id	sid	tid	token	lemma	pos
work_pbekm73p7bendalswgkl6f7opm	1	1	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	1	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	1	3	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	1	4	Gases	Gases	NNPS
work_pbekm73p7bendalswgkl6f7opm	1	5	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	1	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	1	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	1	8	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	1	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	1	10	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	1	11	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	1	12	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	1	13	Recovery	Recovery	NNP
work_pbekm73p7bendalswgkl6f7opm	1	14	System	System	NNP
work_pbekm73p7bendalswgkl6f7opm	1	15	HAL	HAL	NNP
work_pbekm73p7bendalswgkl6f7opm	1	16	I	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	1	17	d	d	VBD
work_pbekm73p7bendalswgkl6f7opm	1	18	:	:	:
work_pbekm73p7bendalswgkl6f7opm	1	19	hal-02528614	hal-02528614	NN
work_pbekm73p7bendalswgkl6f7opm	1	20	https://hal.univ-angers.fr/hal-02528614	https://hal.univ-angers.fr/hal-02528614	NNP
work_pbekm73p7bendalswgkl6f7opm	1	21	Submitted	submit	VBN
work_pbekm73p7bendalswgkl6f7opm	1	22	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	1	23	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	1	24	Apr	Apr	NNP
work_pbekm73p7bendalswgkl6f7opm	1	25	2020	2020	CD
work_pbekm73p7bendalswgkl6f7opm	1	26	HAL	HAL	NNP
work_pbekm73p7bendalswgkl6f7opm	1	27	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	1	28	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	1	29	multi	multi	JJ
work_pbekm73p7bendalswgkl6f7opm	1	30	-	-	JJ
work_pbekm73p7bendalswgkl6f7opm	1	31	disciplinary	disciplinary	JJ
work_pbekm73p7bendalswgkl6f7opm	1	32	open	open	JJ
work_pbekm73p7bendalswgkl6f7opm	1	33	access	access	NN
work_pbekm73p7bendalswgkl6f7opm	1	34	archive	archive	NN
work_pbekm73p7bendalswgkl6f7opm	1	35	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	1	36	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	1	37	deposit	deposit	NN
work_pbekm73p7bendalswgkl6f7opm	1	38	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	1	39	dissemination	dissemination	NN
work_pbekm73p7bendalswgkl6f7opm	1	40	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	1	41	sci-	sci-	JJ
work_pbekm73p7bendalswgkl6f7opm	1	42	entific	entific	JJ
work_pbekm73p7bendalswgkl6f7opm	1	43	research	research	NN
work_pbekm73p7bendalswgkl6f7opm	1	44	documents	document	NNS
work_pbekm73p7bendalswgkl6f7opm	1	45	,	,	,
work_pbekm73p7bendalswgkl6f7opm	1	46	whether	whether	IN
work_pbekm73p7bendalswgkl6f7opm	1	47	they	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	1	48	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	1	49	pub-	pub-	RB
work_pbekm73p7bendalswgkl6f7opm	1	50	lished	lished	JJ
work_pbekm73p7bendalswgkl6f7opm	1	51	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	1	52	not	not	RB
work_pbekm73p7bendalswgkl6f7opm	1	53	.	.	.
work_pbekm73p7bendalswgkl6f7opm	2	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	2	2	documents	document	NNS
work_pbekm73p7bendalswgkl6f7opm	2	3	may	may	MD
work_pbekm73p7bendalswgkl6f7opm	2	4	come	come	VB
work_pbekm73p7bendalswgkl6f7opm	2	5	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	2	6	teaching	teaching	NN
work_pbekm73p7bendalswgkl6f7opm	2	7	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	2	8	research	research	NN
work_pbekm73p7bendalswgkl6f7opm	2	9	institutions	institution	NNS
work_pbekm73p7bendalswgkl6f7opm	2	10	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	2	11	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	2	12	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	2	13	abroad	abroad	RB
work_pbekm73p7bendalswgkl6f7opm	2	14	,	,	,
work_pbekm73p7bendalswgkl6f7opm	2	15	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	2	16	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	2	17	public	public	JJ
work_pbekm73p7bendalswgkl6f7opm	2	18	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	2	19	private	private	JJ
work_pbekm73p7bendalswgkl6f7opm	2	20	research	research	NN
work_pbekm73p7bendalswgkl6f7opm	2	21	centers	center	NNS
work_pbekm73p7bendalswgkl6f7opm	2	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	3	1	L’archive	l’archive	IN
work_pbekm73p7bendalswgkl6f7opm	3	2	ouverte	ouverte	NN
work_pbekm73p7bendalswgkl6f7opm	3	3	pluridisciplinaire	pluridisciplinaire	NNP
work_pbekm73p7bendalswgkl6f7opm	3	4	HAL	HAL	NNP
work_pbekm73p7bendalswgkl6f7opm	3	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	3	6	est	est	NNP
work_pbekm73p7bendalswgkl6f7opm	3	7	destinée	destinée	NNP
work_pbekm73p7bendalswgkl6f7opm	3	8	au	au	PRP
work_pbekm73p7bendalswgkl6f7opm	3	9	dépôt	dépôt	NNP
work_pbekm73p7bendalswgkl6f7opm	3	10	et	et	FW
work_pbekm73p7bendalswgkl6f7opm	3	11	à	à	NNP
work_pbekm73p7bendalswgkl6f7opm	3	12	la	la	NNP
work_pbekm73p7bendalswgkl6f7opm	3	13	diffusion	diffusion	NNP
work_pbekm73p7bendalswgkl6f7opm	3	14	de	de	FW
work_pbekm73p7bendalswgkl6f7opm	3	15	documents	documents	NNP
work_pbekm73p7bendalswgkl6f7opm	3	16	scientifiques	scientifiques	NNPS
work_pbekm73p7bendalswgkl6f7opm	3	17	de	de	NNP
work_pbekm73p7bendalswgkl6f7opm	3	18	niveau	niveau	NNP
work_pbekm73p7bendalswgkl6f7opm	3	19	recherche	recherche	NNP
work_pbekm73p7bendalswgkl6f7opm	3	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	3	21	publiés	publiés	NNP
work_pbekm73p7bendalswgkl6f7opm	3	22	ou	ou	NNP
work_pbekm73p7bendalswgkl6f7opm	3	23	non	non	JJ
work_pbekm73p7bendalswgkl6f7opm	3	24	,	,	,
work_pbekm73p7bendalswgkl6f7opm	3	25	émanant	émanant	JJ
work_pbekm73p7bendalswgkl6f7opm	3	26	des	des	NNP
work_pbekm73p7bendalswgkl6f7opm	3	27	établissements	établissement	NNS
work_pbekm73p7bendalswgkl6f7opm	3	28	d’enseignement	d’enseignement	NNP
work_pbekm73p7bendalswgkl6f7opm	3	29	et	et	FW
work_pbekm73p7bendalswgkl6f7opm	3	30	de	de	NNP
work_pbekm73p7bendalswgkl6f7opm	3	31	recherche	recherche	NNP
work_pbekm73p7bendalswgkl6f7opm	3	32	français	français	NNP
work_pbekm73p7bendalswgkl6f7opm	3	33	ou	ou	NNP
work_pbekm73p7bendalswgkl6f7opm	3	34	étrangers	étrangers	NNPS
work_pbekm73p7bendalswgkl6f7opm	3	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	3	36	des	des	NNP
work_pbekm73p7bendalswgkl6f7opm	3	37	laboratoires	laboratoires	NNP
work_pbekm73p7bendalswgkl6f7opm	3	38	publics	public	NNS
work_pbekm73p7bendalswgkl6f7opm	3	39	ou	ou	NNP
work_pbekm73p7bendalswgkl6f7opm	3	40	privés	privés	NNP
work_pbekm73p7bendalswgkl6f7opm	3	41	.	.	.
work_pbekm73p7bendalswgkl6f7opm	4	1	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	4	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	4	3	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	4	4	Gases	Gases	NNPS
work_pbekm73p7bendalswgkl6f7opm	4	5	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	4	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	4	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	4	8	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	4	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	4	10	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	4	11	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	4	12	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	4	13	Recovery	Recovery	NNP
work_pbekm73p7bendalswgkl6f7opm	4	14	System	System	NNP
work_pbekm73p7bendalswgkl6f7opm	4	15	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	4	16	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	4	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	18	Mahmoud	Mahmoud	NNP
work_pbekm73p7bendalswgkl6f7opm	4	19	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	4	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	21	Thierry	Thierry	NNP
work_pbekm73p7bendalswgkl6f7opm	4	22	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	4	23	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	24	Jallal	Jallal	NNP
work_pbekm73p7bendalswgkl6f7opm	4	25	Faraj	Faraj	NNP
work_pbekm73p7bendalswgkl6f7opm	4	26	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	27	Hasan	Hasan	NNP
work_pbekm73p7bendalswgkl6f7opm	4	28	Bazzi	Bazzi	NNP
work_pbekm73p7bendalswgkl6f7opm	4	29	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	30	Mohamad	Mohamad	NNP
work_pbekm73p7bendalswgkl6f7opm	4	31	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	4	32	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	4	33	cite	cite	VB
work_pbekm73p7bendalswgkl6f7opm	4	34	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	4	35	version	version	NN
work_pbekm73p7bendalswgkl6f7opm	4	36	:	:	:
work_pbekm73p7bendalswgkl6f7opm	4	37	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	4	38	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	4	39	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	40	Mahmoud	Mahmoud	NNP
work_pbekm73p7bendalswgkl6f7opm	4	41	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	4	42	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	43	Thierry	Thierry	NNP
work_pbekm73p7bendalswgkl6f7opm	4	44	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	4	45	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	46	Jallal	Jallal	NNP
work_pbekm73p7bendalswgkl6f7opm	4	47	Faraj	Faraj	NNP
work_pbekm73p7bendalswgkl6f7opm	4	48	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	49	Hasan	Hasan	NNP
work_pbekm73p7bendalswgkl6f7opm	4	50	Bazzi	Bazzi	NNP
work_pbekm73p7bendalswgkl6f7opm	4	51	,	,	,
work_pbekm73p7bendalswgkl6f7opm	4	52	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	4	53	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	4	54	..	..	.
work_pbekm73p7bendalswgkl6f7opm	4	55	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	4	56	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	4	57	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	4	58	Gases	Gases	NNPS
work_pbekm73p7bendalswgkl6f7opm	4	59	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	4	60	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	4	61	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	4	62	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	4	63	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	4	64	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	4	65	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	4	66	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	4	67	Recovery	Recovery	NNP
work_pbekm73p7bendalswgkl6f7opm	4	68	System	System	NNP
work_pbekm73p7bendalswgkl6f7opm	4	69	.	.	.
work_pbekm73p7bendalswgkl6f7opm	5	1	TMREES	TMREES	NNP
work_pbekm73p7bendalswgkl6f7opm	5	2	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	5	3	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	5	4	Conference	Conference	NNP
work_pbekm73p7bendalswgkl6f7opm	5	5	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	5	6	Technologies	Technologies	NNPS
work_pbekm73p7bendalswgkl6f7opm	5	7	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	5	8	Materials	Materials	NNPS
work_pbekm73p7bendalswgkl6f7opm	5	9	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	5	10	Renewable	Renewable	NNP
work_pbekm73p7bendalswgkl6f7opm	5	11	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	5	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	5	13	Environment	Environment	NNP
work_pbekm73p7bendalswgkl6f7opm	5	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	5	15	Sustainability	Sustainability	NNP
work_pbekm73p7bendalswgkl6f7opm	5	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	5	17	Apr	Apr	NNP
work_pbekm73p7bendalswgkl6f7opm	5	18	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	5	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	5	20	beyrouth	beyrouth	NNP
work_pbekm73p7bendalswgkl6f7opm	5	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	5	22	Lebanon	Lebanon	NNP
work_pbekm73p7bendalswgkl6f7opm	5	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	6	1	pp.775	pp.775	:
work_pbekm73p7bendalswgkl6f7opm	6	2	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	6	3	782	782	NNP
work_pbekm73p7bendalswgkl6f7opm	6	4	,	,	,
work_pbekm73p7bendalswgkl6f7opm	6	5	�	�	NNP
work_pbekm73p7bendalswgkl6f7opm	6	6	10.1016	10.1016	CD
work_pbekm73p7bendalswgkl6f7opm	6	7	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	6	8	j.egypro.2017.07.110	j.egypro.2017.07.110	NN
work_pbekm73p7bendalswgkl6f7opm	6	9	�	�	NNP
work_pbekm73p7bendalswgkl6f7opm	6	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	7	1	�	�	NNP
work_pbekm73p7bendalswgkl6f7opm	7	2	hal-	hal-	NNP
work_pbekm73p7bendalswgkl6f7opm	7	3	02528614	02528614	CD
work_pbekm73p7bendalswgkl6f7opm	7	4	�	�	NNS
work_pbekm73p7bendalswgkl6f7opm	7	5	https://hal.univ-angers.fr/hal-02528614	https://hal.univ-angers.fr/hal-02528614	NNS
work_pbekm73p7bendalswgkl6f7opm	7	6	https://hal.archives-ouvertes.fr	https://hal.archives-ouvertes.fr	NNP
work_pbekm73p7bendalswgkl6f7opm	7	7	ScienceDirect	ScienceDirect	NNP
work_pbekm73p7bendalswgkl6f7opm	7	8	Available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	7	9	online	online	RB
work_pbekm73p7bendalswgkl6f7opm	7	10	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	7	11	www.sciencedirect.comAvailable	www.sciencedirect.comAvailable	NNP
work_pbekm73p7bendalswgkl6f7opm	7	12	online	online	RB
work_pbekm73p7bendalswgkl6f7opm	7	13	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	7	14	www.sciencedirect.com	www.sciencedirect.com	ADD
work_pbekm73p7bendalswgkl6f7opm	7	15	ScienceDirect	ScienceDirect	NNP
work_pbekm73p7bendalswgkl6f7opm	7	16	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	7	17	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	7	18	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	7	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	7	20	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	7	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	7	22	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	7	23	www.elsevier.com/locate/procedia	www.elsevier.com/locate/procedia	-LRB-
work_pbekm73p7bendalswgkl6f7opm	7	24	1876	1876	CD
work_pbekm73p7bendalswgkl6f7opm	7	25	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	7	26	6102	6102	CD
work_pbekm73p7bendalswgkl6f7opm	7	27	©	©	NN
work_pbekm73p7bendalswgkl6f7opm	7	28	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	7	29	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	7	30	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	7	31	.	.	.
work_pbekm73p7bendalswgkl6f7opm	8	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	8	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	8	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	8	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	8	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	8	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	8	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	8	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	8	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	8	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	8	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	8	12	Scientific	Scientific	NNP
work_pbekm73p7bendalswgkl6f7opm	8	13	Committee	Committee	NNP
work_pbekm73p7bendalswgkl6f7opm	8	14	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	8	15	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	8	16	15th	15th	JJ
work_pbekm73p7bendalswgkl6f7opm	8	17	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	8	18	Symposium	Symposium	NNP
work_pbekm73p7bendalswgkl6f7opm	8	19	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	8	20	District	District	NNP
work_pbekm73p7bendalswgkl6f7opm	8	21	Heating	Heating	NNP
work_pbekm73p7bendalswgkl6f7opm	8	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	8	23	Cooling	Cooling	NNP
work_pbekm73p7bendalswgkl6f7opm	8	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	9	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	9	2	15th	15th	JJ
work_pbekm73p7bendalswgkl6f7opm	9	3	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	9	4	Symposium	Symposium	NNP
work_pbekm73p7bendalswgkl6f7opm	9	5	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	9	6	District	District	NNP
work_pbekm73p7bendalswgkl6f7opm	9	7	Heating	Heating	NNP
work_pbekm73p7bendalswgkl6f7opm	9	8	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	9	9	Cooling	Cooling	NNP
work_pbekm73p7bendalswgkl6f7opm	9	10	Assessing	assess	VBG
work_pbekm73p7bendalswgkl6f7opm	9	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	9	12	feasibility	feasibility	NN
work_pbekm73p7bendalswgkl6f7opm	9	13	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	9	14	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	9	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	9	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	9	17	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	9	18	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	9	19	outdoor	outdoor	NN
work_pbekm73p7bendalswgkl6f7opm	9	20	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	9	21	function	function	NN
work_pbekm73p7bendalswgkl6f7opm	9	22	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	9	23	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	9	24	long	long	JJ
work_pbekm73p7bendalswgkl6f7opm	9	25	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	9	26	term	term	NN
work_pbekm73p7bendalswgkl6f7opm	9	27	district	district	NN
work_pbekm73p7bendalswgkl6f7opm	9	28	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	9	29	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	9	30	forecast	forecast	VBD
work_pbekm73p7bendalswgkl6f7opm	9	31	I.	I.	NNP
work_pbekm73p7bendalswgkl6f7opm	9	32	Andrića	Andrića	NNP
work_pbekm73p7bendalswgkl6f7opm	9	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	9	34	b	b	NNP
work_pbekm73p7bendalswgkl6f7opm	9	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	9	36	c	c	NN
work_pbekm73p7bendalswgkl6f7opm	9	37	*	*	NFP
work_pbekm73p7bendalswgkl6f7opm	9	38	,	,	,
work_pbekm73p7bendalswgkl6f7opm	9	39	A.	A.	NNP
work_pbekm73p7bendalswgkl6f7opm	9	40	Pinaa	Pinaa	NNP
work_pbekm73p7bendalswgkl6f7opm	9	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	9	42	P.	P.	NNP
work_pbekm73p7bendalswgkl6f7opm	9	43	Ferrãoa	Ferrãoa	NNP
work_pbekm73p7bendalswgkl6f7opm	9	44	,	,	,
work_pbekm73p7bendalswgkl6f7opm	9	45	J.	J.	NNP
work_pbekm73p7bendalswgkl6f7opm	10	1	Fournierb	Fournierb	NNP
work_pbekm73p7bendalswgkl6f7opm	10	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	10	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	10	4	B.	B.	NNP
work_pbekm73p7bendalswgkl6f7opm	10	5	Lacarrièrec	Lacarrièrec	NNP
work_pbekm73p7bendalswgkl6f7opm	10	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	10	7	O.	O.	NNP
work_pbekm73p7bendalswgkl6f7opm	11	1	Le	Le	NNP
work_pbekm73p7bendalswgkl6f7opm	11	2	Correc	Correc	NNP
work_pbekm73p7bendalswgkl6f7opm	11	3	aIN+	aIN+	NNP
work_pbekm73p7bendalswgkl6f7opm	11	4	Center	Center	NNP
work_pbekm73p7bendalswgkl6f7opm	11	5	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	11	6	Innovation	Innovation	NNP
work_pbekm73p7bendalswgkl6f7opm	11	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	11	8	Technology	Technology	NNP
work_pbekm73p7bendalswgkl6f7opm	11	9	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	11	10	Policy	Policy	NNP
work_pbekm73p7bendalswgkl6f7opm	11	11	Research	Research	NNP
work_pbekm73p7bendalswgkl6f7opm	11	12	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	11	13	Instituto	Instituto	NNP
work_pbekm73p7bendalswgkl6f7opm	11	14	Superior	Superior	NNP
work_pbekm73p7bendalswgkl6f7opm	11	15	Técnico	Técnico	NNP
work_pbekm73p7bendalswgkl6f7opm	11	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	11	17	Av	Av	NNP
work_pbekm73p7bendalswgkl6f7opm	11	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	12	1	Rovisco	Rovisco	NNP
work_pbekm73p7bendalswgkl6f7opm	12	2	Pais	Pais	NNP
work_pbekm73p7bendalswgkl6f7opm	12	3	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	12	4	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	5	1049	1049	CD
work_pbekm73p7bendalswgkl6f7opm	12	6	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	12	7	001	001	CD
work_pbekm73p7bendalswgkl6f7opm	12	8	Lisbon	Lisbon	NNP
work_pbekm73p7bendalswgkl6f7opm	12	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	10	Portugal	Portugal	NNP
work_pbekm73p7bendalswgkl6f7opm	12	11	bVeolia	bVeolia	NNP
work_pbekm73p7bendalswgkl6f7opm	12	12	Recherche	Recherche	NNP
work_pbekm73p7bendalswgkl6f7opm	12	13	&	&	CC
work_pbekm73p7bendalswgkl6f7opm	12	14	Innovation	Innovation	NNP
work_pbekm73p7bendalswgkl6f7opm	12	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	16	291	291	CD
work_pbekm73p7bendalswgkl6f7opm	12	17	Avenue	Avenue	NNP
work_pbekm73p7bendalswgkl6f7opm	12	18	Dreyfous	Dreyfous	NNP
work_pbekm73p7bendalswgkl6f7opm	12	19	Daniel	Daniel	NNP
work_pbekm73p7bendalswgkl6f7opm	12	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	21	78520	78520	CD
work_pbekm73p7bendalswgkl6f7opm	12	22	Limay	Limay	NNP
work_pbekm73p7bendalswgkl6f7opm	12	23	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	24	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	12	25	cDépartement	cDépartement	NNP
work_pbekm73p7bendalswgkl6f7opm	12	26	Systèmes	système	VBZ
work_pbekm73p7bendalswgkl6f7opm	12	27	Énergétiques	Énergétiques	NNPS
work_pbekm73p7bendalswgkl6f7opm	12	28	et	et	FW
work_pbekm73p7bendalswgkl6f7opm	12	29	Environnement	Environnement	NNP
work_pbekm73p7bendalswgkl6f7opm	12	30	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	12	31	IMT	IMT	NNP
work_pbekm73p7bendalswgkl6f7opm	12	32	Atlantique	Atlantique	NNP
work_pbekm73p7bendalswgkl6f7opm	12	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	34	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	12	35	rue	rue	NN
work_pbekm73p7bendalswgkl6f7opm	12	36	Alfred	Alfred	NNP
work_pbekm73p7bendalswgkl6f7opm	12	37	Kastler	Kastler	NNP
work_pbekm73p7bendalswgkl6f7opm	12	38	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	39	44300	44300	CD
work_pbekm73p7bendalswgkl6f7opm	12	40	Nantes	Nantes	NNP
work_pbekm73p7bendalswgkl6f7opm	12	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	12	42	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	12	43	Abstract	Abstract	NNP
work_pbekm73p7bendalswgkl6f7opm	12	44	District	District	NNP
work_pbekm73p7bendalswgkl6f7opm	12	45	heating	heating	NN
work_pbekm73p7bendalswgkl6f7opm	12	46	networks	network	NNS
work_pbekm73p7bendalswgkl6f7opm	12	47	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	12	48	commonly	commonly	RB
work_pbekm73p7bendalswgkl6f7opm	12	49	addressed	address	VBN
work_pbekm73p7bendalswgkl6f7opm	12	50	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	12	51	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	12	52	literature	literature	NN
work_pbekm73p7bendalswgkl6f7opm	12	53	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	12	54	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	12	55	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	12	56	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	12	57	most	most	RBS
work_pbekm73p7bendalswgkl6f7opm	12	58	effective	effective	JJ
work_pbekm73p7bendalswgkl6f7opm	12	59	solutions	solution	NNS
work_pbekm73p7bendalswgkl6f7opm	12	60	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	12	61	decreasing	decrease	VBG
work_pbekm73p7bendalswgkl6f7opm	12	62	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	12	63	greenhouse	greenhouse	NN
work_pbekm73p7bendalswgkl6f7opm	12	64	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	12	65	emissions	emission	NNS
work_pbekm73p7bendalswgkl6f7opm	12	66	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	12	67	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	12	68	building	building	NN
work_pbekm73p7bendalswgkl6f7opm	12	69	sector	sector	NN
work_pbekm73p7bendalswgkl6f7opm	12	70	.	.	.
