoi	508	16	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	508	17	heater	heater	NNP
work_hwk64j4prjebfojdv2ntbddcoi	508	18	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	509	1	Int	Int	NNP
work_hwk64j4prjebfojdv2ntbddcoi	509	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	510	1	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	511	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	511	2	Res	Res	NNP
work_hwk64j4prjebfojdv2ntbddcoi	511	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	512	1	2014	2014	CD
work_hwk64j4prjebfojdv2ntbddcoi	512	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	512	3	38	38	CD
work_hwk64j4prjebfojdv2ntbddcoi	512	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	512	5	1083–1098	1083–1098	CD
work_hwk64j4prjebfojdv2ntbddcoi	512	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	513	1	29	29	CD
work_hwk64j4prjebfojdv2ntbddcoi	513	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	514	1	Kalz	Kalz	NNP
work_hwk64j4prjebfojdv2ntbddcoi	514	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	514	3	D.E.	D.E.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	515	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	515	2	Herkel	Herkel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	515	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	515	4	S.	S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	515	5	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	515	6	Wagner	Wagner	NNP
work_hwk64j4prjebfojdv2ntbddcoi	515	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	515	8	A.	a.	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	1	The	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	516	2	impact	impact	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	516	4	auxiliary	auxiliary	JJ
work_hwk64j4prjebfojdv2ntbddcoi	516	5	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	6	on	on	IN
work_hwk64j4prjebfojdv2ntbddcoi	516	7	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	516	8	efficiency	efficiency	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	9	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	516	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	516	11	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	516	13	cooling	cooling	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	14	system	system	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	15	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	516	16	Monitoring	monitor	VBG
work_hwk64j4prjebfojdv2ntbddcoi	516	17	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	516	18	low	low	JJ
work_hwk64j4prjebfojdv2ntbddcoi	516	19	-	-	HYPH
work_hwk64j4prjebfojdv2ntbddcoi	516	20	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	516	21	buildings	building	NNS
work_hwk64j4prjebfojdv2ntbddcoi	516	22	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	517	1	Energy	Energy	NNP
work_hwk64j4prjebfojdv2ntbddcoi	517	2	Build	Build	NNP
work_hwk64j4prjebfojdv2ntbddcoi	517	3	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	518	1	2009	2009	CD
work_hwk64j4prjebfojdv2ntbddcoi	518	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	518	3	41	41	CD
work_hwk64j4prjebfojdv2ntbddcoi	518	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	518	5	1019–1030	1019–1030	CD
work_hwk64j4prjebfojdv2ntbddcoi	518	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	519	1	30	30	CD
work_hwk64j4prjebfojdv2ntbddcoi	519	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	520	1	Kalz	Kalz	NNP
work_hwk64j4prjebfojdv2ntbddcoi	520	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	520	3	D.E.	D.E.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	521	2	Pfafferott	Pfafferott	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	521	4	J.	J.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	5	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	521	6	Herkel	Herkel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	7	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	521	8	S.	S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	9	Building	Building	NNP
work_hwk64j4prjebfojdv2ntbddcoi	521	10	signatures	signature	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	521	11	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	521	12	A	a	DT
work_hwk64j4prjebfojdv2ntbddcoi	521	13	holistic	holistic	JJ
work_hwk64j4prjebfojdv2ntbddcoi	521	14	approach	approach	NN
work_hwk64j4prjebfojdv2ntbddcoi	521	15	to	to	IN
work_hwk64j4prjebfojdv2ntbddcoi	521	16	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	521	17	evaluation	evaluation	NN
work_hwk64j4prjebfojdv2ntbddcoi	521	18	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	521	19	heating	heating	NN
work_hwk64j4prjebfojdv2ntbddcoi	521	20	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	521	21	cooling	cool	VBG
work_hwk64j4prjebfojdv2ntbddcoi	521	22	concepts	concept	NNS
work_hwk64j4prjebfojdv2ntbddcoi	521	23	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	522	1	Build	build	VB
work_hwk64j4prjebfojdv2ntbddcoi	522	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	523	1	Environ	Environ	NNP
work_hwk64j4prjebfojdv2ntbddcoi	523	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	524	1	2010	2010	CD
work_hwk64j4prjebfojdv2ntbddcoi	524	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	524	3	45	45	CD
work_hwk64j4prjebfojdv2ntbddcoi	524	4	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	524	5	632–646	632–646	CD
work_hwk64j4prjebfojdv2ntbddcoi	524	6	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	525	1	31	31	CD
work_hwk64j4prjebfojdv2ntbddcoi	525	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	526	1	TRNSYS	TRNSYS	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	2	17	17	CD