work_pbekm73p7bendalswgkl6f7opm	13	1	These	these	DT
work_pbekm73p7bendalswgkl6f7opm	13	2	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	13	3	require	require	VBP
work_pbekm73p7bendalswgkl6f7opm	13	4	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	13	5	investments	investment	NNS
work_pbekm73p7bendalswgkl6f7opm	13	6	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	13	7	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	13	8	returned	return	VBN
work_pbekm73p7bendalswgkl6f7opm	13	9	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	13	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	13	11	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	13	12	sales	sale	NNS
work_pbekm73p7bendalswgkl6f7opm	13	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	14	1	Due	due	IN
work_pbekm73p7bendalswgkl6f7opm	14	2	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	14	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	14	4	changed	change	VBN
work_pbekm73p7bendalswgkl6f7opm	14	5	climate	climate	NN
work_pbekm73p7bendalswgkl6f7opm	14	6	conditions	condition	NNS
work_pbekm73p7bendalswgkl6f7opm	14	7	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	14	8	building	build	VBG
work_pbekm73p7bendalswgkl6f7opm	14	9	renovation	renovation	NN
work_pbekm73p7bendalswgkl6f7opm	14	10	policies	policy	NNS
work_pbekm73p7bendalswgkl6f7opm	14	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	14	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	14	13	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	14	14	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	14	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	14	16	future	future	NN
work_pbekm73p7bendalswgkl6f7opm	14	17	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	14	18	decrease	decrease	VB
work_pbekm73p7bendalswgkl6f7opm	14	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	14	20	prolonging	prolong	VBG
work_pbekm73p7bendalswgkl6f7opm	14	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	14	22	investment	investment	NN
work_pbekm73p7bendalswgkl6f7opm	14	23	return	return	NN
work_pbekm73p7bendalswgkl6f7opm	14	24	period	period	NN
work_pbekm73p7bendalswgkl6f7opm	14	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	15	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	15	2	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	15	3	scope	scope	NN
work_pbekm73p7bendalswgkl6f7opm	15	4	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	15	5	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	15	6	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	15	7	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	15	8	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	15	9	assess	assess	VB
work_pbekm73p7bendalswgkl6f7opm	15	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	15	11	feasibility	feasibility	NN
work_pbekm73p7bendalswgkl6f7opm	15	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	15	13	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	15	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	15	15	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	15	16	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	15	17	–	–	:
work_pbekm73p7bendalswgkl6f7opm	15	18	outdoor	outdoor	JJ
work_pbekm73p7bendalswgkl6f7opm	15	19	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	15	20	function	function	NN
work_pbekm73p7bendalswgkl6f7opm	15	21	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	15	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	15	23	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	15	24	forecast	forecast	NN
work_pbekm73p7bendalswgkl6f7opm	15	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	16	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	16	2	district	district	NN
work_pbekm73p7bendalswgkl6f7opm	16	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	16	4	Alvalade	Alvalade	NNP
work_pbekm73p7bendalswgkl6f7opm	16	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	16	6	located	locate	VBN
work_pbekm73p7bendalswgkl6f7opm	16	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	16	8	Lisbon	Lisbon	NNP
work_pbekm73p7bendalswgkl6f7opm	16	9	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	16	10	Portugal	Portugal	NNP
work_pbekm73p7bendalswgkl6f7opm	16	11	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	16	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	16	13	was	be	VBD
work_pbekm73p7bendalswgkl6f7opm	16	14	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	16	15	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	16	16	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	16	17	case	case	NN
work_pbekm73p7bendalswgkl6f7opm	16	18	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	16	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	17	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	17	2	district	district	NN
work_pbekm73p7bendalswgkl6f7opm	17	3	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	17	4	consisted	consist	VBN
work_pbekm73p7bendalswgkl6f7opm	17	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	17	6	665	665	CD
work_pbekm73p7bendalswgkl6f7opm	17	7	buildings	building	NNS
work_pbekm73p7bendalswgkl6f7opm	17	8	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	17	9	vary	vary	VBP
work_pbekm73p7bendalswgkl6f7opm	17	10	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	17	11	both	both	DT
work_pbekm73p7bendalswgkl6f7opm	17	12	construction	construction	NN
work_pbekm73p7bendalswgkl6f7opm	17	13	period	period	NN
work_pbekm73p7bendalswgkl6f7opm	17	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	17	15	typology	typology	NN
work_pbekm73p7bendalswgkl6f7opm	17	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	18	1	Three	three	CD
work_pbekm73p7bendalswgkl6f7opm	18	2	weather	weather	NN
work_pbekm73p7bendalswgkl6f7opm	18	3	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	18	4	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	18	5	low	low	JJ
work_pbekm73p7bendalswgkl6f7opm	18	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	18	7	medium	medium	JJ
work_pbekm73p7bendalswgkl6f7opm	18	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	18	9	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	18	10	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	18	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	18	12	three	three	CD
work_pbekm73p7bendalswgkl6f7opm	18	13	district	district	NN
work_pbekm73p7bendalswgkl6f7opm	18	14	renovation	renovation	NN
work_pbekm73p7bendalswgkl6f7opm	18	15	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	18	16	were	be	VBD
work_pbekm73p7bendalswgkl6f7opm	18	17	developed	develop	VBN
work_pbekm73p7bendalswgkl6f7opm	18	18	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	18	19	shallow	shallow	JJ
work_pbekm73p7bendalswgkl6f7opm	18	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	18	21	intermediate	intermediate	JJ
work_pbekm73p7bendalswgkl6f7opm	18	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	18	23	deep	deep	JJ
work_pbekm73p7bendalswgkl6f7opm	18	24	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	18	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	19	1	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	19	2	estimate	estimate	VB
work_pbekm73p7bendalswgkl6f7opm	19	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	19	4	error	error	NN
work_pbekm73p7bendalswgkl6f7opm	19	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	19	6	obtained	obtain	VBD
work_pbekm73p7bendalswgkl6f7opm	19	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	19	8	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	19	9	values	value	NNS
work_pbekm73p7bendalswgkl6f7opm	19	10	were	be	VBD
work_pbekm73p7bendalswgkl6f7opm	19	11	compared	compare	VBN
work_pbekm73p7bendalswgkl6f7opm	19	12	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	19	13	results	result	NNS
work_pbekm73p7bendalswgkl6f7opm	19	14	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	19	15	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	19	16	dynamic	dynamic	JJ
work_pbekm73p7bendalswgkl6f7opm	19	17	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	19	18	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	19	19	model	model	NN
work_pbekm73p7bendalswgkl6f7opm	19	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	19	21	previously	previously	RB
work_pbekm73p7bendalswgkl6f7opm	19	22	developed	develop	VBN
work_pbekm73p7bendalswgkl6f7opm	19	23	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	19	24	validated	validate	VBN
work_pbekm73p7bendalswgkl6f7opm	19	25	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	19	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	19	27	authors	author	NNS
work_pbekm73p7bendalswgkl6f7opm	19	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	20	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	20	2	results	result	NNS
work_pbekm73p7bendalswgkl6f7opm	20	3	showed	show	VBD
work_pbekm73p7bendalswgkl6f7opm	20	4	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	20	5	when	when	WRB
work_pbekm73p7bendalswgkl6f7opm	20	6	only	only	RB
work_pbekm73p7bendalswgkl6f7opm	20	7	weather	weather	NN
work_pbekm73p7bendalswgkl6f7opm	20	8	change	change	NN
work_pbekm73p7bendalswgkl6f7opm	20	9	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	20	10	considered	consider	VBN
work_pbekm73p7bendalswgkl6f7opm	20	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	20	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	20	13	margin	margin	NN
work_pbekm73p7bendalswgkl6f7opm	20	14	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	20	15	error	error	NN
work_pbekm73p7bendalswgkl6f7opm	20	16	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	20	17	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	20	18	acceptable	acceptable	JJ
work_pbekm73p7bendalswgkl6f7opm	20	19	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	20	20	some	some	DT
work_pbekm73p7bendalswgkl6f7opm	20	21	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	20	22	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	20	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	20	24	error	error	NN
work_pbekm73p7bendalswgkl6f7opm	20	25	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	20	26	annual	annual	JJ
work_pbekm73p7bendalswgkl6f7opm	20	27	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	20	28	was	be	VBD
work_pbekm73p7bendalswgkl6f7opm	20	29	lower	low	JJR
work_pbekm73p7bendalswgkl6f7opm	20	30	than	than	IN
work_pbekm73p7bendalswgkl6f7opm	20	31	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	20	32	%	%	NN
work_pbekm73p7bendalswgkl6f7opm	20	33	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	20	34	all	all	DT
work_pbekm73p7bendalswgkl6f7opm	20	35	weather	weather	NN
work_pbekm73p7bendalswgkl6f7opm	20	36	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	20	37	considered	consider	VBN
work_pbekm73p7bendalswgkl6f7opm	20	38	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	20	39	.	.	.
work_pbekm73p7bendalswgkl6f7opm	21	1	However	however	RB
work_pbekm73p7bendalswgkl6f7opm	21	2	,	,	,
work_pbekm73p7bendalswgkl6f7opm	21	3	after	after	IN
work_pbekm73p7bendalswgkl6f7opm	21	4	introducing	introduce	VBG
work_pbekm73p7bendalswgkl6f7opm	21	5	renovation	renovation	NN
work_pbekm73p7bendalswgkl6f7opm	21	6	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	21	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	21	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	21	9	error	error	NN
work_pbekm73p7bendalswgkl6f7opm	21	10	value	value	NN
work_pbekm73p7bendalswgkl6f7opm	21	11	increased	increase	VBD
work_pbekm73p7bendalswgkl6f7opm	21	12	up	up	RP
work_pbekm73p7bendalswgkl6f7opm	21	13	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	21	14	59.5	59.5	CD
work_pbekm73p7bendalswgkl6f7opm	21	15	%	%	NN
work_pbekm73p7bendalswgkl6f7opm	21	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	21	17	depending	depend	VBG
work_pbekm73p7bendalswgkl6f7opm	21	18	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	21	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	21	20	weather	weather	NN
work_pbekm73p7bendalswgkl6f7opm	21	21	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	21	22	renovation	renovation	NN
work_pbekm73p7bendalswgkl6f7opm	21	23	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	21	24	combination	combination	NN
work_pbekm73p7bendalswgkl6f7opm	21	25	considered	consider	VBN
work_pbekm73p7bendalswgkl6f7opm	21	26	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	21	27	.	.	.
work_pbekm73p7bendalswgkl6f7opm	22	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	2	value	value	NN
work_pbekm73p7bendalswgkl6f7opm	22	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	22	4	slope	slope	NN
work_pbekm73p7bendalswgkl6f7opm	22	5	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	22	6	increased	increase	VBD
work_pbekm73p7bendalswgkl6f7opm	22	7	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	22	8	average	average	NN
work_pbekm73p7bendalswgkl6f7opm	22	9	within	within	IN
work_pbekm73p7bendalswgkl6f7opm	22	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	11	range	range	NN
work_pbekm73p7bendalswgkl6f7opm	22	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	22	13	3.8	3.8	CD
work_pbekm73p7bendalswgkl6f7opm	22	14	%	%	NN
work_pbekm73p7bendalswgkl6f7opm	22	15	up	up	IN
work_pbekm73p7bendalswgkl6f7opm	22	16	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	22	17	8	8	CD
work_pbekm73p7bendalswgkl6f7opm	22	18	%	%	NN
work_pbekm73p7bendalswgkl6f7opm	22	19	per	per	IN
work_pbekm73p7bendalswgkl6f7opm	22	20	decade	decade	NN
work_pbekm73p7bendalswgkl6f7opm	22	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	22	22	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	22	23	corresponds	correspond	VBZ
work_pbekm73p7bendalswgkl6f7opm	22	24	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	22	25	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	26	decrease	decrease	NN
work_pbekm73p7bendalswgkl6f7opm	22	27	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	22	28	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	29	number	number	NN
work_pbekm73p7bendalswgkl6f7opm	22	30	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	22	31	heating	heating	NN
work_pbekm73p7bendalswgkl6f7opm	22	32	hours	hour	NNS
work_pbekm73p7bendalswgkl6f7opm	22	33	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	22	34	22	22	CD
work_pbekm73p7bendalswgkl6f7opm	22	35	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	22	36	139h	139h	NNS
work_pbekm73p7bendalswgkl6f7opm	22	37	during	during	IN
work_pbekm73p7bendalswgkl6f7opm	22	38	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	39	heating	heating	NN
work_pbekm73p7bendalswgkl6f7opm	22	40	season	season	NN
work_pbekm73p7bendalswgkl6f7opm	22	41	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	22	42	depending	depend	VBG
work_pbekm73p7bendalswgkl6f7opm	22	43	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	22	44	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	22	45	combination	combination	NN
work_pbekm73p7bendalswgkl6f7opm	22	46	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	22	47	weather	weather	NN
work_pbekm73p7bendalswgkl6f7opm	22	48	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	22	49	renovation	renovation	NN
work_pbekm73p7bendalswgkl6f7opm	22	50	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	22	51	considered	consider	VBN
work_pbekm73p7bendalswgkl6f7opm	22	52	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	22	53	.	.	.
work_pbekm73p7bendalswgkl6f7opm	23	1	On	on	IN
work_pbekm73p7bendalswgkl6f7opm	23	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	23	3	other	other	JJ
work_pbekm73p7bendalswgkl6f7opm	23	4	hand	hand	NN
work_pbekm73p7bendalswgkl6f7opm	23	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	23	6	function	function	NN
work_pbekm73p7bendalswgkl6f7opm	23	7	intercept	intercept	NNP
work_pbekm73p7bendalswgkl6f7opm	23	8	increased	increase	VBD
work_pbekm73p7bendalswgkl6f7opm	23	9	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	23	10	7.8	7.8	CD
work_pbekm73p7bendalswgkl6f7opm	23	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	23	12	12.7	12.7	CD
work_pbekm73p7bendalswgkl6f7opm	23	13	%	%	NN
work_pbekm73p7bendalswgkl6f7opm	23	14	per	per	IN
work_pbekm73p7bendalswgkl6f7opm	23	15	decade	decade	NN
work_pbekm73p7bendalswgkl6f7opm	23	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	23	17	depending	depend	VBG
work_pbekm73p7bendalswgkl6f7opm	23	18	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	23	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	23	20	coupled	couple	VBN
work_pbekm73p7bendalswgkl6f7opm	23	21	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	23	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	23	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	24	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	24	2	values	value	NNS
work_pbekm73p7bendalswgkl6f7opm	24	3	suggested	suggest	VBN
work_pbekm73p7bendalswgkl6f7opm	24	4	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	24	5	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	24	6	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	24	7	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	24	8	modify	modify	VB
work_pbekm73p7bendalswgkl6f7opm	24	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	24	10	function	function	NN
work_pbekm73p7bendalswgkl6f7opm	24	11	parameters	parameter	VBZ
work_pbekm73p7bendalswgkl6f7opm	24	12	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	24	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	24	14	scenarios	scenario	NNS
work_pbekm73p7bendalswgkl6f7opm	24	15	considered	consider	VBN
work_pbekm73p7bendalswgkl6f7opm	24	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	24	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	24	18	improve	improve	VB
work_pbekm73p7bendalswgkl6f7opm	24	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	24	20	accuracy	accuracy	NN
work_pbekm73p7bendalswgkl6f7opm	24	21	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	24	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	24	23	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	24	24	estimations	estimation	NNS
work_pbekm73p7bendalswgkl6f7opm	24	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	25	1	©	©	LS
work_pbekm73p7bendalswgkl6f7opm	25	2	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	25	3	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	25	4	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	25	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	26	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	26	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	26	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	26	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	26	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	26	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	26	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	26	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	26	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	26	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	26	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	26	12	Scientific	Scientific	NNP
work_pbekm73p7bendalswgkl6f7opm	26	13	Committee	Committee	NNP
work_pbekm73p7bendalswgkl6f7opm	26	14	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	26	15	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	26	16	15th	15th	JJ
work_pbekm73p7bendalswgkl6f7opm	26	17	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	26	18	Symposium	Symposium	NNP
work_pbekm73p7bendalswgkl6f7opm	26	19	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	26	20	District	District	NNP
work_pbekm73p7bendalswgkl6f7opm	26	21	Heating	Heating	NNP
work_pbekm73p7bendalswgkl6f7opm	26	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	26	23	Cooling	Cooling	NNP
work_pbekm73p7bendalswgkl6f7opm	26	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	27	1	Keywords	keyword	NNS
work_pbekm73p7bendalswgkl6f7opm	27	2	:	:	:
work_pbekm73p7bendalswgkl6f7opm	27	3	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	27	4	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	27	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	27	6	Forecast	forecast	NN
work_pbekm73p7bendalswgkl6f7opm	27	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	27	8	Climate	climate	NN
work_pbekm73p7bendalswgkl6f7opm	27	9	change	change	NN
work_pbekm73p7bendalswgkl6f7opm	27	10	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	27	11	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	27	12	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	27	13	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	27	14	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	27	15	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	27	16	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	27	17	1876	1876	CD
work_pbekm73p7bendalswgkl6f7opm	27	18	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	27	19	6102	6102	CD
work_pbekm73p7bendalswgkl6f7opm	27	20	©	©	NN
work_pbekm73p7bendalswgkl6f7opm	27	21	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	27	22	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	27	23	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	27	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	28	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	28	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	28	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	28	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	28	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	28	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	28	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	28	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	28	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	28	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	28	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	28	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	28	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	28	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	28	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	28	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	28	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	28	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	28	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	28	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	28	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	28	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	29	1	10.1016	10.1016	CD
work_pbekm73p7bendalswgkl6f7opm	29	2	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	29	3	j.egypro.2017.07.110	j.egypro.2017.07.110	$
work_pbekm73p7bendalswgkl6f7opm	29	4	10.1016	10.1016	CD
work_pbekm73p7bendalswgkl6f7opm	29	5	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	29	6	j.egypro.2017.07.110	j.egypro.2017.07.110	$
work_pbekm73p7bendalswgkl6f7opm	29	7	1876	1876	CD
work_pbekm73p7bendalswgkl6f7opm	29	8	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	29	9	6102	6102	CD
work_pbekm73p7bendalswgkl6f7opm	29	10	Available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	29	11	online	online	RB
work_pbekm73p7bendalswgkl6f7opm	29	12	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	29	13	www.sciencedirect.com	www.sciencedirect.com	ADD
work_pbekm73p7bendalswgkl6f7opm	29	14	ScienceDirect	ScienceDirect	NNP
work_pbekm73p7bendalswgkl6f7opm	29	15	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	29	16	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	29	17	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	29	18	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	29	19	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	29	20	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	29	21	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	29	22	www.elsevier.com/locate/procedia	www.elsevier.com/locate/procedia	-LRB-
work_pbekm73p7bendalswgkl6f7opm	29	23	1876	1876	CD
work_pbekm73p7bendalswgkl6f7opm	29	24	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	29	25	6102	6102	CD
work_pbekm73p7bendalswgkl6f7opm	29	26	©	©	NN
work_pbekm73p7bendalswgkl6f7opm	29	27	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	29	28	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	29	29	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	29	30	.	.	.
work_pbekm73p7bendalswgkl6f7opm	30	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	30	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	30	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	30	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	30	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	30	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	30	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	30	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	30	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	30	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	30	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	30	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	30	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	30	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	30	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	30	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	30	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	30	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	30	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	30	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	30	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	30	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	31	1	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	31	2	Conference	Conference	NNP
work_pbekm73p7bendalswgkl6f7opm	31	3	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	31	4	Technologies	Technologies	NNPS
work_pbekm73p7bendalswgkl6f7opm	31	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	31	6	Materials	Materials	NNPS
work_pbekm73p7bendalswgkl6f7opm	31	7	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	31	8	Renewable	Renewable	NNP
work_pbekm73p7bendalswgkl6f7opm	31	9	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	31	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	11	Environment	Environment	NNP
work_pbekm73p7bendalswgkl6f7opm	31	12	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	31	13	Sustainability	Sustainability	NNP
work_pbekm73p7bendalswgkl6f7opm	31	14	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	15	TMREES17	TMREES17	NNP
work_pbekm73p7bendalswgkl6f7opm	31	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	17	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	31	18	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	31	19	24	24	CD
work_pbekm73p7bendalswgkl6f7opm	31	20	April	April	NNP
work_pbekm73p7bendalswgkl6f7opm	31	21	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	31	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	23	Beirut	Beirut	NNP
work_pbekm73p7bendalswgkl6f7opm	31	24	Lebanon	Lebanon	NNP
work_pbekm73p7bendalswgkl6f7opm	31	25	Effect	Effect	NNP
work_pbekm73p7bendalswgkl6f7opm	31	26	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	31	27	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	31	28	Gases	Gases	NNPS
work_pbekm73p7bendalswgkl6f7opm	31	29	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	31	30	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	31	31	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	31	32	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	31	33	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	31	34	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	31	35	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	31	36	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	31	37	Recovery	Recovery	NNP
work_pbekm73p7bendalswgkl6f7opm	31	38	System	System	NNP
work_pbekm73p7bendalswgkl6f7opm	31	39	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	31	40	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	31	41	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	31	42	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	43	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	31	44	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	45	Mahmoud	Mahmoud	NNP
work_pbekm73p7bendalswgkl6f7opm	31	46	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	31	47	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	31	48	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	49	b	b	NN
work_pbekm73p7bendalswgkl6f7opm	31	50	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	51	*	*	NFP
work_pbekm73p7bendalswgkl6f7opm	31	52	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	53	Thierry	Thierry	NNP
work_pbekm73p7bendalswgkl6f7opm	31	54	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	31	55	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	31	56	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	57	Jallal	Jallal	NNP
work_pbekm73p7bendalswgkl6f7opm	31	58	Faraj	Faraj	NNP
work_pbekm73p7bendalswgkl6f7opm	31	59	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	31	60	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	61	Hasan	Hasan	NNP
work_pbekm73p7bendalswgkl6f7opm	31	62	Bazzi	Bazzi	NNP
work_pbekm73p7bendalswgkl6f7opm	31	63	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	31	64	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	31	65	Mohamad	Mohamad	NNP
work_pbekm73p7bendalswgkl6f7opm	31	66	Ramadana	Ramadana	NNP
work_pbekm73p7bendalswgkl6f7opm	31	67	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	68	d	d	VBD
work_pbekm73p7bendalswgkl6f7opm	31	69	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	31	70	School	School	NNP
work_pbekm73p7bendalswgkl6f7opm	31	71	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	31	72	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	31	73	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	74	Lebanese	Lebanese	NNP
work_pbekm73p7bendalswgkl6f7opm	31	75	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	31	76	University	University	NNP
work_pbekm73p7bendalswgkl6f7opm	31	77	LIU	LIU	NNP
work_pbekm73p7bendalswgkl6f7opm	31	78	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	79	PO	PO	NNP
work_pbekm73p7bendalswgkl6f7opm	31	80	Box	Box	NNP
work_pbekm73p7bendalswgkl6f7opm	31	81	146404	146404	CD
work_pbekm73p7bendalswgkl6f7opm	31	82	Beirut	Beirut	NNP
work_pbekm73p7bendalswgkl6f7opm	31	83	,	,	,
work_pbekm73p7bendalswgkl6f7opm	31	84	Lebanon	Lebanon	NNP
work_pbekm73p7bendalswgkl6f7opm	31	85	.	.	.
work_pbekm73p7bendalswgkl6f7opm	32	1	b	b	LS
work_pbekm73p7bendalswgkl6f7opm	32	2	Univ	Univ	NNP
work_pbekm73p7bendalswgkl6f7opm	32	3	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	32	4	Diderot	Diderot	NNP
work_pbekm73p7bendalswgkl6f7opm	32	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	6	Sorbonne	Sorbonne	NNP
work_pbekm73p7bendalswgkl6f7opm	32	7	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	32	8	Cité	Cité	NNP
work_pbekm73p7bendalswgkl6f7opm	32	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	10	Interdisciplinary	Interdisciplinary	NNP
work_pbekm73p7bendalswgkl6f7opm	32	11	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	32	12	Research	Research	NNP
work_pbekm73p7bendalswgkl6f7opm	32	13	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	32	14	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	32	15	PIERI	PIERI	NNP
work_pbekm73p7bendalswgkl6f7opm	32	16	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	32	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	18	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	32	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	20	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	32	21	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	32	22	LARIS	LARIS	NNP
work_pbekm73p7bendalswgkl6f7opm	32	23	EA	EA	NNP
work_pbekm73p7bendalswgkl6f7opm	32	24	7315	7315	CD
work_pbekm73p7bendalswgkl6f7opm	32	25	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	26	University	University	NNP
work_pbekm73p7bendalswgkl6f7opm	32	27	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	32	28	Angers	Angers	NNP
work_pbekm73p7bendalswgkl6f7opm	32	29			NNS
work_pbekm73p7bendalswgkl6f7opm	32	30	ISTIA	ISTIA	NNS
work_pbekm73p7bendalswgkl6f7opm	32	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	32	Angers	Angers	NNPS
work_pbekm73p7bendalswgkl6f7opm	32	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	34	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	32	35	dAssociate	dAssociate	NNP
work_pbekm73p7bendalswgkl6f7opm	32	36	member	member	NN
work_pbekm73p7bendalswgkl6f7opm	32	37	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	32	38	FCLAB	FCLAB	NNP
work_pbekm73p7bendalswgkl6f7opm	32	39	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	40	CNRS	CNRS	NNP
work_pbekm73p7bendalswgkl6f7opm	32	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	32	42	Univ	Univ	NNP
work_pbekm73p7bendalswgkl6f7opm	32	43	.	.	.
work_pbekm73p7bendalswgkl6f7opm	33	1	Bourgogne	Bourgogne	NNP
work_pbekm73p7bendalswgkl6f7opm	33	2	Franche	Franche	NNP
work_pbekm73p7bendalswgkl6f7opm	33	3	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	33	4	Comte	Comte	NNP
work_pbekm73p7bendalswgkl6f7opm	33	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	33	6	Belfort	Belfort	NNP
work_pbekm73p7bendalswgkl6f7opm	33	7	cedex	cedex	NN
work_pbekm73p7bendalswgkl6f7opm	33	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	33	9	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	33	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	34	1	Abstract	abstract	VB
work_pbekm73p7bendalswgkl6f7opm	34	2	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	34	3	reuse	reuse	NN
work_pbekm73p7bendalswgkl6f7opm	34	4	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	34	5	reduction	reduction	NN
work_pbekm73p7bendalswgkl6f7opm	34	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	34	7	wasted	waste	VBN
work_pbekm73p7bendalswgkl6f7opm	34	8	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	34	9	supplies	supply	VBZ
work_pbekm73p7bendalswgkl6f7opm	34	10	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	34	11	excellent	excellent	JJ
work_pbekm73p7bendalswgkl6f7opm	34	12	opportunity	opportunity	NN
work_pbekm73p7bendalswgkl6f7opm	34	13	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	34	14	cost	cost	NN
work_pbekm73p7bendalswgkl6f7opm	34	15	saving	saving	NN
work_pbekm73p7bendalswgkl6f7opm	34	16	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	34	17	industrial	industrial	JJ
work_pbekm73p7bendalswgkl6f7opm	34	18	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	34	19	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	34	20	application	application	NN
work_pbekm73p7bendalswgkl6f7opm	34	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	35	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	35	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	35	3	deals	deal	VBZ
work_pbekm73p7bendalswgkl6f7opm	35	4	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	35	5	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	35	6	Hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	35	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	35	8	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	35	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	35	10	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	35	11	reuses	reuse	VBZ
work_pbekm73p7bendalswgkl6f7opm	35	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	35	13	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	35	14	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	35	15	captured	capture	VBN
work_pbekm73p7bendalswgkl6f7opm	35	16	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	35	17	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	35	18	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	35	19	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	35	20	produce	produce	VB
work_pbekm73p7bendalswgkl6f7opm	35	21	domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	35	22	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	35	23	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	35	24	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	35	25	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	35	26	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	35	27	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	35	28	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	35	29	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	35	30	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	35	31	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	35	32	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	35	33	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	35	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	36	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	36	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	36	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	36	4	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	36	5	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	36	6	mainly	mainly	RB
work_pbekm73p7bendalswgkl6f7opm	36	7	affected	affect	VBN
work_pbekm73p7bendalswgkl6f7opm	36	8	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	36	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	36	10	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	36	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	36	12	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	36	13	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	36	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	37	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	37	2	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	37	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	37	4	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	37	5	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	37	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	37	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	37	8	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	37	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	37	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	37	11	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	37	12			NNS
work_pbekm73p7bendalswgkl6f7opm	37	13	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	37	14	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	37	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	37	16	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	37	17	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	37	18			NNP
work_pbekm73p7bendalswgkl6f7opm	37	19	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	37	20	studied	study	VBN
work_pbekm73p7bendalswgkl6f7opm	37	21	including	include	VBG
work_pbekm73p7bendalswgkl6f7opm	37	22	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	37	23	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	37	24	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	37	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	38	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	38	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	38	3	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	38	4	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	38	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	38	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	38	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	38	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	38	9	increase	increase	VBP
work_pbekm73p7bendalswgkl6f7opm	38	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	38	11	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	38	12	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	38	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	38	14	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	38	15	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	38	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	38	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	38	18	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	38	19	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	38	20	increases	increase	NNS
work_pbekm73p7bendalswgkl6f7opm	38	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	39	1	©	©	LS
work_pbekm73p7bendalswgkl6f7opm	39	2	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	39	3	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	39	4	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	39	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	40	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	40	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	40	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	40	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	40	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	40	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	40	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	40	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	40	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	40	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	40	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	40	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	40	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	40	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	40	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	40	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	40	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	40	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	40	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	40	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	40	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	40	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	41	1	Keywords	keyword	NNS
work_pbekm73p7bendalswgkl6f7opm	41	2	:	:	:
work_pbekm73p7bendalswgkl6f7opm	41	3	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	41	4	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	41	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	41	6	Thermoelectric	thermoelectric	JJ
work_pbekm73p7bendalswgkl6f7opm	41	7	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	41	8	;	;	:
work_pbekm73p7bendalswgkl6f7opm	41	9	cogeneration	cogeneration	NN
work_pbekm73p7bendalswgkl6f7opm	41	10	;	;	:
work_pbekm73p7bendalswgkl6f7opm	41	11	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	41	12	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	41	13	;	;	:
work_pbekm73p7bendalswgkl6f7opm	41	14	Domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	41	15	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	41	16	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	41	17	;	;	:
work_pbekm73p7bendalswgkl6f7opm	41	18	*	*	NFP
work_pbekm73p7bendalswgkl6f7opm	41	19	Corresponding	correspond	VBG
work_pbekm73p7bendalswgkl6f7opm	41	20	author	author	NN
work_pbekm73p7bendalswgkl6f7opm	41	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	42	1	Tel	tel	NN
work_pbekm73p7bendalswgkl6f7opm	42	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	43	1	;	;	:
work_pbekm73p7bendalswgkl6f7opm	43	2	E	e	NN
work_pbekm73p7bendalswgkl6f7opm	43	3	-	-	NN
work_pbekm73p7bendalswgkl6f7opm	43	4	mail	mail	NN
work_pbekm73p7bendalswgkl6f7opm	43	5	address	address	NN
work_pbekm73p7bendalswgkl6f7opm	43	6	:	:	:
work_pbekm73p7bendalswgkl6f7opm	43	7	mahmoud.khaled@liu.edu.lb	mahmoud.khaled@liu.edu.lb	NNP
work_pbekm73p7bendalswgkl6f7opm	43	8	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	43	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	44	1	Introduction	introduction	NN
work_pbekm73p7bendalswgkl6f7opm	44	2	Due	due	IN
work_pbekm73p7bendalswgkl6f7opm	44	3	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	44	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	44	5	rapid	rapid	JJ
work_pbekm73p7bendalswgkl6f7opm	44	6	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	44	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	44	8	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	44	9	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	44	10	consumption	consumption	NN
work_pbekm73p7bendalswgkl6f7opm	44	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	44	12	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	44	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	44	14	scientists	scientist	NNS
work_pbekm73p7bendalswgkl6f7opm	44	15	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	44	16	forced	force	VBN
work_pbekm73p7bendalswgkl6f7opm	44	17	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	44	18	find	find	VB
work_pbekm73p7bendalswgkl6f7opm	44	19	solutions	solution	NNS
work_pbekm73p7bendalswgkl6f7opm	44	20	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	44	21	what	what	WP
work_pbekm73p7bendalswgkl6f7opm	44	22	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	44	23	called	call	VBN
work_pbekm73p7bendalswgkl6f7opm	44	24	“	"	``
work_pbekm73p7bendalswgkl6f7opm	44	25	Energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	44	26	crisis	crisis	NN
work_pbekm73p7bendalswgkl6f7opm	44	27	”	"	''
work_pbekm73p7bendalswgkl6f7opm	44	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	45	1	Fossil	fossil	NN
work_pbekm73p7bendalswgkl6f7opm	45	2	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	45	3	remains	remain	VBZ
work_pbekm73p7bendalswgkl6f7opm	45	4	still	still	RB
work_pbekm73p7bendalswgkl6f7opm	45	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	45	6	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	45	7	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	45	8	resource	resource	NN
work_pbekm73p7bendalswgkl6f7opm	45	9	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	45	10	feeds	feed	VBZ
work_pbekm73p7bendalswgkl6f7opm	45	11	most	most	RBS
work_pbekm73p7bendalswgkl6f7opm	45	12	industrial	industrial	JJ
work_pbekm73p7bendalswgkl6f7opm	45	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	45	14	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	45	15	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	45	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	46	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	46	2	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	46	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	46	4	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	46	5	management	management	NN
work_pbekm73p7bendalswgkl6f7opm	46	6	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	46	7	certainly	certainly	RB
work_pbekm73p7bendalswgkl6f7opm	46	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	46	9	most	most	RBS
work_pbekm73p7bendalswgkl6f7opm	46	10	effective	effective	JJ
work_pbekm73p7bendalswgkl6f7opm	46	11	solutions	solution	NNS
work_pbekm73p7bendalswgkl6f7opm	46	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	46	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	46	14	crisis	crisis	NN
work_pbekm73p7bendalswgkl6f7opm	46	15	Available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	46	16	online	online	RB
work_pbekm73p7bendalswgkl6f7opm	46	17	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	46	18	www.sciencedirect.com	www.sciencedirect.com	ADD
work_pbekm73p7bendalswgkl6f7opm	46	19	ScienceDirect	ScienceDirect	NNP
work_pbekm73p7bendalswgkl6f7opm	46	20	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	46	21	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	46	22	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	46	23	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	46	24	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	46	25	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	46	26	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	46	27	www.elsevier.com/locate/procedia	www.elsevier.com/locate/procedia	-LRB-
work_pbekm73p7bendalswgkl6f7opm	46	28	1876	1876	CD
work_pbekm73p7bendalswgkl6f7opm	46	29	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	46	30	6102	6102	CD
work_pbekm73p7bendalswgkl6f7opm	46	31	©	©	NN
work_pbekm73p7bendalswgkl6f7opm	46	32	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	46	33	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	46	34	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	46	35	.	.	.
work_pbekm73p7bendalswgkl6f7opm	47	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	47	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	47	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	47	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	47	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	47	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	47	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	47	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	47	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	47	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	47	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	47	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	47	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	47	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	47	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	47	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	47	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	47	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	47	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	47	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	47	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	47	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	48	1	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	48	2	Conference	Conference	NNP
work_pbekm73p7bendalswgkl6f7opm	48	3	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	48	4	Technologies	Technologies	NNPS
work_pbekm73p7bendalswgkl6f7opm	48	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	48	6	Materials	Materials	NNPS
work_pbekm73p7bendalswgkl6f7opm	48	7	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	48	8	Renewable	Renewable	NNP
work_pbekm73p7bendalswgkl6f7opm	48	9	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	48	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	11	Environment	Environment	NNP
work_pbekm73p7bendalswgkl6f7opm	48	12	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	48	13	Sustainability	Sustainability	NNP
work_pbekm73p7bendalswgkl6f7opm	48	14	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	15	TMREES17	TMREES17	NNP
work_pbekm73p7bendalswgkl6f7opm	48	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	17	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	48	18	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	48	19	24	24	CD
work_pbekm73p7bendalswgkl6f7opm	48	20	April	April	NNP
work_pbekm73p7bendalswgkl6f7opm	48	21	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	48	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	23	Beirut	Beirut	NNP
work_pbekm73p7bendalswgkl6f7opm	48	24	Lebanon	Lebanon	NNP
work_pbekm73p7bendalswgkl6f7opm	48	25	Effect	Effect	NNP
work_pbekm73p7bendalswgkl6f7opm	48	26	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	48	27	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	48	28	Gases	Gases	NNPS
work_pbekm73p7bendalswgkl6f7opm	48	29	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	48	30	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	48	31	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	48	32	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	48	33	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	48	34	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	48	35	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	48	36	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	48	37	Recovery	Recovery	NNP
work_pbekm73p7bendalswgkl6f7opm	48	38	System	System	NNP
work_pbekm73p7bendalswgkl6f7opm	48	39	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	48	40	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	48	41	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	48	42	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	43	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	48	44	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	45	Mahmoud	Mahmoud	NNP
work_pbekm73p7bendalswgkl6f7opm	48	46	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	48	47	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	48	48	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	49	b	b	NN
work_pbekm73p7bendalswgkl6f7opm	48	50	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	51	*	*	NFP
work_pbekm73p7bendalswgkl6f7opm	48	52	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	53	Thierry	Thierry	NNP
work_pbekm73p7bendalswgkl6f7opm	48	54	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	48	55	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	48	56	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	57	Jallal	Jallal	NNP
work_pbekm73p7bendalswgkl6f7opm	48	58	Faraj	Faraj	NNP
work_pbekm73p7bendalswgkl6f7opm	48	59	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	48	60	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	61	Hasan	Hasan	NNP
work_pbekm73p7bendalswgkl6f7opm	48	62	Bazzi	Bazzi	NNP
work_pbekm73p7bendalswgkl6f7opm	48	63	a	a	NNP
work_pbekm73p7bendalswgkl6f7opm	48	64	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	48	65	Mohamad	Mohamad	NNP
work_pbekm73p7bendalswgkl6f7opm	48	66	Ramadana	Ramadana	NNP
work_pbekm73p7bendalswgkl6f7opm	48	67	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	68	d	d	VBD
work_pbekm73p7bendalswgkl6f7opm	48	69	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	48	70	School	School	NNP
work_pbekm73p7bendalswgkl6f7opm	48	71	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	48	72	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	48	73	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	74	Lebanese	Lebanese	NNP
work_pbekm73p7bendalswgkl6f7opm	48	75	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	48	76	University	University	NNP
work_pbekm73p7bendalswgkl6f7opm	48	77	LIU	LIU	NNP
work_pbekm73p7bendalswgkl6f7opm	48	78	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	79	PO	PO	NNP
work_pbekm73p7bendalswgkl6f7opm	48	80	Box	Box	NNP
work_pbekm73p7bendalswgkl6f7opm	48	81	146404	146404	CD
work_pbekm73p7bendalswgkl6f7opm	48	82	Beirut	Beirut	NNP
work_pbekm73p7bendalswgkl6f7opm	48	83	,	,	,
work_pbekm73p7bendalswgkl6f7opm	48	84	Lebanon	Lebanon	NNP
work_pbekm73p7bendalswgkl6f7opm	48	85	.	.	.
work_pbekm73p7bendalswgkl6f7opm	49	1	b	b	LS
work_pbekm73p7bendalswgkl6f7opm	49	2	Univ	Univ	NNP
work_pbekm73p7bendalswgkl6f7opm	49	3	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	49	4	Diderot	Diderot	NNP
work_pbekm73p7bendalswgkl6f7opm	49	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	6	Sorbonne	Sorbonne	NNP
work_pbekm73p7bendalswgkl6f7opm	49	7	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	49	8	Cité	Cité	NNP
work_pbekm73p7bendalswgkl6f7opm	49	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	10	Interdisciplinary	Interdisciplinary	NNP
work_pbekm73p7bendalswgkl6f7opm	49	11	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	49	12	Research	Research	NNP
work_pbekm73p7bendalswgkl6f7opm	49	13	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	49	14	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	49	15	PIERI	PIERI	NNP
work_pbekm73p7bendalswgkl6f7opm	49	16	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	49	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	18	Paris	Paris	NNP
work_pbekm73p7bendalswgkl6f7opm	49	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	20	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	49	21	c	c	NNP
work_pbekm73p7bendalswgkl6f7opm	49	22	LARIS	LARIS	NNP
work_pbekm73p7bendalswgkl6f7opm	49	23	EA	EA	NNP
work_pbekm73p7bendalswgkl6f7opm	49	24	7315	7315	CD
work_pbekm73p7bendalswgkl6f7opm	49	25	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	26	University	University	NNP
work_pbekm73p7bendalswgkl6f7opm	49	27	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	49	28	Angers	Angers	NNP
work_pbekm73p7bendalswgkl6f7opm	49	29			NNS
work_pbekm73p7bendalswgkl6f7opm	49	30	ISTIA	ISTIA	NNS
work_pbekm73p7bendalswgkl6f7opm	49	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	32	Angers	Angers	NNPS
work_pbekm73p7bendalswgkl6f7opm	49	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	34	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	49	35	dAssociate	dAssociate	NNP
work_pbekm73p7bendalswgkl6f7opm	49	36	member	member	NN
work_pbekm73p7bendalswgkl6f7opm	49	37	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	49	38	FCLAB	FCLAB	NNP
work_pbekm73p7bendalswgkl6f7opm	49	39	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	40	CNRS	CNRS	NNP
work_pbekm73p7bendalswgkl6f7opm	49	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	49	42	Univ	Univ	NNP
work_pbekm73p7bendalswgkl6f7opm	49	43	.	.	.