work_hwk64j4prjebfojdv2ntbddcoi	526	3	Reference	Reference	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	4	Manual	Manual	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	5	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	526	6	University	University	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	7	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	526	8	Wicons	Wicons	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	526	9	in	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	526	10	Madison	Madison	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	11	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	526	12	Madison	Madison	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	13	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	526	14	WI	WI	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	15	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	526	16	USA	USA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	526	17	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	526	18	2010	2010	CD
work_hwk64j4prjebfojdv2ntbddcoi	526	19	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	527	1	32	32	CD
work_hwk64j4prjebfojdv2ntbddcoi	527	2	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	528	1	Haberl	Haberl	NNP
work_hwk64j4prjebfojdv2ntbddcoi	528	2	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	528	3	J.S.	J.S.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	529	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	529	2	Claridge	Claridge	NNP
work_hwk64j4prjebfojdv2ntbddcoi	529	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	529	4	D.E.	D.E.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	1	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	530	2	Culp	Culp	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	3	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	530	4	C.	C.	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	5	ASHRA	ASHRA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	6	’s	’s	,
work_hwk64j4prjebfojdv2ntbddcoi	530	7	GUIDELINE	GUIDELINE	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	8	14	14	CD
work_hwk64j4prjebfojdv2ntbddcoi	530	9	-	-	SYM
work_hwk64j4prjebfojdv2ntbddcoi	530	10	2002	2002	CD
work_hwk64j4prjebfojdv2ntbddcoi	530	11	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	530	12	Measurement	Measurement	NNP
work_hwk64j4prjebfojdv2ntbddcoi	530	13	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	530	14	energy	energy	NN
work_hwk64j4prjebfojdv2ntbddcoi	530	15	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	530	16	demand	demand	NN
work_hwk64j4prjebfojdv2ntbddcoi	530	17	savings	saving	NNS
work_hwk64j4prjebfojdv2ntbddcoi	530	18	:	:	:
work_hwk64j4prjebfojdv2ntbddcoi	530	19	How	how	WRB
work_hwk64j4prjebfojdv2ntbddcoi	530	20	to	to	TO
work_hwk64j4prjebfojdv2ntbddcoi	530	21	determine	determine	VB
work_hwk64j4prjebfojdv2ntbddcoi	530	22	what	what	WP
work_hwk64j4prjebfojdv2ntbddcoi	530	23	was	be	VBD
work_hwk64j4prjebfojdv2ntbddcoi	530	24	really	really	RB
work_hwk64j4prjebfojdv2ntbddcoi	530	25	saved	save	VBN
work_hwk64j4prjebfojdv2ntbddcoi	530	26	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	530	27	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	530	28	retrofit	retrofit	NN
work_hwk64j4prjebfojdv2ntbddcoi	530	29	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	531	1	In	in	IN
work_hwk64j4prjebfojdv2ntbddcoi	531	2	Proceedings	Proceedings	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	3	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	531	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	531	5	International	International	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	6	Conference	Conference	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	7	for	for	IN
work_hwk64j4prjebfojdv2ntbddcoi	531	8	Enhanced	Enhanced	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	9	Building	Building	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	10	Operations	Operations	NNPS
work_hwk64j4prjebfojdv2ntbddcoi	531	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	531	12	College	College	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	13	Station	Station	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	14	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	531	15	TX	TX	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	16	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	531	17	USA	USA	NNP
work_hwk64j4prjebfojdv2ntbddcoi	531	18	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	531	19	2005	2005	CD
work_hwk64j4prjebfojdv2ntbddcoi	531	20	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	532	1	©	©	LS
work_hwk64j4prjebfojdv2ntbddcoi	532	2	2015	2015	CD
work_hwk64j4prjebfojdv2ntbddcoi	532	3	by	by	IN
work_hwk64j4prjebfojdv2ntbddcoi	532	4	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	532	5	authors	author	NNS
work_hwk64j4prjebfojdv2ntbddcoi	532	6	;	;	:
work_hwk64j4prjebfojdv2ntbddcoi	532	7	licensee	licensee	NNP
work_hwk64j4prjebfojdv2ntbddcoi	532	8	MDPI	MDPI	NNP
work_hwk64j4prjebfojdv2ntbddcoi	532	9	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	532	10	Basel	Basel	NNP
work_hwk64j4prjebfojdv2ntbddcoi	532	11	,	,	,
work_hwk64j4prjebfojdv2ntbddcoi	532	12	Switzerland	Switzerland	NNP
work_hwk64j4prjebfojdv2ntbddcoi	532	13	.	.	.
work_hwk64j4prjebfojdv2ntbddcoi	533	1	This	this	DT
work_hwk64j4prjebfojdv2ntbddcoi	533	2	article	article	NN
work_hwk64j4prjebfojdv2ntbddcoi	533	3	is	be	VBZ
work_hwk64j4prjebfojdv2ntbddcoi	533	4	an	an	DT
work_hwk64j4prjebfojdv2ntbddcoi	533	5	open	open	JJ
work_hwk64j4prjebfojdv2ntbddcoi	533	6	access	access	NN
work_hwk64j4prjebfojdv2ntbddcoi	533	7	article	article	NN
work_hwk64j4prjebfojdv2ntbddcoi	533	8	distributed	distribute	VBN
work_hwk64j4prjebfojdv2ntbddcoi	533	9	under	under	IN
work_hwk64j4prjebfojdv2ntbddcoi	533	10	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	533	11	terms	term	NNS
work_hwk64j4prjebfojdv2ntbddcoi	533	12	and	and	CC
work_hwk64j4prjebfojdv2ntbddcoi	533	13	conditions	condition	NNS
work_hwk64j4prjebfojdv2ntbddcoi	533	14	of	of	IN
work_hwk64j4prjebfojdv2ntbddcoi	533	15	the	the	DT
work_hwk64j4prjebfojdv2ntbddcoi	533	16	Creative	Creative	NNP
work_hwk64j4prjebfojdv2ntbddcoi	533	17	Commons	Commons	NNP
work_hwk64j4prjebfojdv2ntbddcoi	533	18	Attribution	Attribution	NNP
work_hwk64j4prjebfojdv2ntbddcoi	533	19	license	license	NN
work_hwk64j4prjebfojdv2ntbddcoi	533	20	(	(	-LRB-
work_hwk64j4prjebfojdv2ntbddcoi	533	21	http://creativecommons.org/licenses/by/4.0/	http://creativecommons.org/licenses/by/4.0/	ADD
work_hwk64j4prjebfojdv2ntbddcoi	533	22	)	)	-RRB-
work_hwk64j4prjebfojdv2ntbddcoi	533	23	.	.	.