work_pbekm73p7bendalswgkl6f7opm	50	1	Bourgogne	Bourgogne	NNP
work_pbekm73p7bendalswgkl6f7opm	50	2	Franche	Franche	NNP
work_pbekm73p7bendalswgkl6f7opm	50	3	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	50	4	Comte	Comte	NNP
work_pbekm73p7bendalswgkl6f7opm	50	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	50	6	Belfort	Belfort	NNP
work_pbekm73p7bendalswgkl6f7opm	50	7	cedex	cedex	NN
work_pbekm73p7bendalswgkl6f7opm	50	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	50	9	France	France	NNP
work_pbekm73p7bendalswgkl6f7opm	50	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	51	1	Abstract	abstract	VB
work_pbekm73p7bendalswgkl6f7opm	51	2	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	51	3	reuse	reuse	NN
work_pbekm73p7bendalswgkl6f7opm	51	4	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	51	5	reduction	reduction	NN
work_pbekm73p7bendalswgkl6f7opm	51	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	51	7	wasted	waste	VBN
work_pbekm73p7bendalswgkl6f7opm	51	8	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	51	9	supplies	supply	VBZ
work_pbekm73p7bendalswgkl6f7opm	51	10	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	51	11	excellent	excellent	JJ
work_pbekm73p7bendalswgkl6f7opm	51	12	opportunity	opportunity	NN
work_pbekm73p7bendalswgkl6f7opm	51	13	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	51	14	cost	cost	NN
work_pbekm73p7bendalswgkl6f7opm	51	15	saving	saving	NN
work_pbekm73p7bendalswgkl6f7opm	51	16	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	51	17	industrial	industrial	JJ
work_pbekm73p7bendalswgkl6f7opm	51	18	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	51	19	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	51	20	application	application	NN
work_pbekm73p7bendalswgkl6f7opm	51	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	52	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	52	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	52	3	deals	deal	VBZ
work_pbekm73p7bendalswgkl6f7opm	52	4	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	52	5	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	52	6	Hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	52	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	52	8	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	52	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	52	10	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	52	11	reuses	reuse	VBZ
work_pbekm73p7bendalswgkl6f7opm	52	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	52	13	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	52	14	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	52	15	captured	capture	VBN
work_pbekm73p7bendalswgkl6f7opm	52	16	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	52	17	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	52	18	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	52	19	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	52	20	produce	produce	VB
work_pbekm73p7bendalswgkl6f7opm	52	21	domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	52	22	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	52	23	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	52	24	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	52	25	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	52	26	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	52	27	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	52	28	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	52	29	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	52	30	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	52	31	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	52	32	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	52	33	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	52	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	53	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	53	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	53	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	53	4	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	53	5	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	53	6	mainly	mainly	RB
work_pbekm73p7bendalswgkl6f7opm	53	7	affected	affect	VBN
work_pbekm73p7bendalswgkl6f7opm	53	8	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	53	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	53	10	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	53	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	53	12	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	53	13	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	53	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	54	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	54	2	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	54	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	54	4	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	54	5	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	54	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	54	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	54	8	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	54	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	54	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	54	11	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	54	12			NNS
work_pbekm73p7bendalswgkl6f7opm	54	13	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	54	14	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	54	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	54	16	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	54	17	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	54	18			NNP
work_pbekm73p7bendalswgkl6f7opm	54	19	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	54	20	studied	study	VBN
work_pbekm73p7bendalswgkl6f7opm	54	21	including	include	VBG
work_pbekm73p7bendalswgkl6f7opm	54	22	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	54	23	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	54	24	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	54	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	55	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	55	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	55	3	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	55	4	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	55	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	55	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	55	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	55	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	55	9	increase	increase	VBP
work_pbekm73p7bendalswgkl6f7opm	55	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	55	11	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	55	12	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	55	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	55	14	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	55	15	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	55	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	55	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	55	18	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	55	19	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	55	20	increases	increase	NNS
work_pbekm73p7bendalswgkl6f7opm	55	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	56	1	©	©	LS
work_pbekm73p7bendalswgkl6f7opm	56	2	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	56	3	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	56	4	Authors	Authors	NNPS
work_pbekm73p7bendalswgkl6f7opm	56	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	57	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	57	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	57	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	57	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	57	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	57	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	57	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	57	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	57	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	57	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	57	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	57	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	57	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	57	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	57	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	57	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	57	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	57	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	57	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	57	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	57	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	57	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	58	1	Keywords	keyword	NNS
work_pbekm73p7bendalswgkl6f7opm	58	2	:	:	:
work_pbekm73p7bendalswgkl6f7opm	58	3	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	58	4	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	58	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	58	6	Thermoelectric	thermoelectric	JJ
work_pbekm73p7bendalswgkl6f7opm	58	7	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	58	8	;	;	:
work_pbekm73p7bendalswgkl6f7opm	58	9	cogeneration	cogeneration	NN
work_pbekm73p7bendalswgkl6f7opm	58	10	;	;	:
work_pbekm73p7bendalswgkl6f7opm	58	11	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	58	12	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	58	13	;	;	:
work_pbekm73p7bendalswgkl6f7opm	58	14	Domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	58	15	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	58	16	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	58	17	;	;	:
work_pbekm73p7bendalswgkl6f7opm	58	18	*	*	NFP
work_pbekm73p7bendalswgkl6f7opm	58	19	Corresponding	correspond	VBG
work_pbekm73p7bendalswgkl6f7opm	58	20	author	author	NN
work_pbekm73p7bendalswgkl6f7opm	58	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	59	1	Tel	tel	NN
work_pbekm73p7bendalswgkl6f7opm	59	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	60	1	;	;	:
work_pbekm73p7bendalswgkl6f7opm	60	2	E	e	NN
work_pbekm73p7bendalswgkl6f7opm	60	3	-	-	NN
work_pbekm73p7bendalswgkl6f7opm	60	4	mail	mail	NN
work_pbekm73p7bendalswgkl6f7opm	60	5	address	address	NN
work_pbekm73p7bendalswgkl6f7opm	60	6	:	:	:
work_pbekm73p7bendalswgkl6f7opm	60	7	mahmoud.khaled@liu.edu.lb	mahmoud.khaled@liu.edu.lb	NNP
work_pbekm73p7bendalswgkl6f7opm	60	8	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	60	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	61	1	Introduction	introduction	NN
work_pbekm73p7bendalswgkl6f7opm	61	2	Due	due	IN
work_pbekm73p7bendalswgkl6f7opm	61	3	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	61	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	61	5	rapid	rapid	JJ
work_pbekm73p7bendalswgkl6f7opm	61	6	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	61	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	61	8	demand	demand	NN
work_pbekm73p7bendalswgkl6f7opm	61	9	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	61	10	consumption	consumption	NN
work_pbekm73p7bendalswgkl6f7opm	61	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	61	12	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	61	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	61	14	scientists	scientist	NNS
work_pbekm73p7bendalswgkl6f7opm	61	15	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	61	16	forced	force	VBN
work_pbekm73p7bendalswgkl6f7opm	61	17	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	61	18	find	find	VB
work_pbekm73p7bendalswgkl6f7opm	61	19	solutions	solution	NNS
work_pbekm73p7bendalswgkl6f7opm	61	20	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	61	21	what	what	WP
work_pbekm73p7bendalswgkl6f7opm	61	22	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	61	23	called	call	VBN
work_pbekm73p7bendalswgkl6f7opm	61	24	“	"	``
work_pbekm73p7bendalswgkl6f7opm	61	25	Energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	61	26	crisis	crisis	NN
work_pbekm73p7bendalswgkl6f7opm	61	27	”	"	''
work_pbekm73p7bendalswgkl6f7opm	61	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	62	1	Fossil	fossil	NN
work_pbekm73p7bendalswgkl6f7opm	62	2	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	62	3	remains	remain	VBZ
work_pbekm73p7bendalswgkl6f7opm	62	4	still	still	RB
work_pbekm73p7bendalswgkl6f7opm	62	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	62	6	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	62	7	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	62	8	resource	resource	NN
work_pbekm73p7bendalswgkl6f7opm	62	9	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	62	10	feeds	feed	VBZ
work_pbekm73p7bendalswgkl6f7opm	62	11	most	most	RBS
work_pbekm73p7bendalswgkl6f7opm	62	12	industrial	industrial	JJ
work_pbekm73p7bendalswgkl6f7opm	62	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	62	14	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	62	15	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	62	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	63	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	63	2	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	63	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	63	4	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	63	5	management	management	NN
work_pbekm73p7bendalswgkl6f7opm	63	6	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	63	7	certainly	certainly	RB
work_pbekm73p7bendalswgkl6f7opm	63	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	63	9	most	most	RBS
work_pbekm73p7bendalswgkl6f7opm	63	10	effective	effective	JJ
work_pbekm73p7bendalswgkl6f7opm	63	11	solutions	solution	NNS
work_pbekm73p7bendalswgkl6f7opm	63	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	63	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	63	14	crisis	crisis	NN
work_pbekm73p7bendalswgkl6f7opm	63	15	©	©	NN
work_pbekm73p7bendalswgkl6f7opm	63	16	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	63	17	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	63	18	Authors	author	NNS
work_pbekm73p7bendalswgkl6f7opm	63	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	64	1	Published	publish	VBN
work_pbekm73p7bendalswgkl6f7opm	64	2	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	64	3	Elsevier	Elsevier	NNP
work_pbekm73p7bendalswgkl6f7opm	64	4	Ltd.	Ltd.	NNP
work_pbekm73p7bendalswgkl6f7opm	64	5	Peer	Peer	NNP
work_pbekm73p7bendalswgkl6f7opm	64	6	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	64	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	64	8	under	under	IN
work_pbekm73p7bendalswgkl6f7opm	64	9	responsibility	responsibility	NN
work_pbekm73p7bendalswgkl6f7opm	64	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	64	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	64	12	Euro	Euro	NNP
work_pbekm73p7bendalswgkl6f7opm	64	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	64	14	Mediterranean	Mediterranean	NNP
work_pbekm73p7bendalswgkl6f7opm	64	15	Institute	Institute	NNP
work_pbekm73p7bendalswgkl6f7opm	64	16	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	64	17	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	64	18	Development	Development	NNP
work_pbekm73p7bendalswgkl6f7opm	64	19	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	64	20	EUMISD	EUMISD	NNP
work_pbekm73p7bendalswgkl6f7opm	64	21	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	64	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	65	1	http://crossmark.crossref.org/dialog/?doi=10.1016/j.egypro.2017.07.110&domain=pdf	http://crossmark.crossref.org/dialog/?doi=10.1016/j.egypro.2017.07.110&domain=pdf	NNP
work_pbekm73p7bendalswgkl6f7opm	65	2	776	776	NNP
work_pbekm73p7bendalswgkl6f7opm	65	3	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	65	4	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	65	5	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	65	6	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	65	7	.	.	.
work_pbekm73p7bendalswgkl6f7opm	66	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	66	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	66	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	66	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	66	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	66	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	66	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	66	8	775–7822	775–7822	CD
work_pbekm73p7bendalswgkl6f7opm	66	9	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	66	10	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	66	11	/	/	,
work_pbekm73p7bendalswgkl6f7opm	66	12	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	66	13	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	66	14	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	66	15	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	66	16	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	66	17	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	66	18	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	66	19	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	66	20	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	66	21	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	66	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	67	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	67	2	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	67	3	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	67	4	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	67	5	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	67	6	alternative	alternative	JJ
work_pbekm73p7bendalswgkl6f7opm	67	7	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	67	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	67	9	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	67	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	67	11	mainly	mainly	RB
work_pbekm73p7bendalswgkl6f7opm	67	12	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	67	13	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	67	14	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	67	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	67	16	wind	wind	NN
work_pbekm73p7bendalswgkl6f7opm	67	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	67	18	biomass	biomass	NN
work_pbekm73p7bendalswgkl6f7opm	67	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	67	20	geothermal	geothermal	JJ
work_pbekm73p7bendalswgkl6f7opm	67	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	67	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	67	23	hydropower	hydropower	NN
work_pbekm73p7bendalswgkl6f7opm	67	24	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	67	25	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	67	26	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	67	27	11	11	CD
work_pbekm73p7bendalswgkl6f7opm	67	28	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	67	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	68	1	Energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	68	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	68	3	consists	consist	VBZ
work_pbekm73p7bendalswgkl6f7opm	68	4	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	68	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	68	6	reuse	reuse	NN
work_pbekm73p7bendalswgkl6f7opm	68	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	68	8	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	68	9	dumped	dump	VBN
work_pbekm73p7bendalswgkl6f7opm	68	10	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	68	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	68	12	environment	environment	NN
work_pbekm73p7bendalswgkl6f7opm	68	13	without	without	IN
work_pbekm73p7bendalswgkl6f7opm	68	14	taking	take	VBG
work_pbekm73p7bendalswgkl6f7opm	68	15	advantage	advantage	NN
work_pbekm73p7bendalswgkl6f7opm	68	16	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	68	17	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	68	18	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	68	19	12-	12-	NNP
work_pbekm73p7bendalswgkl6f7opm	68	20	17	17	CD
work_pbekm73p7bendalswgkl6f7opm	68	21	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	68	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	69	1	Because	because	IN
work_pbekm73p7bendalswgkl6f7opm	69	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	69	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	69	4	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	69	5	dependence	dependence	NN
work_pbekm73p7bendalswgkl6f7opm	69	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	69	7	fossil	fossil	JJ
work_pbekm73p7bendalswgkl6f7opm	69	8	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	69	9	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	69	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	69	11	burned	burn	VBN
work_pbekm73p7bendalswgkl6f7opm	69	12	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	69	13	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	69	14	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	69	15	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	69	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	69	17	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	69	18	amount	amount	NN
work_pbekm73p7bendalswgkl6f7opm	69	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	69	20	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	69	21	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	69	22	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	69	23	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	69	24	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	69	25	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	69	26	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	69	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	69	28	highest	high	JJS
work_pbekm73p7bendalswgkl6f7opm	69	29	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	69	30	loss	loss	NN
work_pbekm73p7bendalswgkl6f7opm	69	31	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	69	32	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	69	33	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	69	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	70	1	Recovering	recover	VBG
work_pbekm73p7bendalswgkl6f7opm	70	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	70	3	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	70	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	70	5	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	70	6	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	70	7	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	70	8	done	do	VBN
work_pbekm73p7bendalswgkl6f7opm	70	9	directly	directly	RB
work_pbekm73p7bendalswgkl6f7opm	70	10	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	70	11	indirectly	indirectly	RB
work_pbekm73p7bendalswgkl6f7opm	70	12	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	70	13	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	70	14	mean	mean	NN
work_pbekm73p7bendalswgkl6f7opm	70	15	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	70	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	70	17	exchanger	exchanger	NN
work_pbekm73p7bendalswgkl6f7opm	70	18	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	70	19	any	any	DT
work_pbekm73p7bendalswgkl6f7opm	70	20	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	70	21	transformation	transformation	NN
work_pbekm73p7bendalswgkl6f7opm	70	22	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	70	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	71	1	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	71	2	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	71	3	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	71	4	.	.	.
work_pbekm73p7bendalswgkl6f7opm	72	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	72	2	18	18	CD
work_pbekm73p7bendalswgkl6f7opm	72	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	72	4	did	do	VBD
work_pbekm73p7bendalswgkl6f7opm	72	5	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	72	6	short	short	JJ
work_pbekm73p7bendalswgkl6f7opm	72	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	72	8	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	72	9	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	72	10	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	72	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	72	12	classifying	classify	VBG
work_pbekm73p7bendalswgkl6f7opm	72	13	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	72	14	into	into	IN
work_pbekm73p7bendalswgkl6f7opm	72	15	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	72	16	configurations	configuration	NNS
work_pbekm73p7bendalswgkl6f7opm	72	17	.	.	.
work_pbekm73p7bendalswgkl6f7opm	73	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	73	2	authors	author	NNS
work_pbekm73p7bendalswgkl6f7opm	73	3	classified	classify	VBD
work_pbekm73p7bendalswgkl6f7opm	73	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	73	5	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	73	6	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	73	7	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	73	8	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	73	9	within	within	IN
work_pbekm73p7bendalswgkl6f7opm	73	10	three	three	CD
work_pbekm73p7bendalswgkl6f7opm	73	11	classifications	classification	NNS
work_pbekm73p7bendalswgkl6f7opm	73	12	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	73	13	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	73	14	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	73	15	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	73	16	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	73	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	73	18	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	73	19	equipment	equipment	NN
work_pbekm73p7bendalswgkl6f7opm	73	20	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	73	21	proposed	propose	VBD
work_pbekm73p7bendalswgkl6f7opm	73	22	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	73	23	new	new	JJ
work_pbekm73p7bendalswgkl6f7opm	73	24	classification	classification	NN
work_pbekm73p7bendalswgkl6f7opm	73	25	according	accord	VBG
work_pbekm73p7bendalswgkl6f7opm	73	26	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	73	27	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	73	28	purposes	purpose	NNS
work_pbekm73p7bendalswgkl6f7opm	73	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	74	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	74	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	74	3	deals	deal	VBZ
work_pbekm73p7bendalswgkl6f7opm	74	4	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	74	5	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	74	6	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	74	7	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	74	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	74	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	74	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	75	1	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	75	2	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	75	3	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	75	4	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	75	5	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	75	6	proposed	propose	VBN
work_pbekm73p7bendalswgkl6f7opm	75	7	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	75	8	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	75	9	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	75	10	recover	recover	VB
work_pbekm73p7bendalswgkl6f7opm	75	11	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	75	12	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	75	13	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	75	14	produce	produce	VB
work_pbekm73p7bendalswgkl6f7opm	75	15	simultaneously	simultaneously	RB
work_pbekm73p7bendalswgkl6f7opm	75	16	domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	75	17	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	75	18	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	75	19	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	75	20	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	75	21	electricity	electricity	NN
work_pbekm73p7bendalswgkl6f7opm	75	22	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	75	23	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	75	24	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	75	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	75	26	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	75	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	75	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	76	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	76	2	concept	concept	NN
work_pbekm73p7bendalswgkl6f7opm	76	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	76	4	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	76	5	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	76	6	discussed	discuss	VBN
work_pbekm73p7bendalswgkl6f7opm	76	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	76	8	section	section	NN
work_pbekm73p7bendalswgkl6f7opm	76	9	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	76	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	77	1	Section	section	NN
work_pbekm73p7bendalswgkl6f7opm	77	2	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	77	3	presents	present	VBZ
work_pbekm73p7bendalswgkl6f7opm	77	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	77	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	77	6	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	77	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	77	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	77	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	77	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	77	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	77	12	section	section	NN
work_pbekm73p7bendalswgkl6f7opm	77	13	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	77	14	studies	study	NNS
work_pbekm73p7bendalswgkl6f7opm	77	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	77	16	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	77	17	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	77	18	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	77	19	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	77	20	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	77	21	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	77	22	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	77	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	77	24	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	77	25	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	77	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	77	27	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	77	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	78	1	Finally	finally	RB
work_pbekm73p7bendalswgkl6f7opm	78	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	78	3	conclusion	conclusion	NN
work_pbekm73p7bendalswgkl6f7opm	78	4	about	about	IN
work_pbekm73p7bendalswgkl6f7opm	78	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	78	6	whole	whole	JJ
work_pbekm73p7bendalswgkl6f7opm	78	7	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	78	8	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	78	9	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	78	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	79	1	Nomenclature	Nomenclature	NNP
work_pbekm73p7bendalswgkl6f7opm	79	2	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	79	3	Area	area	NN
work_pbekm73p7bendalswgkl6f7opm	79	4	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	5	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	79	6	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	7	h	h	NNP
work_pbekm73p7bendalswgkl6f7opm	79	8	Convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	79	9	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	79	10	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	79	11	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	79	12	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	13	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	79	14	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	79	15	m2.K	m2.K	NNPS
work_pbekm73p7bendalswgkl6f7opm	79	16	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	17	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	79	18	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	79	19	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	79	20	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	79	21	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	79	22	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	79	23	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	79	24	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	79	25	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	79	26	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	27	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	79	28	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	29	L	L	NNP
work_pbekm73p7bendalswgkl6f7opm	79	30	Length	Length	NNP
work_pbekm73p7bendalswgkl6f7opm	79	31	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	79	32	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	79	33	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	79	34	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	35	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	79	36	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	37	N	N	NNP
work_pbekm73p7bendalswgkl6f7opm	79	38	Number	Number	NNP
work_pbekm73p7bendalswgkl6f7opm	79	39	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	79	40	items	item	NNS
work_pbekm73p7bendalswgkl6f7opm	79	41	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	79	42	Power	Power	NNP
work_pbekm73p7bendalswgkl6f7opm	79	43	produced	produce	VBD
work_pbekm73p7bendalswgkl6f7opm	79	44	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	45	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	79	46	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	47	r	r	NNP
work_pbekm73p7bendalswgkl6f7opm	79	48	Radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	79	49	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	50	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	79	51	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	52	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	79	53	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	79	54	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	55	°	°	,
work_pbekm73p7bendalswgkl6f7opm	79	56	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	79	57	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	58	k	k	NNP
work_pbekm73p7bendalswgkl6f7opm	79	59	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	79	60	conductivity	conductivity	NN
work_pbekm73p7bendalswgkl6f7opm	79	61	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	62	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	79	63	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	79	64	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	79	65	.	.	.
work_pbekm73p7bendalswgkl6f7opm	79	66	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	79	67	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	68	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	79	69	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	79	70	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	79	71	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	72	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	79	73	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	79	74	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	79	75	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	76	e	e	NNP
work_pbekm73p7bendalswgkl6f7opm	79	77	Thickness	Thickness	NNP
work_pbekm73p7bendalswgkl6f7opm	79	78	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	79	79	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	79	80	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	79	81	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	79	82	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	79	83	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	79	84	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	79	85	.	.	.
work_pbekm73p7bendalswgkl6f7opm	80	1	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	80	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	80	3	concept	concept	NN
work_pbekm73p7bendalswgkl6f7opm	80	4	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	80	5	relatively	relatively	RB
work_pbekm73p7bendalswgkl6f7opm	80	6	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	80	7	amount	amount	NN
work_pbekm73p7bendalswgkl6f7opm	80	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	80	9	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	80	10	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	80	11	lost	lose	VBN
work_pbekm73p7bendalswgkl6f7opm	80	12	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	80	13	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	80	14	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	80	15	forced	force	VBD
work_pbekm73p7bendalswgkl6f7opm	80	16	scientists	scientist	NNS
work_pbekm73p7bendalswgkl6f7opm	80	17	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	80	18	investigate	investigate	VB
work_pbekm73p7bendalswgkl6f7opm	80	19	how	how	WRB
work_pbekm73p7bendalswgkl6f7opm	80	20	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	80	21	get	get	VB
work_pbekm73p7bendalswgkl6f7opm	80	22	benefit	benefit	NN
work_pbekm73p7bendalswgkl6f7opm	80	23	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	80	24	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	80	25	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	80	26	.	.	.
work_pbekm73p7bendalswgkl6f7opm	81	1	Variety	variety	NN
work_pbekm73p7bendalswgkl6f7opm	81	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	81	3	studies	study	NNS
work_pbekm73p7bendalswgkl6f7opm	81	4	were	be	VBD
work_pbekm73p7bendalswgkl6f7opm	81	5	made	make	VBN
work_pbekm73p7bendalswgkl6f7opm	81	6	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	81	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	81	8	field	field	NN
work_pbekm73p7bendalswgkl6f7opm	81	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	81	10	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	81	11	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	81	12	including	include	VBG
work_pbekm73p7bendalswgkl6f7opm	81	13	single	single	JJ
work_pbekm73p7bendalswgkl6f7opm	81	14	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	81	15	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	81	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	81	17	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	81	18	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	81	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	82	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	82	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	82	3	proposes	propose	VBZ
work_pbekm73p7bendalswgkl6f7opm	82	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	82	5	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	82	6	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	82	7	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	82	8	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	82	9	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	82	10	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	82	11	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	82	12	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	82	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	82	14	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	82	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	82	16	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	82	17	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	82	18	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	82	19	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	82	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	83	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	83	2	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	83	3	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	83	4	composed	compose	VBN
work_pbekm73p7bendalswgkl6f7opm	83	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	83	6	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	83	7	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	83	8	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	83	9	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	83	10	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	83	11	passing	pass	VBG
work_pbekm73p7bendalswgkl6f7opm	83	12	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	83	13	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	83	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	84	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	84	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	84	3	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	84	4	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	84	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	84	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	84	7	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	84	8	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	84	9	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	84	10	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	84	11	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	84	12	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	84	13	attached	attach	VBN
work_pbekm73p7bendalswgkl6f7opm	84	14	allowing	allow	VBG
work_pbekm73p7bendalswgkl6f7opm	84	15	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	84	16	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	84	17	contact	contact	NN
work_pbekm73p7bendalswgkl6f7opm	84	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	84	19	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	84	20	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	84	21	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	84	22	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	84	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	85	1	Part	part	NN
work_pbekm73p7bendalswgkl6f7opm	85	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	85	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	85	4	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	85	5	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	85	6	hold	hold	NN
work_pbekm73p7bendalswgkl6f7opm	85	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	85	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	85	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	85	10	transfer	transfer	VBP
work_pbekm73p7bendalswgkl6f7opm	85	11	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	85	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	85	13	TEGs	TEGs	NNPS
work_pbekm73p7bendalswgkl6f7opm	85	14	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	85	15	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	85	16	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	85	17	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	85	18	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	85	19	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	85	20	dissipate	dissipate	NN
work_pbekm73p7bendalswgkl6f7opm	85	21	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	85	22	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	85	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	85	24	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	85	25	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	85	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	85	27	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	85	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	86	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	86	2	TEGs	TEGs	NNPS
work_pbekm73p7bendalswgkl6f7opm	86	3	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	86	4	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	86	5	sandwiched	sandwich	VBN
work_pbekm73p7bendalswgkl6f7opm	86	6	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	86	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	86	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	86	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	86	10	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	86	11	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	86	12	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	86	13	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	86	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	86	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	86	16	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	86	17	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	86	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	86	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	86	20	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	86	21	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	86	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	86	23	sink	sink	NN
work_pbekm73p7bendalswgkl6f7opm	86	24	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	86	25	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	86	26	19	19	CD
work_pbekm73p7bendalswgkl6f7opm	86	27	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	86	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	87	1	As	as	IN
work_pbekm73p7bendalswgkl6f7opm	87	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	87	3	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	87	4	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	87	5	subjected	subject	VBN
work_pbekm73p7bendalswgkl6f7opm	87	6	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	87	7	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	87	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	87	9	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	87	10	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	87	11	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	87	12	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	87	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	87	14	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	87	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	88	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	88	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	88	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	88	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	88	5	schematic	schematic	NN
work_pbekm73p7bendalswgkl6f7opm	88	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	88	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	88	8	proposed	propose	VBN
work_pbekm73p7bendalswgkl6f7opm	88	9	hybrid	hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	88	10	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	88	11	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	88	12	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	88	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	89	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	89	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	89	3	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	89	4	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	89	5	crosses	cross	VBZ
work_pbekm73p7bendalswgkl6f7opm	89	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	89	7	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	89	8	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	89	9	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	89	10	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	89	11	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	89	12	passes	pass	VBZ
work_pbekm73p7bendalswgkl6f7opm	89	13	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	89	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	89	15	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	89	16	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	89	17	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	89	18	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	89	19	contact	contact	NN
work_pbekm73p7bendalswgkl6f7opm	89	20	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	89	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	89	22	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	89	23	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	89	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	89	25	Red	red	JJ
work_pbekm73p7bendalswgkl6f7opm	89	26	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	89	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	89	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	90	1	TEG	teg	VB
work_pbekm73p7bendalswgkl6f7opm	90	2	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	90	3	its	-PRON-	PRP$
work_pbekm73p7bendalswgkl6f7opm	90	4	turn	turn	NN
work_pbekm73p7bendalswgkl6f7opm	90	5	convert	convert	NN
work_pbekm73p7bendalswgkl6f7opm	90	6	part	part	NN
work_pbekm73p7bendalswgkl6f7opm	90	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	90	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	90	9	absorbed	absorb	VBN
work_pbekm73p7bendalswgkl6f7opm	90	10	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	90	11	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	90	12	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	90	13	electrical	electrical	JJ
work_pbekm73p7bendalswgkl6f7opm	90	14	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	90	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	90	16	dissipate	dissipate	VB
work_pbekm73p7bendalswgkl6f7opm	90	17	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	90	18	other	other	JJ
work_pbekm73p7bendalswgkl6f7opm	90	19	part	part	NN
work_pbekm73p7bendalswgkl6f7opm	90	20	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	90	21	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	90	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	91	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	91	2	quantity	quantity	NN
work_pbekm73p7bendalswgkl6f7opm	91	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	91	4	quality	quality	NN
work_pbekm73p7bendalswgkl6f7opm	91	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	91	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	91	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	91	8	plays	play	VBZ
work_pbekm73p7bendalswgkl6f7opm	91	9	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	91	10	crucial	crucial	JJ
work_pbekm73p7bendalswgkl6f7opm	91	11	role	role	NN
work_pbekm73p7bendalswgkl6f7opm	91	12	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	91	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	91	14	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	91	15	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	91	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	92	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	92	2	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	92	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	92	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	92	5	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	92	6	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	92	7	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	92	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	92	9	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	92	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	92	11	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	92	12	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	92	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	92	14	examined	examine	VBN
work_pbekm73p7bendalswgkl6f7opm	92	15	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	92	16	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	92	17	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	92	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	93	1	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	93	2	proceed	proceed	VB
work_pbekm73p7bendalswgkl6f7opm	93	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	93	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	93	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	93	6	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	93	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	93	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	93	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	93	10	will	will	MD
work_pbekm73p7bendalswgkl6f7opm	93	11	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	93	12	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	93	13	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	93	14	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	93	15	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	93	16	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	93	17	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	93	18	behaviour	behaviour	NN
work_pbekm73p7bendalswgkl6f7opm	93	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	93	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	93	21	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	93	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	93	23	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	93	24	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	93	25	while	while	IN
work_pbekm73p7bendalswgkl6f7opm	93	26	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	93	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	93	28	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	93	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	93	30	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	93	31	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	93	32	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	93	33	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	93	34	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	93	35	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	93	36	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	93	37	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	93	38	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	93	39	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	93	40	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	93	41	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	93	42	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	93	43	Fig	Fig	NNP
work_pbekm73p7bendalswgkl6f7opm	93	44	.	.	.
work_pbekm73p7bendalswgkl6f7opm	94	1	1	1	LS
work_pbekm73p7bendalswgkl6f7opm	94	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	95	1	Hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	95	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	95	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	95	4	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	95	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	96	1	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	96	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	97	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	97	2	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	97	3	In	in	IN
work_pbekm73p7bendalswgkl6f7opm	97	4	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	97	5	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	97	6	estimate	estimate	VB
work_pbekm73p7bendalswgkl6f7opm	97	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	97	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	97	9	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	97	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	97	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	97	12	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	97	13	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	97	14	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	97	15	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	97	16	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	97	17	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	97	18	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	97	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	97	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	97	21	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	97	22	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	97	23	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	97	24	out	out	RP
work_pbekm73p7bendalswgkl6f7opm	97	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	98	1	Some	some	DT
work_pbekm73p7bendalswgkl6f7opm	98	2	assumptions	assumption	NNS
work_pbekm73p7bendalswgkl6f7opm	98	3	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	98	4	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	98	5	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	98	6	simplify	simplify	VB
work_pbekm73p7bendalswgkl6f7opm	98	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	98	8	calculation	calculation	NN
work_pbekm73p7bendalswgkl6f7opm	98	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	98	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	98	11	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	98	12	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	98	13	done	do	VBN
work_pbekm73p7bendalswgkl6f7opm	98	14	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	98	15	steady	steady	JJ
work_pbekm73p7bendalswgkl6f7opm	98	16	state	state	NN
work_pbekm73p7bendalswgkl6f7opm	98	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	98	18	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	98	19	dimensional	dimensional	JJ
work_pbekm73p7bendalswgkl6f7opm	98	20	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	98	21	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	98	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	98	23	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	98	24	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	98	25	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	98	26	along	along	IN
work_pbekm73p7bendalswgkl6f7opm	98	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	98	28	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	98	29	length	length	NN
work_pbekm73p7bendalswgkl6f7opm	98	30	.	.	.
work_pbekm73p7bendalswgkl6f7opm	99	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	99	2	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	99	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	99	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	99	5	steps	step	NNS
work_pbekm73p7bendalswgkl6f7opm	99	6	required	require	VBN
work_pbekm73p7bendalswgkl6f7opm	99	7	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	99	8	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	99	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	99	10	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	99	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	99	12	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	99	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	99	14	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	99	15	generated	generate	VBD
work_pbekm73p7bendalswgkl6f7opm	99	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	100	1	Fig	fig	NN
work_pbekm73p7bendalswgkl6f7opm	100	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	101	1	2	2	LS
work_pbekm73p7bendalswgkl6f7opm	101	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	102	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	102	2	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	102	3	steps	step	NNS
work_pbekm73p7bendalswgkl6f7opm	102	4	.	.	.
work_pbekm73p7bendalswgkl6f7opm	103	1	As	as	IN
work_pbekm73p7bendalswgkl6f7opm	103	2	shown	show	VBN
work_pbekm73p7bendalswgkl6f7opm	103	3	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	103	4	figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	103	5	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	103	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	103	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	103	8	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	103	9	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	103	10	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	103	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	103	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	103	13	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	103	14	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	103	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	103	16	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	103	17	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	103	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	103	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	103	20	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	103	21	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	103	22	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	103	23	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	103	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	104	1	Knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	104	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	104	3	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	104	4	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	104	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	104	6	ambient	ambient	JJ
work_pbekm73p7bendalswgkl6f7opm	104	7	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	104	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	104	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	104	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	104	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	104	12	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	104	13	each	each	DT
work_pbekm73p7bendalswgkl6f7opm	104	14	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	104	15	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	104	16	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	104	17	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	104	18	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	104	19	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	104	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	104	21	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	104	22	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	104	23	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	104	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	104	25	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	104	26	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	104	27	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	104	28	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	104	29	over	over	IN
work_pbekm73p7bendalswgkl6f7opm	104	30	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	104	31	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	104	32	.	.	.
work_pbekm73p7bendalswgkl6f7opm	105	1	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	105	2	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	105	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	105	4	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	105	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	105	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	105	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	105	8	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	105	9	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	105	10	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	105	11	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	105	12	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	105	13	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	105	14	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	105	15	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	105	16	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	105	17	multiplied	multiply	VBN
work_pbekm73p7bendalswgkl6f7opm	105	18	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	105	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	105	20	number	number	NN
work_pbekm73p7bendalswgkl6f7opm	105	21	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	105	22	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	105	23	available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	105	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	106	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	106	2	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	106	3	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	106	4	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	106	5	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	106	6	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	106	7	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	106	8	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	106	9	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	106	10	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	106	11	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	106	12	relation	relation	NN
work_pbekm73p7bendalswgkl6f7opm	106	13	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	106	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	106	15	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	106	16	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	106	17	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	106	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	106	19	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	106	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	107	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	107	2	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	107	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	107	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	107	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	107	6	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	107	7	diagram	diagram	NN
work_pbekm73p7bendalswgkl6f7opm	107	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	107	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	107	10	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	107	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	108	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	108	2	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	108	3	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	108	4	captured	capture	VBN
work_pbekm73p7bendalswgkl6f7opm	108	5	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	108	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	108	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	108	8	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	108	9	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	108	10	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	108	11	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	108	12	.	.	.
work_pbekm73p7bendalswgkl6f7opm	109	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	109	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	109	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	109	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	109	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	109	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	109	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	109	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	109	9	7772	7772	CD
work_pbekm73p7bendalswgkl6f7opm	109	10	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	109	11	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	109	12	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	109	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	109	14	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	109	15	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	109	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	109	17	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	109	18	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	109	19	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	109	20	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	109	21	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	109	22	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	109	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	110	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	110	2	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	110	3	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	110	4	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	110	5	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	110	6	alternative	alternative	JJ
work_pbekm73p7bendalswgkl6f7opm	110	7	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	110	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	110	9	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	110	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	110	11	mainly	mainly	RB
work_pbekm73p7bendalswgkl6f7opm	110	12	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	110	13	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	110	14	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	110	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	110	16	wind	wind	NN
work_pbekm73p7bendalswgkl6f7opm	110	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	110	18	biomass	biomass	NN
work_pbekm73p7bendalswgkl6f7opm	110	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	110	20	geothermal	geothermal	JJ
work_pbekm73p7bendalswgkl6f7opm	110	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	110	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	110	23	hydropower	hydropower	NN
work_pbekm73p7bendalswgkl6f7opm	110	24	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	110	25	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	110	26	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	110	27	11	11	CD
work_pbekm73p7bendalswgkl6f7opm	110	28	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	110	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	111	1	Energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	111	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	111	3	consists	consist	VBZ
work_pbekm73p7bendalswgkl6f7opm	111	4	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	111	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	111	6	reuse	reuse	NN
work_pbekm73p7bendalswgkl6f7opm	111	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	111	8	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	111	9	dumped	dump	VBN
work_pbekm73p7bendalswgkl6f7opm	111	10	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	111	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	111	12	environment	environment	NN
work_pbekm73p7bendalswgkl6f7opm	111	13	without	without	IN
work_pbekm73p7bendalswgkl6f7opm	111	14	taking	take	VBG
work_pbekm73p7bendalswgkl6f7opm	111	15	advantage	advantage	NN
work_pbekm73p7bendalswgkl6f7opm	111	16	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	111	17	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	111	18	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	111	19	12-	12-	NNP
work_pbekm73p7bendalswgkl6f7opm	111	20	17	17	CD
work_pbekm73p7bendalswgkl6f7opm	111	21	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	111	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	112	1	Because	because	IN
work_pbekm73p7bendalswgkl6f7opm	112	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	112	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	112	4	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	112	5	dependence	dependence	NN
work_pbekm73p7bendalswgkl6f7opm	112	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	112	7	fossil	fossil	JJ
work_pbekm73p7bendalswgkl6f7opm	112	8	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	112	9	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	112	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	112	11	burned	burn	VBN
work_pbekm73p7bendalswgkl6f7opm	112	12	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	112	13	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	112	14	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	112	15	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	112	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	112	17	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	112	18	amount	amount	NN
work_pbekm73p7bendalswgkl6f7opm	112	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	112	20	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	112	21	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	112	22	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	112	23	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	112	24	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	112	25	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	112	26	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	112	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	112	28	highest	high	JJS
work_pbekm73p7bendalswgkl6f7opm	112	29	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	112	30	loss	loss	NN
work_pbekm73p7bendalswgkl6f7opm	112	31	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	112	32	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	112	33	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	112	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	113	1	Recovering	recover	VBG
work_pbekm73p7bendalswgkl6f7opm	113	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	113	3	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	113	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	113	5	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	113	6	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	113	7	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	113	8	done	do	VBN
work_pbekm73p7bendalswgkl6f7opm	113	9	directly	directly	RB
work_pbekm73p7bendalswgkl6f7opm	113	10	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	113	11	indirectly	indirectly	RB
work_pbekm73p7bendalswgkl6f7opm	113	12	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	113	13	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	113	14	mean	mean	NN
work_pbekm73p7bendalswgkl6f7opm	113	15	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	113	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	113	17	exchanger	exchanger	NN
work_pbekm73p7bendalswgkl6f7opm	113	18	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	113	19	any	any	DT
work_pbekm73p7bendalswgkl6f7opm	113	20	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	113	21	transformation	transformation	NN
work_pbekm73p7bendalswgkl6f7opm	113	22	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	113	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	114	1	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	114	2	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	114	3	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	114	4	.	.	.
work_pbekm73p7bendalswgkl6f7opm	115	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	115	2	18	18	CD
work_pbekm73p7bendalswgkl6f7opm	115	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	115	4	did	do	VBD
work_pbekm73p7bendalswgkl6f7opm	115	5	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	115	6	short	short	JJ
work_pbekm73p7bendalswgkl6f7opm	115	7	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	115	8	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	115	9	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	115	10	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	115	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	115	12	classifying	classify	VBG
work_pbekm73p7bendalswgkl6f7opm	115	13	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	115	14	into	into	IN
work_pbekm73p7bendalswgkl6f7opm	115	15	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	115	16	configurations	configuration	NNS
work_pbekm73p7bendalswgkl6f7opm	115	17	.	.	.
work_pbekm73p7bendalswgkl6f7opm	116	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	116	2	authors	author	NNS
work_pbekm73p7bendalswgkl6f7opm	116	3	classified	classify	VBD
work_pbekm73p7bendalswgkl6f7opm	116	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	116	5	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	116	6	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	116	7	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	116	8	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	116	9	within	within	IN
work_pbekm73p7bendalswgkl6f7opm	116	10	three	three	CD
work_pbekm73p7bendalswgkl6f7opm	116	11	classifications	classification	NNS
work_pbekm73p7bendalswgkl6f7opm	116	12	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	116	13	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	116	14	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	116	15	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	116	16	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	116	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	116	18	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	116	19	equipment	equipment	NN
work_pbekm73p7bendalswgkl6f7opm	116	20	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	116	21	proposed	propose	VBD
work_pbekm73p7bendalswgkl6f7opm	116	22	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	116	23	new	new	JJ
work_pbekm73p7bendalswgkl6f7opm	116	24	classification	classification	NN
work_pbekm73p7bendalswgkl6f7opm	116	25	according	accord	VBG
work_pbekm73p7bendalswgkl6f7opm	116	26	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	116	27	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	116	28	purposes	purpose	NNS
work_pbekm73p7bendalswgkl6f7opm	116	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	117	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	117	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	117	3	deals	deal	VBZ
work_pbekm73p7bendalswgkl6f7opm	117	4	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	117	5	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	117	6	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	117	7	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	117	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	117	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	117	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	118	1	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	118	2	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	118	3	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	118	4	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	118	5	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	118	6	proposed	propose	VBN
work_pbekm73p7bendalswgkl6f7opm	118	7	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	118	8	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	118	9	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	118	10	recover	recover	VB
work_pbekm73p7bendalswgkl6f7opm	118	11	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	118	12	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	118	13	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	118	14	produce	produce	VB
work_pbekm73p7bendalswgkl6f7opm	118	15	simultaneously	simultaneously	RB
work_pbekm73p7bendalswgkl6f7opm	118	16	domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	118	17	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	118	18	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	118	19	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	118	20	generate	generate	VB
work_pbekm73p7bendalswgkl6f7opm	118	21	electricity	electricity	NN
work_pbekm73p7bendalswgkl6f7opm	118	22	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	118	23	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	118	24	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	118	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	118	26	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	118	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	118	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	119	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	119	2	concept	concept	NN
work_pbekm73p7bendalswgkl6f7opm	119	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	119	4	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	119	5	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	119	6	discussed	discuss	VBN
work_pbekm73p7bendalswgkl6f7opm	119	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	119	8	section	section	NN
work_pbekm73p7bendalswgkl6f7opm	119	9	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	119	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	120	1	Section	section	NN
work_pbekm73p7bendalswgkl6f7opm	120	2	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	120	3	presents	present	VBZ
work_pbekm73p7bendalswgkl6f7opm	120	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	120	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	120	6	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	120	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	120	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	120	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	120	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	120	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	120	12	section	section	NN
work_pbekm73p7bendalswgkl6f7opm	120	13	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	120	14	studies	study	NNS
work_pbekm73p7bendalswgkl6f7opm	120	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	120	16	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	120	17	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	120	18	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	120	19	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	120	20	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	120	21	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	120	22	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	120	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	120	24	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	120	25	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	120	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	120	27	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	120	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	121	1	Finally	finally	RB
work_pbekm73p7bendalswgkl6f7opm	121	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	121	3	conclusion	conclusion	NN
work_pbekm73p7bendalswgkl6f7opm	121	4	about	about	IN
work_pbekm73p7bendalswgkl6f7opm	121	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	121	6	whole	whole	JJ
work_pbekm73p7bendalswgkl6f7opm	121	7	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	121	8	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	121	9	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	121	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	122	1	Nomenclature	Nomenclature	NNP
work_pbekm73p7bendalswgkl6f7opm	122	2	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	122	3	Area	area	NN
work_pbekm73p7bendalswgkl6f7opm	122	4	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	5	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	122	6	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	7	h	h	NNP
work_pbekm73p7bendalswgkl6f7opm	122	8	Convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	122	9	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	122	10	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	122	11	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	122	12	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	13	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	122	14	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	122	15	m2.K	m2.K	NNPS
work_pbekm73p7bendalswgkl6f7opm	122	16	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	17	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	122	18	Hybrid	Hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	122	19	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	122	20	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	122	21	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	122	22	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	122	23	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	122	24	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	122	25	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	122	26	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	27	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	122	28	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	29	L	L	NNP
work_pbekm73p7bendalswgkl6f7opm	122	30	Length	Length	NNP
work_pbekm73p7bendalswgkl6f7opm	122	31	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	122	32	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	122	33	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	122	34	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	35	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	122	36	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	37	N	N	NNP
work_pbekm73p7bendalswgkl6f7opm	122	38	Number	Number	NNP
work_pbekm73p7bendalswgkl6f7opm	122	39	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	122	40	items	item	NNS
work_pbekm73p7bendalswgkl6f7opm	122	41	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	122	42	Power	Power	NNP
work_pbekm73p7bendalswgkl6f7opm	122	43	produced	produce	VBD
work_pbekm73p7bendalswgkl6f7opm	122	44	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	45	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	122	46	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	47	r	r	NNP
work_pbekm73p7bendalswgkl6f7opm	122	48	Radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	122	49	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	50	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	122	51	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	52	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	122	53	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	122	54	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	55	°	°	,
work_pbekm73p7bendalswgkl6f7opm	122	56	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	122	57	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	58	k	k	NNP
work_pbekm73p7bendalswgkl6f7opm	122	59	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	122	60	conductivity	conductivity	NN
work_pbekm73p7bendalswgkl6f7opm	122	61	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	62	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	122	63	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	122	64	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	122	65	.	.	.
work_pbekm73p7bendalswgkl6f7opm	122	66	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	122	67	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	68	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	122	69	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	122	70	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	122	71	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	72	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	122	73	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	122	74	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	122	75	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	76	e	e	NNP
work_pbekm73p7bendalswgkl6f7opm	122	77	Thickness	Thickness	NNP
work_pbekm73p7bendalswgkl6f7opm	122	78	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	122	79	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	122	80	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	122	81	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	122	82	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	122	83	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	122	84	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	122	85	.	.	.
work_pbekm73p7bendalswgkl6f7opm	123	1	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	123	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	123	3	concept	concept	NN
work_pbekm73p7bendalswgkl6f7opm	123	4	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	123	5	relatively	relatively	RB
work_pbekm73p7bendalswgkl6f7opm	123	6	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	123	7	amount	amount	NN
work_pbekm73p7bendalswgkl6f7opm	123	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	123	9	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	123	10	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	123	11	lost	lose	VBN
work_pbekm73p7bendalswgkl6f7opm	123	12	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	123	13	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	123	14	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	123	15	forced	force	VBD
work_pbekm73p7bendalswgkl6f7opm	123	16	scientists	scientist	NNS
work_pbekm73p7bendalswgkl6f7opm	123	17	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	123	18	investigate	investigate	VB
work_pbekm73p7bendalswgkl6f7opm	123	19	how	how	WRB
work_pbekm73p7bendalswgkl6f7opm	123	20	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	123	21	get	get	VB
work_pbekm73p7bendalswgkl6f7opm	123	22	benefit	benefit	NN
work_pbekm73p7bendalswgkl6f7opm	123	23	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	123	24	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	123	25	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	123	26	.	.	.
work_pbekm73p7bendalswgkl6f7opm	124	1	Variety	variety	NN
work_pbekm73p7bendalswgkl6f7opm	124	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	124	3	studies	study	NNS
work_pbekm73p7bendalswgkl6f7opm	124	4	were	be	VBD
work_pbekm73p7bendalswgkl6f7opm	124	5	made	make	VBN
work_pbekm73p7bendalswgkl6f7opm	124	6	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	124	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	124	8	field	field	NN
work_pbekm73p7bendalswgkl6f7opm	124	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	124	10	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	124	11	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	124	12	including	include	VBG
work_pbekm73p7bendalswgkl6f7opm	124	13	single	single	JJ
work_pbekm73p7bendalswgkl6f7opm	124	14	or	or	CC
work_pbekm73p7bendalswgkl6f7opm	124	15	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	124	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	124	17	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	124	18	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	124	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	125	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	125	2	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	125	3	proposes	propose	VBZ
work_pbekm73p7bendalswgkl6f7opm	125	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	125	5	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	125	6	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	125	7	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	125	8	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	125	9	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	125	10	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	125	11	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	125	12	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	125	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	125	14	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	125	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	125	16	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	125	17	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	125	18	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	125	19	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	125	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	126	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	126	2	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	126	3	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	126	4	composed	compose	VBN
work_pbekm73p7bendalswgkl6f7opm	126	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	126	6	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	126	7	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	126	8	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	126	9	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	126	10	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	126	11	passing	pass	VBG
work_pbekm73p7bendalswgkl6f7opm	126	12	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	126	13	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	126	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	127	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	127	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	127	3	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	127	4	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	127	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	127	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	127	7	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	127	8	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	127	9	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	127	10	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	127	11	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	127	12	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	127	13	attached	attach	VBN
work_pbekm73p7bendalswgkl6f7opm	127	14	allowing	allow	VBG
work_pbekm73p7bendalswgkl6f7opm	127	15	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	127	16	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	127	17	contact	contact	NN
work_pbekm73p7bendalswgkl6f7opm	127	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	127	19	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	127	20	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	127	21	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	127	22	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	127	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	128	1	Part	part	NN
work_pbekm73p7bendalswgkl6f7opm	128	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	128	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	128	4	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	128	5	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	128	6	hold	hold	NN
work_pbekm73p7bendalswgkl6f7opm	128	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	128	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	128	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	128	10	transfer	transfer	VBP
work_pbekm73p7bendalswgkl6f7opm	128	11	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	128	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	128	13	TEGs	TEGs	NNPS
work_pbekm73p7bendalswgkl6f7opm	128	14	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	128	15	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	128	16	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	128	17	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	128	18	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	128	19	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	128	20	dissipate	dissipate	NN
work_pbekm73p7bendalswgkl6f7opm	128	21	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	128	22	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	128	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	128	24	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	128	25	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	128	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	128	27	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	128	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	129	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	129	2	TEGs	TEGs	NNPS
work_pbekm73p7bendalswgkl6f7opm	129	3	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	129	4	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	129	5	sandwiched	sandwich	VBN
work_pbekm73p7bendalswgkl6f7opm	129	6	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	129	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	129	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	129	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	129	10	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	129	11	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	129	12	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	129	13	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	129	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	129	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	129	16	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	129	17	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	129	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	129	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	129	20	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	129	21	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	129	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	129	23	sink	sink	NN
work_pbekm73p7bendalswgkl6f7opm	129	24	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	129	25	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	129	26	19	19	CD
work_pbekm73p7bendalswgkl6f7opm	129	27	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	129	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	130	1	As	as	IN
work_pbekm73p7bendalswgkl6f7opm	130	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	130	3	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	130	4	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	130	5	subjected	subject	VBN
work_pbekm73p7bendalswgkl6f7opm	130	6	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	130	7	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	130	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	130	9	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	130	10	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	130	11	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	130	12	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	130	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	130	14	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	130	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	131	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	131	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	131	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	131	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	131	5	schematic	schematic	NN
work_pbekm73p7bendalswgkl6f7opm	131	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	131	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	131	8	proposed	propose	VBN
work_pbekm73p7bendalswgkl6f7opm	131	9	hybrid	hybrid	NNP
work_pbekm73p7bendalswgkl6f7opm	131	10	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	131	11	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	131	12	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	131	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	132	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	132	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	132	3	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	132	4	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	132	5	crosses	cross	VBZ
work_pbekm73p7bendalswgkl6f7opm	132	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	132	7	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	132	8	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	132	9	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	132	10	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	132	11	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	132	12	passes	pass	VBZ
work_pbekm73p7bendalswgkl6f7opm	132	13	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	132	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	132	15	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	132	16	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	132	17	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	132	18	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	132	19	contact	contact	NN
work_pbekm73p7bendalswgkl6f7opm	132	20	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	132	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	132	22	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	132	23	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	132	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	132	25	Red	red	JJ
work_pbekm73p7bendalswgkl6f7opm	132	26	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	132	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	132	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	133	1	TEG	teg	VB
work_pbekm73p7bendalswgkl6f7opm	133	2	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	133	3	its	-PRON-	PRP$
work_pbekm73p7bendalswgkl6f7opm	133	4	turn	turn	NN
work_pbekm73p7bendalswgkl6f7opm	133	5	convert	convert	NN
work_pbekm73p7bendalswgkl6f7opm	133	6	part	part	NN
work_pbekm73p7bendalswgkl6f7opm	133	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	133	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	133	9	absorbed	absorb	VBN
work_pbekm73p7bendalswgkl6f7opm	133	10	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	133	11	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	133	12	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	133	13	electrical	electrical	JJ
work_pbekm73p7bendalswgkl6f7opm	133	14	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	133	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	133	16	dissipate	dissipate	VB
work_pbekm73p7bendalswgkl6f7opm	133	17	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	133	18	other	other	JJ
work_pbekm73p7bendalswgkl6f7opm	133	19	part	part	NN
work_pbekm73p7bendalswgkl6f7opm	133	20	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	133	21	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	133	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	134	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	134	2	quantity	quantity	NN
work_pbekm73p7bendalswgkl6f7opm	134	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	134	4	quality	quality	NN
work_pbekm73p7bendalswgkl6f7opm	134	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	134	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	134	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	134	8	plays	play	VBZ
work_pbekm73p7bendalswgkl6f7opm	134	9	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	134	10	crucial	crucial	JJ
work_pbekm73p7bendalswgkl6f7opm	134	11	role	role	NN
work_pbekm73p7bendalswgkl6f7opm	134	12	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	134	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	134	14	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	134	15	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	134	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	135	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	135	2	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	135	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	135	4	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	135	5	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	135	6	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	135	7	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	135	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	135	9	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	135	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	135	11	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	135	12	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	135	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	135	14	examined	examine	VBN
work_pbekm73p7bendalswgkl6f7opm	135	15	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	135	16	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	135	17	paper	paper	NN
work_pbekm73p7bendalswgkl6f7opm	135	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	136	1	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	136	2	proceed	proceed	VB
work_pbekm73p7bendalswgkl6f7opm	136	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	136	4	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	136	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	136	6	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	136	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	136	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	136	9	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	136	10	will	will	MD
work_pbekm73p7bendalswgkl6f7opm	136	11	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	136	12	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	136	13	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	136	14	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	136	15	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	136	16	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	136	17	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	136	18	behaviour	behaviour	NN
work_pbekm73p7bendalswgkl6f7opm	136	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	136	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	136	21	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	136	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	136	23	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	136	24	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	136	25	while	while	IN
work_pbekm73p7bendalswgkl6f7opm	136	26	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	136	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	136	28	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	136	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	136	30	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	136	31	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	136	32	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	136	33	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	136	34	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	136	35	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	136	36	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	136	37	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	136	38	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	136	39	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	136	40	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	136	41	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	136	42	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	136	43	Fig	Fig	NNP
work_pbekm73p7bendalswgkl6f7opm	136	44	.	.	.
work_pbekm73p7bendalswgkl6f7opm	137	1	1	1	LS
work_pbekm73p7bendalswgkl6f7opm	137	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	138	1	Hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	138	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	138	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	138	4	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	138	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	139	1	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	139	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	140	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	140	2	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	140	3	In	in	IN
work_pbekm73p7bendalswgkl6f7opm	140	4	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	140	5	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	140	6	estimate	estimate	VB
work_pbekm73p7bendalswgkl6f7opm	140	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	140	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	140	9	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	140	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	140	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	140	12	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	140	13	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	140	14	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	140	15	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	140	16	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	140	17	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	140	18	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	140	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	140	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	140	21	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	140	22	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	140	23	carried	carry	VBN
work_pbekm73p7bendalswgkl6f7opm	140	24	out	out	RP
work_pbekm73p7bendalswgkl6f7opm	140	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	141	1	Some	some	DT
work_pbekm73p7bendalswgkl6f7opm	141	2	assumptions	assumption	NNS
work_pbekm73p7bendalswgkl6f7opm	141	3	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	141	4	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	141	5	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	141	6	simplify	simplify	VB
work_pbekm73p7bendalswgkl6f7opm	141	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	141	8	calculation	calculation	NN
work_pbekm73p7bendalswgkl6f7opm	141	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	141	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	141	11	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	141	12	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	141	13	done	do	VBN
work_pbekm73p7bendalswgkl6f7opm	141	14	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	141	15	steady	steady	JJ
work_pbekm73p7bendalswgkl6f7opm	141	16	state	state	NN
work_pbekm73p7bendalswgkl6f7opm	141	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	141	18	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	141	19	dimensional	dimensional	JJ
work_pbekm73p7bendalswgkl6f7opm	141	20	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	141	21	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	141	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	141	23	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	141	24	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	141	25	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	141	26	along	along	IN
work_pbekm73p7bendalswgkl6f7opm	141	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	141	28	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	141	29	length	length	NN
work_pbekm73p7bendalswgkl6f7opm	141	30	.	.	.
work_pbekm73p7bendalswgkl6f7opm	142	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	142	2	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	142	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	142	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	142	5	steps	step	NNS
work_pbekm73p7bendalswgkl6f7opm	142	6	required	require	VBN
work_pbekm73p7bendalswgkl6f7opm	142	7	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	142	8	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	142	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	142	10	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	142	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	142	12	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	142	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	142	14	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	142	15	generated	generate	VBD
work_pbekm73p7bendalswgkl6f7opm	142	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	143	1	Fig	fig	NN
work_pbekm73p7bendalswgkl6f7opm	143	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	144	1	2	2	LS
work_pbekm73p7bendalswgkl6f7opm	144	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	145	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	145	2	modelling	modelling	NN
work_pbekm73p7bendalswgkl6f7opm	145	3	steps	step	NNS
work_pbekm73p7bendalswgkl6f7opm	145	4	.	.	.
work_pbekm73p7bendalswgkl6f7opm	146	1	As	as	IN
work_pbekm73p7bendalswgkl6f7opm	146	2	shown	show	VBN
work_pbekm73p7bendalswgkl6f7opm	146	3	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	146	4	figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	146	5	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	146	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	146	7	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	146	8	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	146	9	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	146	10	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	146	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	146	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	146	13	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	146	14	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	146	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	146	16	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	146	17	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	146	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	146	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	146	20	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	146	21	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	146	22	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	146	23	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	146	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	147	1	Knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	147	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	147	3	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	147	4	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	147	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	147	6	ambient	ambient	JJ
work_pbekm73p7bendalswgkl6f7opm	147	7	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	147	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	147	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	147	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	147	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	147	12	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	147	13	each	each	DT
work_pbekm73p7bendalswgkl6f7opm	147	14	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	147	15	could	could	MD
work_pbekm73p7bendalswgkl6f7opm	147	16	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	147	17	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	147	18	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	147	19	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	147	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	147	21	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	147	22	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	147	23	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	147	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	147	25	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	147	26	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	147	27	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	147	28	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	147	29	over	over	IN
work_pbekm73p7bendalswgkl6f7opm	147	30	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	147	31	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	147	32	.	.	.
work_pbekm73p7bendalswgkl6f7opm	148	1	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	148	2	obtain	obtain	VB
work_pbekm73p7bendalswgkl6f7opm	148	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	148	4	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	148	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	148	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	148	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	148	8	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	148	9	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	148	10	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	148	11	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	148	12	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	148	13	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	148	14	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	148	15	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	148	16	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	148	17	multiplied	multiply	VBN
work_pbekm73p7bendalswgkl6f7opm	148	18	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	148	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	148	20	number	number	NN
work_pbekm73p7bendalswgkl6f7opm	148	21	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	148	22	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	148	23	available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	148	24	.	.	.
work_pbekm73p7bendalswgkl6f7opm	149	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	149	2	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	149	3	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	149	4	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	149	5	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	149	6	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	149	7	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	149	8	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	149	9	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	149	10	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	149	11	direct	direct	JJ
work_pbekm73p7bendalswgkl6f7opm	149	12	relation	relation	NN
work_pbekm73p7bendalswgkl6f7opm	149	13	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	149	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	149	15	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	149	16	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	149	17	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	149	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	149	19	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	149	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	150	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	150	2	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	150	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	150	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	150	5	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	150	6	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	150	7	diagram	diagram	NN
work_pbekm73p7bendalswgkl6f7opm	150	8	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	150	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	150	10	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	150	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	151	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	151	2	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	151	3	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	151	4	captured	capture	VBN
work_pbekm73p7bendalswgkl6f7opm	151	5	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	151	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	151	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	151	8	778	778	CD
work_pbekm73p7bendalswgkl6f7opm	151	9	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	151	10	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	151	11	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	151	12	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	151	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	152	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	152	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	152	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	152	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	152	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	152	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	152	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	152	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	152	9	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	152	10	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	152	11	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	152	12	/	/	,
work_pbekm73p7bendalswgkl6f7opm	152	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	152	14	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	152	15	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	152	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	152	17	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	152	18	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	152	19	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	152	20	undergoes	undergoe	NNS
work_pbekm73p7bendalswgkl6f7opm	152	21	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	152	22	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	152	23	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	152	24	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	152	25	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	152	26	surface	surface	NN
work_pbekm73p7bendalswgkl6f7opm	152	27	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	152	28	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	152	29	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	152	30	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	152	31	Rg	Rg	NNP
work_pbekm73p7bendalswgkl6f7opm	152	32	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	152	33	.	.	.
work_pbekm73p7bendalswgkl6f7opm	153	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	153	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	153	3	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	153	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	153	5	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	153	6	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	153	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	153	8	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	153	9	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	153	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	153	11	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	153	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	153	13	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	153	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	153	15	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	153	16	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	153	17	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	153	18	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	153	19	RTEG	RTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	153	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	153	21	Rp	Rp	NNP
work_pbekm73p7bendalswgkl6f7opm	153	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	153	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	154	1	Due	due	IN
work_pbekm73p7bendalswgkl6f7opm	154	2	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	154	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	154	4	change	change	NN
work_pbekm73p7bendalswgkl6f7opm	154	5	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	154	6	density	density	NN
work_pbekm73p7bendalswgkl6f7opm	154	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	154	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	154	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	154	10	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	154	11	will	will	MD
work_pbekm73p7bendalswgkl6f7opm	154	12	undergoes	undergo	VBZ
work_pbekm73p7bendalswgkl6f7opm	154	13	natural	natural	JJ
work_pbekm73p7bendalswgkl6f7opm	154	14	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	154	15	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	154	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	154	17	walls	wall	NNS
work_pbekm73p7bendalswgkl6f7opm	154	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	154	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	154	20	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	154	21	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	154	22	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	154	23	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	154	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	154	25	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	154	26	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	154	27	,	,	,
work_pbekm73p7bendalswgkl6f7opm	154	28	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	154	29	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	154	30	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	154	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	154	32	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	154	33	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	154	34	,	,	,
work_pbekm73p7bendalswgkl6f7opm	154	35	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	154	36	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	154	37	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	154	38	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	154	39	.	.	.
work_pbekm73p7bendalswgkl6f7opm	155	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	155	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	155	3	tanks	tank	NNS
work_pbekm73p7bendalswgkl6f7opm	155	4	’	’	POS
work_pbekm73p7bendalswgkl6f7opm	155	5	wall	wall	NNP
work_pbekm73p7bendalswgkl6f7opm	155	6	energy	energy	NNP
work_pbekm73p7bendalswgkl6f7opm	155	7	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	155	8	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	155	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	155	10	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	155	11	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	155	12	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	155	13	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	155	14	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	155	15	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	155	16	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	155	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	155	18	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	155	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	155	20	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	155	21	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	155	22	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	155	23	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	155	24	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	155	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	155	26	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	155	27	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	155	28	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	155	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	156	1	Fig	fig	NN
work_pbekm73p7bendalswgkl6f7opm	156	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	157	1	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	157	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	158	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	158	2	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	158	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	158	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	158	5	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	158	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	159	1	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	159	2	Tg	Tg	NNP
work_pbekm73p7bendalswgkl6f7opm	159	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	4	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	159	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	6	TH	TH	NNP
work_pbekm73p7bendalswgkl6f7opm	159	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	8	TC	TC	NNP
work_pbekm73p7bendalswgkl6f7opm	159	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	10	Tp	Tp	NNP
work_pbekm73p7bendalswgkl6f7opm	159	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	12	o	o	UH
work_pbekm73p7bendalswgkl6f7opm	159	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	14	Tw	Tw	NNP
work_pbekm73p7bendalswgkl6f7opm	159	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	16	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	159	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	18	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	159	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	20	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	159	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	22	o	o	XX
work_pbekm73p7bendalswgkl6f7opm	159	23	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	159	24	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	159	25	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	159	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	159	27	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	159	28	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	159	29	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	159	30	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	159	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	32	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	159	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	34	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	159	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	36	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	159	37	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	159	38	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	159	39	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	40	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	159	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	42	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	159	43	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	159	44	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	159	45	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	46	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	159	47	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	159	48	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	159	49	,	,	,
work_pbekm73p7bendalswgkl6f7opm	159	50	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	159	51	ambient	ambient	JJ
work_pbekm73p7bendalswgkl6f7opm	159	52	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	159	53	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	159	54	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	159	55	.	.	.
work_pbekm73p7bendalswgkl6f7opm	160	1	And	and	CC
work_pbekm73p7bendalswgkl6f7opm	160	2	Rg	Rg	NNP
work_pbekm73p7bendalswgkl6f7opm	160	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	4	RTEG	RTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	160	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	6	Rp	Rp	NNP
work_pbekm73p7bendalswgkl6f7opm	160	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	8	Rconv	Rconv	NNP
work_pbekm73p7bendalswgkl6f7opm	160	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	10	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	160	11	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	160	12	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	160	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	14	Rconv	Rconv	NNP
work_pbekm73p7bendalswgkl6f7opm	160	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	16	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	160	17	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	160	18	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	160	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	20	Rwall	Rwall	NNP
work_pbekm73p7bendalswgkl6f7opm	160	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	160	23	Rair	Rair	NNP
work_pbekm73p7bendalswgkl6f7opm	160	24	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	25	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	160	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	160	27	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	160	28	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	160	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	160	30	internal	internal	JJ
work_pbekm73p7bendalswgkl6f7opm	160	31	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	160	32	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	160	33	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	160	34	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	160	35	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	160	36	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	37	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	160	38	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	160	39	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	160	40	generator	generator	NN
work_pbekm73p7bendalswgkl6f7opm	160	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	42	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	160	43	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	160	44	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	160	45	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	160	46	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	160	47	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	48	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	160	49	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	160	50	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	160	51	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	160	52	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	160	53	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	54	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	160	55	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	160	56	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	160	57	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	160	58	cylindrical	cylindrical	JJ
work_pbekm73p7bendalswgkl6f7opm	160	59	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	160	60	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	160	61	,	,	,
work_pbekm73p7bendalswgkl6f7opm	160	62	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	160	63	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	160	64	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	160	65	cylindrical	cylindrical	JJ
work_pbekm73p7bendalswgkl6f7opm	160	66	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	160	67	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	160	68	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	160	69	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	160	70	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	160	71	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	160	72	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	160	73	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	160	74	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	160	75	.	.	.
work_pbekm73p7bendalswgkl6f7opm	161	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	161	2	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	161	3	resistances	resistance	NNS
work_pbekm73p7bendalswgkl6f7opm	161	4	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	161	5	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	161	6	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	161	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	161	8	following	follow	VBG
work_pbekm73p7bendalswgkl6f7opm	161	9	equations	equation	NNS
work_pbekm73p7bendalswgkl6f7opm	161	10	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	11	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	161	12	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	13	:	:	:
work_pbekm73p7bendalswgkl6f7opm	161	14			IN
work_pbekm73p7bendalswgkl6f7opm	161	15			NNP
work_pbekm73p7bendalswgkl6f7opm	161	16	LerhR	LerhR	NNP
work_pbekm73p7bendalswgkl6f7opm	161	17	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	161	18	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	19	tgg	tgg	NNP
work_pbekm73p7bendalswgkl6f7opm	161	20			NNS
work_pbekm73p7bendalswgkl6f7opm	161	21			NFP
work_pbekm73p7bendalswgkl6f7opm	161	22	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	161	23	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	161	24	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	26	1	1	LS
work_pbekm73p7bendalswgkl6f7opm	161	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	28	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	161	29	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	161	30	r	r	NNP
work_pbekm73p7bendalswgkl6f7opm	161	31	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	161	32	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	161	33	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	161	34	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	161	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	36	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	161	37	i	i	NNP
work_pbekm73p7bendalswgkl6f7opm	161	38	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	39	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	161	40	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	161	41	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	161	42			NNP
work_pbekm73p7bendalswgkl6f7opm	161	43			RB
work_pbekm73p7bendalswgkl6f7opm	161	44			VB
work_pbekm73p7bendalswgkl6f7opm	161	45			JJ
work_pbekm73p7bendalswgkl6f7opm	161	46			NN
work_pbekm73p7bendalswgkl6f7opm	161	47			NNP
work_pbekm73p7bendalswgkl6f7opm	161	48			NNS
work_pbekm73p7bendalswgkl6f7opm	161	49			NN
work_pbekm73p7bendalswgkl6f7opm	161	50	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	51	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	52	2	2	LS
work_pbekm73p7bendalswgkl6f7opm	161	53	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	54	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	161	55	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	161	56	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	161	57	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	161	58	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	161	59	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	161	60	i	i	NN
work_pbekm73p7bendalswgkl6f7opm	161	61	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	62	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	161	63	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	161	64	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	65	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	161	66	p	p	NN
work_pbekm73p7bendalswgkl6f7opm	161	67	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	161	68			NNP
work_pbekm73p7bendalswgkl6f7opm	161	69			RB
work_pbekm73p7bendalswgkl6f7opm	161	70			VB
work_pbekm73p7bendalswgkl6f7opm	161	71			JJ
work_pbekm73p7bendalswgkl6f7opm	161	72			NN
work_pbekm73p7bendalswgkl6f7opm	161	73			NNS
work_pbekm73p7bendalswgkl6f7opm	161	74			NFP
work_pbekm73p7bendalswgkl6f7opm	161	75	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	76	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	77	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	161	78	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	79			IN
work_pbekm73p7bendalswgkl6f7opm	161	80	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	161	81	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	161	82	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	83	twpw	twpw	NN
work_pbekm73p7bendalswgkl6f7opm	161	84	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	85	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	161	86	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	161	87	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	161	88			NNP
work_pbekm73p7bendalswgkl6f7opm	161	89	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	90	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	91	4	4	LS
work_pbekm73p7bendalswgkl6f7opm	161	92	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	93			IN
work_pbekm73p7bendalswgkl6f7opm	161	94	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	161	95	i	i	NN
work_pbekm73p7bendalswgkl6f7opm	161	96	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	97	wwww	wwww	NN
work_pbekm73p7bendalswgkl6f7opm	161	98	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	99	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	161	100	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	161	101	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	161	102			NNP
work_pbekm73p7bendalswgkl6f7opm	161	103	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	104	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	105	5	5	LS
work_pbekm73p7bendalswgkl6f7opm	161	106	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	107	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	161	108	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	161	109	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	161	110	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	161	111	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	161	112	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	161	113	i	i	NNP
work_pbekm73p7bendalswgkl6f7opm	161	114	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	115	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	161	116	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	161	117	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	118	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	161	119	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	161	120	2	2	NNP
work_pbekm73p7bendalswgkl6f7opm	161	121			NNP
work_pbekm73p7bendalswgkl6f7opm	161	122			RB
work_pbekm73p7bendalswgkl6f7opm	161	123			VB
work_pbekm73p7bendalswgkl6f7opm	161	124			JJ
work_pbekm73p7bendalswgkl6f7opm	161	125			NN
work_pbekm73p7bendalswgkl6f7opm	161	126			NNS
work_pbekm73p7bendalswgkl6f7opm	161	127			NFP
work_pbekm73p7bendalswgkl6f7opm	161	128	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	129	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	130	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	161	131	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	132			IN
work_pbekm73p7bendalswgkl6f7opm	161	133	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	161	134	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	161	135	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	136	waair	waair	NN
work_pbekm73p7bendalswgkl6f7opm	161	137	2	2	NNP
work_pbekm73p7bendalswgkl6f7opm	161	138	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	161	139			NNP
work_pbekm73p7bendalswgkl6f7opm	161	140	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	161	141	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	161	142	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	161	143	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	161	144	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	161	145	hg	hg	NNP
work_pbekm73p7bendalswgkl6f7opm	161	146	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	147	hw	hw	NNP
work_pbekm73p7bendalswgkl6f7opm	161	148	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	161	149	ha	ha	UH
work_pbekm73p7bendalswgkl6f7opm	161	150	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	161	151	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	161	152	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	161	153	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	161	154	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	161	155	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	161	156	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	161	157	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	161	158	,	,	,
work_pbekm73p7bendalswgkl6f7opm	161	159	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	161	160	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	161	161	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	161	162	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	161	163	.	.	.
work_pbekm73p7bendalswgkl6f7opm	162	1	kTEG	kTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	162	2	,	,	,
work_pbekm73p7bendalswgkl6f7opm	162	3	kt	kt	NNP
work_pbekm73p7bendalswgkl6f7opm	162	4	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	162	5	kw	kw	NNP
work_pbekm73p7bendalswgkl6f7opm	162	6	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	162	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	162	8	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	162	9	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	162	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	162	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	162	12	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	162	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	162	14	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	162	15	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	162	16	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	162	17	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	162	18	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	162	19	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	162	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	163	1	And	and	CC
work_pbekm73p7bendalswgkl6f7opm	163	2	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	163	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	4	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	163	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	6	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	163	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	8	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	163	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	10	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	163	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	12	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	163	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	14	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	163	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	16	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	163	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	163	18	L	l	NN
work_pbekm73p7bendalswgkl6f7opm	163	19	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	163	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	163	21	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	163	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	23	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	163	24	radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	163	25	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	163	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	163	27	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	163	28	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	163	29	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	163	30	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	31	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	163	32	radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	163	33	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	163	34	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	163	35	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	163	36	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	163	37	,	,	,
work_pbekm73p7bendalswgkl6f7opm	163	38	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	163	39	length	length	NN
work_pbekm73p7bendalswgkl6f7opm	163	40	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	163	41	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	163	42	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	163	43	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	163	44	.	.	.
work_pbekm73p7bendalswgkl6f7opm	164	1	e	e	NNP
work_pbekm73p7bendalswgkl6f7opm	164	2	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	164	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	164	4	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	164	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	164	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	164	7	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	164	8	generator	generator	NN
work_pbekm73p7bendalswgkl6f7opm	164	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	165	1	Knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	165	2	that	that	DT
work_pbekm73p7bendalswgkl6f7opm	165	3	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	165	4	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	165	5	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	165	6	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	165	7	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	165	8	over	over	IN
work_pbekm73p7bendalswgkl6f7opm	165	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	10	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	165	11	then	then	RB
work_pbekm73p7bendalswgkl6f7opm	165	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	165	14	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	165	15	each	each	DT
work_pbekm73p7bendalswgkl6f7opm	165	16	point	point	NN
work_pbekm73p7bendalswgkl6f7opm	165	17	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	165	18	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	165	19	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	165	20	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	165	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	22	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	165	23	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	165	24	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	165	25	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	165	26	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	165	27	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	165	28	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	165	29	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	165	30	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	165	31	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	165	32	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	165	33	following	follow	VBG
work_pbekm73p7bendalswgkl6f7opm	165	34	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	165	35	:	:	:
work_pbekm73p7bendalswgkl6f7opm	165	36	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	165	37	n()n()n	n()n()n	UH
work_pbekm73p7bendalswgkl6f7opm	165	38	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	165	39	R.qTT	R.qTT	NNP
work_pbekm73p7bendalswgkl6f7opm	165	40			NN
work_pbekm73p7bendalswgkl6f7opm	165	41	1	1	FW
work_pbekm73p7bendalswgkl6f7opm	165	42	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	165	43	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	165	44	8)	8)	CD
work_pbekm73p7bendalswgkl6f7opm	165	45	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	165	46	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	165	47	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	165	48	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	49	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	165	50	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	165	51	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	165	52	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	165	53	“	"	``
work_pbekm73p7bendalswgkl6f7opm	165	54	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	165	55	”	"	''
work_pbekm73p7bendalswgkl6f7opm	165	56	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	165	57	n	n	NN
work_pbekm73p7bendalswgkl6f7opm	165	58	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	165	59	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	165	60	increment	increment	NN
work_pbekm73p7bendalswgkl6f7opm	165	61	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	165	62	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	63	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	165	64	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	165	65	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	165	66	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	165	67	starting	start	VBG
work_pbekm73p7bendalswgkl6f7opm	165	68	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	165	69	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	165	70	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	165	71	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	165	72	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	165	73	.	.	.
work_pbekm73p7bendalswgkl6f7opm	166	1	By	by	IN
work_pbekm73p7bendalswgkl6f7opm	166	2	calculating	calculate	VBG
work_pbekm73p7bendalswgkl6f7opm	166	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	4	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	166	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	166	6	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	166	7	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	166	8	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	166	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	10	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	166	11	surface	surface	NN
work_pbekm73p7bendalswgkl6f7opm	166	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	13	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	166	14	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	166	15	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	166	16	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	166	17	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	166	18	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	166	19	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	166	20	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	166	21	follows	follow	VBZ
work_pbekm73p7bendalswgkl6f7opm	166	22	:	:	:
work_pbekm73p7bendalswgkl6f7opm	166	23	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	166	24	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	166	25	TT	TT	NNP
work_pbekm73p7bendalswgkl6f7opm	166	26	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	166	27	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	166	28	ref	ref	NN
work_pbekm73p7bendalswgkl6f7opm	166	29	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	166	30			NNP
work_pbekm73p7bendalswgkl6f7opm	166	31			NNP
work_pbekm73p7bendalswgkl6f7opm	166	32			NNP
work_pbekm73p7bendalswgkl6f7opm	166	33			NNP
work_pbekm73p7bendalswgkl6f7opm	166	34			XX
work_pbekm73p7bendalswgkl6f7opm	166	35			NNPS
work_pbekm73p7bendalswgkl6f7opm	166	36			VBP
work_pbekm73p7bendalswgkl6f7opm	166	37			NNP
work_pbekm73p7bendalswgkl6f7opm	166	38	   	   	_SP
work_pbekm73p7bendalswgkl6f7opm	166	39	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	166	40	9	9	CD
work_pbekm73p7bendalswgkl6f7opm	166	41	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	166	42	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	166	43	P1TEG	P1TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	166	44	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	166	45	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	46	output	output	NN
work_pbekm73p7bendalswgkl6f7opm	166	47	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	166	48	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	166	49	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	166	50	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	166	51	,	,	,
work_pbekm73p7bendalswgkl6f7opm	166	52	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	166	53	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	54	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	166	55	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	166	56	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	166	57	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	58	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	166	59	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	166	60	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	166	61	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	166	62	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	166	63	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	166	64	,	,	,
work_pbekm73p7bendalswgkl6f7opm	166	65	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	166	66	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	166	67	given	give	VBN
work_pbekm73p7bendalswgkl6f7opm	166	68	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	166	69	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	70	manufacturer	manufacturer	NN
work_pbekm73p7bendalswgkl6f7opm	166	71	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	166	72	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	166	73	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	166	74	.	.	.
work_pbekm73p7bendalswgkl6f7opm	167	1	Then	then	RB
work_pbekm73p7bendalswgkl6f7opm	167	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	167	3	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	167	4	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	167	5	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	167	6	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	167	7	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	167	8	PTotal	PTotal	NNP
work_pbekm73p7bendalswgkl6f7opm	167	9	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	167	10	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	167	11	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	167	12	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	167	13	below	below	IN
work_pbekm73p7bendalswgkl6f7opm	167	14	knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	167	15	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	167	16	NTEG	NTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	167	17	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	167	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	167	19	number	number	NN
work_pbekm73p7bendalswgkl6f7opm	167	20	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	167	21	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	167	22	available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	167	23	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	167	24	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	167	25	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	167	26	:	:	:
work_pbekm73p7bendalswgkl6f7opm	167	27	TEGTEGTotal	TEGTEGTotal	NNP
work_pbekm73p7bendalswgkl6f7opm	167	28	PNP	PNP	NNP
work_pbekm73p7bendalswgkl6f7opm	167	29	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	167	30	   	   	_SP
work_pbekm73p7bendalswgkl6f7opm	167	31	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	167	32	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	167	33	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	167	34	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	167	35	.	.	.
work_pbekm73p7bendalswgkl6f7opm	168	1	Results	result	NNS
work_pbekm73p7bendalswgkl6f7opm	168	2	One	one	CD
work_pbekm73p7bendalswgkl6f7opm	168	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	168	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	168	5	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	168	6	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	168	7	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	168	8	affects	affect	VBZ
work_pbekm73p7bendalswgkl6f7opm	168	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	168	10	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	168	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	168	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	168	13	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	168	14	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	168	15	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	168	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	168	17	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	168	18	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	168	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	169	1	Variety	variety	NN
work_pbekm73p7bendalswgkl6f7opm	169	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	169	3	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	169	4	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	169	5	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	169	6	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	169	7	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	169	8	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	169	9	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	169	10	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	169	11	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	169	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	169	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	169	14	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	169	15	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	169	16	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	169	17	found	find	VBN
work_pbekm73p7bendalswgkl6f7opm	169	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	170	1	For	for	IN
work_pbekm73p7bendalswgkl6f7opm	170	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	170	3	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	170	4	level	level	NN
work_pbekm73p7bendalswgkl6f7opm	170	5	:	:	:
work_pbekm73p7bendalswgkl6f7opm	170	6	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	170	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	170	8	chimney	chimney	NN
work_pbekm73p7bendalswgkl6f7opm	170	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	170	10	boilers	boiler	NNS
work_pbekm73p7bendalswgkl6f7opm	170	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	170	12	furnaces	furnace	NNS
work_pbekm73p7bendalswgkl6f7opm	170	13	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	170	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	170	15	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	170	16	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	170	17	found	find	VBN
work_pbekm73p7bendalswgkl6f7opm	170	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	171	1	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	171	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	171	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	171	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	171	5	dimensions	dimension	NNS
work_pbekm73p7bendalswgkl6f7opm	171	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	171	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	171	8	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	171	9	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	171	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	171	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	171	12	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	171	13	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	171	14	required	require	VBN
work_pbekm73p7bendalswgkl6f7opm	171	15	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	171	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	171	17	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	171	18	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	171	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	172	1	In	in	IN
work_pbekm73p7bendalswgkl6f7opm	172	2	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	172	3	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	172	4	simplify	simplify	VB
work_pbekm73p7bendalswgkl6f7opm	172	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	172	6	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	172	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	172	8	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	172	9	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	172	10	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	172	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	172	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	172	13	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	172	14	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	172	15	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	172	16	set	set	VBN
work_pbekm73p7bendalswgkl6f7opm	172	17	as	as	RB
work_pbekm73p7bendalswgkl6f7opm	172	18	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	172	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	173	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	173	2	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	173	3	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	173	4	noted	note	VBN
work_pbekm73p7bendalswgkl6f7opm	173	5	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	173	6	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	173	7	specific	specific	JJ
work_pbekm73p7bendalswgkl6f7opm	173	8	type	type	NN
work_pbekm73p7bendalswgkl6f7opm	173	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	173	10	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	173	11	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	173	12	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	173	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	173	14	its	-PRON-	PRP$
work_pbekm73p7bendalswgkl6f7opm	173	15	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	173	16	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	173	17	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	173	18	listed	list	VBN
work_pbekm73p7bendalswgkl6f7opm	173	19	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	173	20	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	173	21	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	173	22	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	173	23	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	173	24	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	173	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	174	1	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	174	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	174	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	175	1	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	175	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	175	3	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	175	4	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	175	5	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	175	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	176	1	Parameter	Parameter	NNP
work_pbekm73p7bendalswgkl6f7opm	176	2	Value	Value	NNP
work_pbekm73p7bendalswgkl6f7opm	176	3	Unit	unit	NN
work_pbekm73p7bendalswgkl6f7opm	176	4	rt,,i	rt,,i	NNP
work_pbekm73p7bendalswgkl6f7opm	176	5	0.049	0.049	CD
work_pbekm73p7bendalswgkl6f7opm	176	6	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	176	7	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	176	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	176	9	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	176	10	0.050	0.050	CD
work_pbekm73p7bendalswgkl6f7opm	176	11	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	176	12	L	L	NNP
work_pbekm73p7bendalswgkl6f7opm	176	13	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	176	14	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	176	15	rw	rw	NN
work_pbekm73p7bendalswgkl6f7opm	176	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	176	17	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	176	18	0.158	0.158	CD
work_pbekm73p7bendalswgkl6f7opm	176	19	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	176	20	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	176	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	176	22	o	o	XX
work_pbekm73p7bendalswgkl6f7opm	176	23	0.160	0.160	CD
work_pbekm73p7bendalswgkl6f7opm	176	24	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	176	25	hw	hw	NNP
work_pbekm73p7bendalswgkl6f7opm	176	26	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	176	27	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	28	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	29	m2	m2	NNP
work_pbekm73p7bendalswgkl6f7opm	176	30	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	176	31	ha	ha	UH
work_pbekm73p7bendalswgkl6f7opm	176	32	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	176	33	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	176	34	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	35	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	176	36	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	176	37	Hg	Hg	NNP
work_pbekm73p7bendalswgkl6f7opm	176	38	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	176	39	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	40	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	41	m2	m2	NNP
work_pbekm73p7bendalswgkl6f7opm	176	42	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	176	43	kt	kt	NNP
work_pbekm73p7bendalswgkl6f7opm	176	44	401	401	CD
work_pbekm73p7bendalswgkl6f7opm	176	45	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	46	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	47	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	176	48	kwall	kwall	NN
work_pbekm73p7bendalswgkl6f7opm	176	49	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	176	50	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	51	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	52	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	176	53	kTEG	kteg	NN
work_pbekm73p7bendalswgkl6f7opm	176	54	1.4	1.4	CD
work_pbekm73p7bendalswgkl6f7opm	176	55	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	56	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	57	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	176	58	NTEG	NTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	176	59	99	99	CD
work_pbekm73p7bendalswgkl6f7opm	176	60	Piece	Piece	NNP
work_pbekm73p7bendalswgkl6f7opm	176	61	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	176	62	25	25	CD
work_pbekm73p7bendalswgkl6f7opm	176	63	°	°	,
work_pbekm73p7bendalswgkl6f7opm	176	64	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	176	65	e	e	NN
work_pbekm73p7bendalswgkl6f7opm	176	66	0.005	0.005	CD
work_pbekm73p7bendalswgkl6f7opm	176	67	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	176	68	P/∆T2	P/∆T2	NNP
work_pbekm73p7bendalswgkl6f7opm	176	69	0.0002	0.0002	CD
work_pbekm73p7bendalswgkl6f7opm	176	70	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	176	71	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	176	72	K2	K2	NNP
work_pbekm73p7bendalswgkl6f7opm	176	73	ATEG	ATEG	NNP
work_pbekm73p7bendalswgkl6f7opm	176	74	0.0031	0.0031	CD
work_pbekm73p7bendalswgkl6f7opm	176	75	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	176	76	Using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	176	77	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	176	78	table	table	NN
work_pbekm73p7bendalswgkl6f7opm	176	79	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	176	80	equations	equation	NNS
work_pbekm73p7bendalswgkl6f7opm	176	81	above	above	IN
work_pbekm73p7bendalswgkl6f7opm	176	82	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	176	83	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	176	84	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	176	85	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	176	86	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	176	87	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	176	88	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	176	89	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	176	90	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	176	91	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	176	92	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	176	93	,	,	,
work_pbekm73p7bendalswgkl6f7opm	176	94	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	176	95	variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	176	96	,	,	,
work_pbekm73p7bendalswgkl6f7opm	176	97	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	176	98	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	176	99	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	176	100	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	176	101	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	176	102	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	176	103	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	176	104	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	176	105	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	176	106	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	176	107	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	176	108	studied	study	VBN
work_pbekm73p7bendalswgkl6f7opm	176	109	.	.	.
work_pbekm73p7bendalswgkl6f7opm	177	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	177	2	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	177	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	177	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	177	5	variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	177	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	177	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	177	8	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	177	9	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	177	10	varying	vary	VBG
work_pbekm73p7bendalswgkl6f7opm	177	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	177	12	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	177	13	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	177	14	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	177	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	178	1	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	178	2	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	178	3	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	178	4	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	178	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	179	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	179	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	179	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	179	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	179	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	179	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	179	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	179	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	179	9	779	779	CD
work_pbekm73p7bendalswgkl6f7opm	179	10	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	179	11	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	179	12	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	179	13	/	/	,
work_pbekm73p7bendalswgkl6f7opm	179	14	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	179	15	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	179	16	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	179	17	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	179	18	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	179	19	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	179	20	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	179	21	undergoes	undergoe	NNS
work_pbekm73p7bendalswgkl6f7opm	179	22	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	179	23	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	179	24	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	179	25	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	179	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	179	27	surface	surface	NN
work_pbekm73p7bendalswgkl6f7opm	179	28	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	179	29	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	179	30	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	179	31	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	179	32	Rg	Rg	NNP
work_pbekm73p7bendalswgkl6f7opm	179	33	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	179	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	180	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	180	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	180	3	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	180	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	180	5	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	180	6	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	180	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	180	8	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	180	9	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	180	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	180	11	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	180	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	180	13	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	180	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	180	15	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	180	16	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	180	17	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	180	18	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	180	19	RTEG	RTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	180	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	180	21	Rp	Rp	NNP
work_pbekm73p7bendalswgkl6f7opm	180	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	180	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	181	1	Due	due	IN
work_pbekm73p7bendalswgkl6f7opm	181	2	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	181	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	181	4	change	change	NN
work_pbekm73p7bendalswgkl6f7opm	181	5	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	181	6	density	density	NN
work_pbekm73p7bendalswgkl6f7opm	181	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	181	8	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	181	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	181	10	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	181	11	will	will	MD
work_pbekm73p7bendalswgkl6f7opm	181	12	undergoes	undergo	VBZ
work_pbekm73p7bendalswgkl6f7opm	181	13	natural	natural	JJ
work_pbekm73p7bendalswgkl6f7opm	181	14	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	181	15	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	181	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	181	17	walls	wall	NNS
work_pbekm73p7bendalswgkl6f7opm	181	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	181	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	181	20	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	181	21	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	181	22	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	181	23	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	181	24	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	181	25	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	181	26	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	181	27	,	,	,
work_pbekm73p7bendalswgkl6f7opm	181	28	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	181	29	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	181	30	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	181	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	181	32	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	181	33	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	181	34	,	,	,
work_pbekm73p7bendalswgkl6f7opm	181	35	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	181	36	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	181	37	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	181	38	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	181	39	.	.	.
work_pbekm73p7bendalswgkl6f7opm	182	1	At	at	IN
work_pbekm73p7bendalswgkl6f7opm	182	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	182	3	tanks	tank	NNS
work_pbekm73p7bendalswgkl6f7opm	182	4	’	’	POS
work_pbekm73p7bendalswgkl6f7opm	182	5	wall	wall	NNP
work_pbekm73p7bendalswgkl6f7opm	182	6	energy	energy	NNP
work_pbekm73p7bendalswgkl6f7opm	182	7	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	182	8	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	182	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	182	10	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	182	11	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	182	12	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	182	13	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	182	14	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	182	15	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	182	16	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	182	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	182	18	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	182	19	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	182	20	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	182	21	through	through	IN
work_pbekm73p7bendalswgkl6f7opm	182	22	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	182	23	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	182	24	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	182	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	182	26	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	182	27	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	182	28	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	182	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	183	1	Fig	fig	NN
work_pbekm73p7bendalswgkl6f7opm	183	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	184	1	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	184	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	185	1	Thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	185	2	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	185	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	185	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	185	5	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	185	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	186	1	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	186	2	Tg	Tg	NNP
work_pbekm73p7bendalswgkl6f7opm	186	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	4	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	186	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	6	TH	TH	NNP
work_pbekm73p7bendalswgkl6f7opm	186	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	8	TC	TC	NNP
work_pbekm73p7bendalswgkl6f7opm	186	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	10	Tp	Tp	NNP
work_pbekm73p7bendalswgkl6f7opm	186	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	12	o	o	UH
work_pbekm73p7bendalswgkl6f7opm	186	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	14	Tw	Tw	NNP
work_pbekm73p7bendalswgkl6f7opm	186	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	16	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	186	17	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	18	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	186	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	20	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	186	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	22	o	o	XX
work_pbekm73p7bendalswgkl6f7opm	186	23	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	186	24	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	186	25	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	186	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	186	27	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	186	28	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	186	29	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	186	30	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	186	31	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	32	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	186	33	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	34	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	186	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	36	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	186	37	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	186	38	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	186	39	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	40	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	186	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	42	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	186	43	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	186	44	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	186	45	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	46	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	186	47	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	186	48	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	186	49	,	,	,
work_pbekm73p7bendalswgkl6f7opm	186	50	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	186	51	ambient	ambient	JJ
work_pbekm73p7bendalswgkl6f7opm	186	52	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	186	53	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	186	54	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	186	55	.	.	.
work_pbekm73p7bendalswgkl6f7opm	187	1	And	and	CC
work_pbekm73p7bendalswgkl6f7opm	187	2	Rg	Rg	NNP
work_pbekm73p7bendalswgkl6f7opm	187	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	4	RTEG	RTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	187	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	6	Rp	Rp	NNP
work_pbekm73p7bendalswgkl6f7opm	187	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	8	Rconv	Rconv	NNP
work_pbekm73p7bendalswgkl6f7opm	187	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	10	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	187	11	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	187	12	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	187	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	14	Rconv	Rconv	NNP
work_pbekm73p7bendalswgkl6f7opm	187	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	16	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	187	17	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	187	18	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	187	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	20	Rwall	Rwall	NNP
work_pbekm73p7bendalswgkl6f7opm	187	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	22	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	187	23	Rair	Rair	NNP
work_pbekm73p7bendalswgkl6f7opm	187	24	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	25	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	187	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	187	27	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	187	28	resistance	resistance	NN
work_pbekm73p7bendalswgkl6f7opm	187	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	187	30	internal	internal	JJ
work_pbekm73p7bendalswgkl6f7opm	187	31	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	187	32	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	187	33	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	187	34	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	187	35	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	187	36	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	37	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	187	38	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	187	39	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	187	40	generator	generator	NN
work_pbekm73p7bendalswgkl6f7opm	187	41	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	42	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	187	43	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	187	44	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	187	45	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	187	46	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	187	47	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	48	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	187	49	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	187	50	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	187	51	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	187	52	pipe	pipe	NN
work_pbekm73p7bendalswgkl6f7opm	187	53	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	54	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	187	55	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	187	56	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	187	57	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	187	58	cylindrical	cylindrical	JJ
work_pbekm73p7bendalswgkl6f7opm	187	59	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	187	60	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	187	61	,	,	,
work_pbekm73p7bendalswgkl6f7opm	187	62	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	187	63	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	187	64	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	187	65	cylindrical	cylindrical	JJ
work_pbekm73p7bendalswgkl6f7opm	187	66	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	187	67	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	187	68	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	187	69	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	187	70	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	187	71	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	187	72	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	187	73	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	187	74	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	187	75	.	.	.
work_pbekm73p7bendalswgkl6f7opm	188	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	188	2	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	188	3	resistances	resistance	NNS
work_pbekm73p7bendalswgkl6f7opm	188	4	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	188	5	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	188	6	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	188	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	188	8	following	follow	VBG
work_pbekm73p7bendalswgkl6f7opm	188	9	equations	equation	NNS
work_pbekm73p7bendalswgkl6f7opm	188	10	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	11	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	188	12	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	13	:	:	:
work_pbekm73p7bendalswgkl6f7opm	188	14			IN
work_pbekm73p7bendalswgkl6f7opm	188	15			NNP
work_pbekm73p7bendalswgkl6f7opm	188	16	LerhR	LerhR	NNP
work_pbekm73p7bendalswgkl6f7opm	188	17	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	188	18	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	19	tgg	tgg	NNP
work_pbekm73p7bendalswgkl6f7opm	188	20			NNS
work_pbekm73p7bendalswgkl6f7opm	188	21			NFP
work_pbekm73p7bendalswgkl6f7opm	188	22	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	188	23	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	188	24	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	26	1	1	LS
work_pbekm73p7bendalswgkl6f7opm	188	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	28	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	188	29	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	188	30	r	r	NNP
work_pbekm73p7bendalswgkl6f7opm	188	31	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	188	32	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	188	33	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	188	34	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	188	35	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	36	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	188	37	i	i	NNP
work_pbekm73p7bendalswgkl6f7opm	188	38	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	39	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	188	40	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	188	41	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	188	42			NNP
work_pbekm73p7bendalswgkl6f7opm	188	43			RB
work_pbekm73p7bendalswgkl6f7opm	188	44			VB
work_pbekm73p7bendalswgkl6f7opm	188	45			JJ
work_pbekm73p7bendalswgkl6f7opm	188	46			NN
work_pbekm73p7bendalswgkl6f7opm	188	47			NNP
work_pbekm73p7bendalswgkl6f7opm	188	48			NNS
work_pbekm73p7bendalswgkl6f7opm	188	49			NN
work_pbekm73p7bendalswgkl6f7opm	188	50	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	51	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	52	2	2	LS
work_pbekm73p7bendalswgkl6f7opm	188	53	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	54	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	188	55	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	188	56	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	188	57	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	188	58	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	188	59	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	188	60	i	i	NN
work_pbekm73p7bendalswgkl6f7opm	188	61	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	62	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	188	63	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	188	64	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	65	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	188	66	p	p	NN
work_pbekm73p7bendalswgkl6f7opm	188	67	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	188	68			NNP
work_pbekm73p7bendalswgkl6f7opm	188	69			RB
work_pbekm73p7bendalswgkl6f7opm	188	70			VB
work_pbekm73p7bendalswgkl6f7opm	188	71			JJ
work_pbekm73p7bendalswgkl6f7opm	188	72			NN
work_pbekm73p7bendalswgkl6f7opm	188	73			NNS
work_pbekm73p7bendalswgkl6f7opm	188	74			NFP
work_pbekm73p7bendalswgkl6f7opm	188	75	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	76	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	77	3	3	LS
work_pbekm73p7bendalswgkl6f7opm	188	78	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	79			IN
work_pbekm73p7bendalswgkl6f7opm	188	80	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	188	81	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	188	82	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	83	twpw	twpw	NN
work_pbekm73p7bendalswgkl6f7opm	188	84	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	85	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	188	86	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	188	87	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	188	88			NNP
work_pbekm73p7bendalswgkl6f7opm	188	89	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	90	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	91	4	4	LS
work_pbekm73p7bendalswgkl6f7opm	188	92	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	93			IN
work_pbekm73p7bendalswgkl6f7opm	188	94	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	188	95	i	i	NN
work_pbekm73p7bendalswgkl6f7opm	188	96	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	97	wwww	wwww	NN
work_pbekm73p7bendalswgkl6f7opm	188	98	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	99	conv	conv	NN
work_pbekm73p7bendalswgkl6f7opm	188	100	2	2	NN
work_pbekm73p7bendalswgkl6f7opm	188	101	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	188	102			NNP
work_pbekm73p7bendalswgkl6f7opm	188	103	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	104	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	105	5	5	LS
work_pbekm73p7bendalswgkl6f7opm	188	106	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	107	Lk	Lk	NNP
work_pbekm73p7bendalswgkl6f7opm	188	108	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	188	109	r	r	NN
work_pbekm73p7bendalswgkl6f7opm	188	110	ln	ln	NNP
work_pbekm73p7bendalswgkl6f7opm	188	111	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	188	112	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	188	113	i	i	NNP
work_pbekm73p7bendalswgkl6f7opm	188	114	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	115	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	188	116	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	188	117	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	118	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	188	119	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	188	120	2	2	NNP
work_pbekm73p7bendalswgkl6f7opm	188	121			NNP
work_pbekm73p7bendalswgkl6f7opm	188	122			RB
work_pbekm73p7bendalswgkl6f7opm	188	123			VB
work_pbekm73p7bendalswgkl6f7opm	188	124			JJ
work_pbekm73p7bendalswgkl6f7opm	188	125			NN
work_pbekm73p7bendalswgkl6f7opm	188	126			NNS
work_pbekm73p7bendalswgkl6f7opm	188	127			NFP
work_pbekm73p7bendalswgkl6f7opm	188	128	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	129	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	130	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	188	131	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	132			IN
work_pbekm73p7bendalswgkl6f7opm	188	133	LrhR	LrhR	NNP
work_pbekm73p7bendalswgkl6f7opm	188	134	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	188	135	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	136	waair	waair	NN
work_pbekm73p7bendalswgkl6f7opm	188	137	2	2	NNP
work_pbekm73p7bendalswgkl6f7opm	188	138	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	188	139			NNP
work_pbekm73p7bendalswgkl6f7opm	188	140	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	188	141	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	188	142	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	188	143	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	188	144	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	188	145	hg	hg	NNP
work_pbekm73p7bendalswgkl6f7opm	188	146	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	147	hw	hw	NNP
work_pbekm73p7bendalswgkl6f7opm	188	148	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	188	149	ha	ha	UH
work_pbekm73p7bendalswgkl6f7opm	188	150	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	188	151	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	188	152	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	188	153	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	188	154	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	188	155	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	188	156	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	188	157	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	188	158	,	,	,
work_pbekm73p7bendalswgkl6f7opm	188	159	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	188	160	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	188	161	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	188	162	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	188	163	.	.	.
work_pbekm73p7bendalswgkl6f7opm	189	1	kTEG	kTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	189	2	,	,	,
work_pbekm73p7bendalswgkl6f7opm	189	3	kt	kt	NNP
work_pbekm73p7bendalswgkl6f7opm	189	4	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	189	5	kw	kw	NNP
work_pbekm73p7bendalswgkl6f7opm	189	6	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	189	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	189	8	conduction	conduction	NN
work_pbekm73p7bendalswgkl6f7opm	189	9	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	189	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	189	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	189	12	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	189	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	189	14	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	189	15	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	189	16	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	189	17	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	189	18	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	189	19	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	189	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	190	1	And	and	CC
work_pbekm73p7bendalswgkl6f7opm	190	2	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	190	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	4	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	190	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	6	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	190	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	8	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	190	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	10	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	190	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	12	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	190	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	14	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	190	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	16	o	o	NNP
work_pbekm73p7bendalswgkl6f7opm	190	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	190	18	L	l	NN
work_pbekm73p7bendalswgkl6f7opm	190	19	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	190	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	190	21	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	190	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	23	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	190	24	radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	190	25	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	190	26	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	190	27	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	190	28	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	190	29	inner	inner	JJ
work_pbekm73p7bendalswgkl6f7opm	190	30	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	31	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	190	32	radius	radius	NN
work_pbekm73p7bendalswgkl6f7opm	190	33	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	190	34	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	190	35	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	190	36	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	190	37	,	,	,
work_pbekm73p7bendalswgkl6f7opm	190	38	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	190	39	length	length	NN
work_pbekm73p7bendalswgkl6f7opm	190	40	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	190	41	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	190	42	tank	tank	NN
work_pbekm73p7bendalswgkl6f7opm	190	43	respectively	respectively	RB
work_pbekm73p7bendalswgkl6f7opm	190	44	.	.	.
work_pbekm73p7bendalswgkl6f7opm	191	1	e	e	NNP
work_pbekm73p7bendalswgkl6f7opm	191	2	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	191	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	191	4	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	191	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	191	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	191	7	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	191	8	generator	generator	NN
work_pbekm73p7bendalswgkl6f7opm	191	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	192	1	Knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	192	2	that	that	DT
work_pbekm73p7bendalswgkl6f7opm	192	3	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	192	4	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	192	5	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	192	6	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	192	7	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	192	8	over	over	IN
work_pbekm73p7bendalswgkl6f7opm	192	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	10	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	192	11	then	then	RB
work_pbekm73p7bendalswgkl6f7opm	192	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	192	14	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	192	15	each	each	DT
work_pbekm73p7bendalswgkl6f7opm	192	16	point	point	NN
work_pbekm73p7bendalswgkl6f7opm	192	17	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	192	18	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	192	19	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	192	20	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	192	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	22	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	192	23	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	192	24	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	192	25	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	192	26	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	192	27	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	192	28	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	192	29	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	192	30	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	192	31	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	192	32	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	192	33	following	follow	VBG
work_pbekm73p7bendalswgkl6f7opm	192	34	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	192	35	:	:	:
work_pbekm73p7bendalswgkl6f7opm	192	36	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	192	37	n()n()n	n()n()n	UH
work_pbekm73p7bendalswgkl6f7opm	192	38	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	192	39	R.qTT	R.qTT	NNP
work_pbekm73p7bendalswgkl6f7opm	192	40			NN
work_pbekm73p7bendalswgkl6f7opm	192	41	1	1	FW
work_pbekm73p7bendalswgkl6f7opm	192	42	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	192	43	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	192	44	8)	8)	CD
work_pbekm73p7bendalswgkl6f7opm	192	45	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	192	46	q	q	NNP
work_pbekm73p7bendalswgkl6f7opm	192	47	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	192	48	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	49	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	192	50	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	192	51	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	192	52	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	192	53	“	"	``
work_pbekm73p7bendalswgkl6f7opm	192	54	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	192	55	”	"	''
work_pbekm73p7bendalswgkl6f7opm	192	56	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	192	57	n	n	NN
work_pbekm73p7bendalswgkl6f7opm	192	58	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	192	59	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	192	60	increment	increment	NN
work_pbekm73p7bendalswgkl6f7opm	192	61	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	192	62	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	63	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	192	64	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	192	65	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	192	66	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	192	67	starting	start	VBG
work_pbekm73p7bendalswgkl6f7opm	192	68	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	192	69	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	192	70	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	192	71	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	192	72	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	192	73	.	.	.
work_pbekm73p7bendalswgkl6f7opm	193	1	By	by	IN
work_pbekm73p7bendalswgkl6f7opm	193	2	calculating	calculate	VBG
work_pbekm73p7bendalswgkl6f7opm	193	3	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	4	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	193	5	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	193	6	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	193	7	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	193	8	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	193	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	10	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	193	11	surface	surface	NN
work_pbekm73p7bendalswgkl6f7opm	193	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	13	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	193	14	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	193	15	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	193	16	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	193	17	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	193	18	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	193	19	calculated	calculate	VBN
work_pbekm73p7bendalswgkl6f7opm	193	20	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	193	21	follows	follow	VBZ
work_pbekm73p7bendalswgkl6f7opm	193	22	:	:	:
work_pbekm73p7bendalswgkl6f7opm	193	23	2	2	CD
work_pbekm73p7bendalswgkl6f7opm	193	24	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	193	25	TT	TT	NNP
work_pbekm73p7bendalswgkl6f7opm	193	26	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	193	27	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	193	28	ref	ref	NN
work_pbekm73p7bendalswgkl6f7opm	193	29	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	193	30			NNP
work_pbekm73p7bendalswgkl6f7opm	193	31			NNP
work_pbekm73p7bendalswgkl6f7opm	193	32			NNP
work_pbekm73p7bendalswgkl6f7opm	193	33			NNP
work_pbekm73p7bendalswgkl6f7opm	193	34			XX
work_pbekm73p7bendalswgkl6f7opm	193	35			NNPS
work_pbekm73p7bendalswgkl6f7opm	193	36			VBP
work_pbekm73p7bendalswgkl6f7opm	193	37			NNP
work_pbekm73p7bendalswgkl6f7opm	193	38	   	   	_SP
work_pbekm73p7bendalswgkl6f7opm	193	39	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	193	40	9	9	CD
work_pbekm73p7bendalswgkl6f7opm	193	41	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	193	42	where	where	WRB
work_pbekm73p7bendalswgkl6f7opm	193	43	P1TEG	P1TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	193	44	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	193	45	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	46	output	output	NN
work_pbekm73p7bendalswgkl6f7opm	193	47	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	193	48	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	193	49	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	193	50	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	193	51	,	,	,
work_pbekm73p7bendalswgkl6f7opm	193	52	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	193	53	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	54	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	193	55	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	193	56	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	193	57	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	58	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	193	59	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	193	60	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	193	61	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	193	62	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	193	63	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	193	64	,	,	,
work_pbekm73p7bendalswgkl6f7opm	193	65	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	193	66	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	193	67	given	give	VBN
work_pbekm73p7bendalswgkl6f7opm	193	68	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	193	69	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	70	manufacturer	manufacturer	NN
work_pbekm73p7bendalswgkl6f7opm	193	71	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	193	72	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	193	73	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	193	74	.	.	.
work_pbekm73p7bendalswgkl6f7opm	194	1	Then	then	RB
work_pbekm73p7bendalswgkl6f7opm	194	2	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	194	3	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	194	4	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	194	5	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	194	6	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	194	7	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	194	8	PTotal	PTotal	NNP
work_pbekm73p7bendalswgkl6f7opm	194	9	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	194	10	estimated	estimate	VBN
work_pbekm73p7bendalswgkl6f7opm	194	11	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	194	12	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	194	13	below	below	IN
work_pbekm73p7bendalswgkl6f7opm	194	14	knowing	know	VBG
work_pbekm73p7bendalswgkl6f7opm	194	15	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	194	16	NTEG	NTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	194	17	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	194	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	194	19	number	number	NN
work_pbekm73p7bendalswgkl6f7opm	194	20	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	194	21	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	194	22	available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	194	23	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	194	24	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	194	25	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	194	26	:	:	:
work_pbekm73p7bendalswgkl6f7opm	194	27	TEGTEGTotal	TEGTEGTotal	NNP
work_pbekm73p7bendalswgkl6f7opm	194	28	PNP	PNP	NNP
work_pbekm73p7bendalswgkl6f7opm	194	29	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	194	30	   	   	_SP
work_pbekm73p7bendalswgkl6f7opm	194	31	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	194	32	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	194	33	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	194	34	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	194	35	.	.	.
work_pbekm73p7bendalswgkl6f7opm	195	1	Results	result	NNS
work_pbekm73p7bendalswgkl6f7opm	195	2	One	one	CD
work_pbekm73p7bendalswgkl6f7opm	195	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	195	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	195	5	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	195	6	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	195	7	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	195	8	affects	affect	VBZ
work_pbekm73p7bendalswgkl6f7opm	195	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	195	10	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	195	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	195	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	195	13	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	195	14	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	195	15	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	195	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	195	17	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	195	18	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	195	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	196	1	Variety	variety	NN
work_pbekm73p7bendalswgkl6f7opm	196	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	196	3	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	196	4	that	that	WDT
work_pbekm73p7bendalswgkl6f7opm	196	5	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	196	6	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	196	7	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	196	8	as	as	IN
work_pbekm73p7bendalswgkl6f7opm	196	9	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	196	10	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	196	11	source	source	NN
work_pbekm73p7bendalswgkl6f7opm	196	12	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	196	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	196	14	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	196	15	can	can	MD
work_pbekm73p7bendalswgkl6f7opm	196	16	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	196	17	found	find	VBN
work_pbekm73p7bendalswgkl6f7opm	196	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	197	1	For	for	IN
work_pbekm73p7bendalswgkl6f7opm	197	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	197	3	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	197	4	level	level	NN
work_pbekm73p7bendalswgkl6f7opm	197	5	:	:	:
work_pbekm73p7bendalswgkl6f7opm	197	6	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	197	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	197	8	chimney	chimney	NN
work_pbekm73p7bendalswgkl6f7opm	197	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	197	10	boilers	boiler	NNS
work_pbekm73p7bendalswgkl6f7opm	197	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	197	12	furnaces	furnace	NNS
work_pbekm73p7bendalswgkl6f7opm	197	13	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	197	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	197	15	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	197	16	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	197	17	found	find	VBN
work_pbekm73p7bendalswgkl6f7opm	197	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	198	1	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	198	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	198	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	198	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	198	5	dimensions	dimension	NNS
work_pbekm73p7bendalswgkl6f7opm	198	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	198	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	198	8	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	198	9	used	use	VBN
work_pbekm73p7bendalswgkl6f7opm	198	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	198	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	198	12	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	198	13	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	198	14	required	require	VBN
work_pbekm73p7bendalswgkl6f7opm	198	15	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	198	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	198	17	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	198	18	modeling	modeling	NN
work_pbekm73p7bendalswgkl6f7opm	198	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	199	1	In	in	IN
work_pbekm73p7bendalswgkl6f7opm	199	2	order	order	NN
work_pbekm73p7bendalswgkl6f7opm	199	3	to	to	TO
work_pbekm73p7bendalswgkl6f7opm	199	4	simplify	simplify	VB
work_pbekm73p7bendalswgkl6f7opm	199	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	199	6	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	199	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	199	8	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	199	9	convection	convection	NN
work_pbekm73p7bendalswgkl6f7opm	199	10	coefficient	coefficient	NN
work_pbekm73p7bendalswgkl6f7opm	199	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	199	12	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	199	13	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	199	14	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	199	15	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	199	16	set	set	VBN
work_pbekm73p7bendalswgkl6f7opm	199	17	as	as	RB
work_pbekm73p7bendalswgkl6f7opm	199	18	constant	constant	JJ
work_pbekm73p7bendalswgkl6f7opm	199	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	200	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	200	2	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	200	3	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	200	4	noted	note	VBN
work_pbekm73p7bendalswgkl6f7opm	200	5	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	200	6	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	200	7	specific	specific	JJ
work_pbekm73p7bendalswgkl6f7opm	200	8	type	type	NN
work_pbekm73p7bendalswgkl6f7opm	200	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	200	10	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	200	11	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	200	12	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	200	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	200	14	its	-PRON-	PRP$
work_pbekm73p7bendalswgkl6f7opm	200	15	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	200	16	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	200	17	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	200	18	listed	list	VBN
work_pbekm73p7bendalswgkl6f7opm	200	19	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	200	20	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	200	21	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	200	22	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	200	23	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	200	24	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	200	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	201	1	Table	table	NN
work_pbekm73p7bendalswgkl6f7opm	201	2	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	201	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	202	1	Heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	202	2	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	202	3	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	202	4	main	main	JJ
work_pbekm73p7bendalswgkl6f7opm	202	5	parameters	parameter	NNS
work_pbekm73p7bendalswgkl6f7opm	202	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	203	1	Parameter	Parameter	NNP
work_pbekm73p7bendalswgkl6f7opm	203	2	Value	Value	NNP
work_pbekm73p7bendalswgkl6f7opm	203	3	Unit	unit	NN
work_pbekm73p7bendalswgkl6f7opm	203	4	rt,,i	rt,,i	NNP
work_pbekm73p7bendalswgkl6f7opm	203	5	0.049	0.049	CD
work_pbekm73p7bendalswgkl6f7opm	203	6	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	203	7	rt	rt	NNP
work_pbekm73p7bendalswgkl6f7opm	203	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	203	9	o	o	NN
work_pbekm73p7bendalswgkl6f7opm	203	10	0.050	0.050	CD
work_pbekm73p7bendalswgkl6f7opm	203	11	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	203	12	L	L	NNP
work_pbekm73p7bendalswgkl6f7opm	203	13	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	203	14	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	203	15	rw	rw	NN
work_pbekm73p7bendalswgkl6f7opm	203	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	203	17	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	203	18	0.158	0.158	CD
work_pbekm73p7bendalswgkl6f7opm	203	19	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	203	20	rw	rw	NNP
work_pbekm73p7bendalswgkl6f7opm	203	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	203	22	o	o	XX
work_pbekm73p7bendalswgkl6f7opm	203	23	0.160	0.160	CD
work_pbekm73p7bendalswgkl6f7opm	203	24	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	203	25	hw	hw	NNP
work_pbekm73p7bendalswgkl6f7opm	203	26	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	203	27	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	28	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	29	m2	m2	NNP
work_pbekm73p7bendalswgkl6f7opm	203	30	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	203	31	ha	ha	UH
work_pbekm73p7bendalswgkl6f7opm	203	32	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	203	33	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	203	34	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	35	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	203	36	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	203	37	Hg	Hg	NNP
work_pbekm73p7bendalswgkl6f7opm	203	38	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	203	39	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	40	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	41	m2	m2	NNP
work_pbekm73p7bendalswgkl6f7opm	203	42	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	203	43	kt	kt	NNP
work_pbekm73p7bendalswgkl6f7opm	203	44	401	401	CD
work_pbekm73p7bendalswgkl6f7opm	203	45	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	46	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	47	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	203	48	kwall	kwall	NN
work_pbekm73p7bendalswgkl6f7opm	203	49	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	203	50	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	51	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	52	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	203	53	kTEG	kteg	NN
work_pbekm73p7bendalswgkl6f7opm	203	54	1.4	1.4	CD
work_pbekm73p7bendalswgkl6f7opm	203	55	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	56	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	57	mK	mK	NNP
work_pbekm73p7bendalswgkl6f7opm	203	58	NTEG	NTEG	NNP
work_pbekm73p7bendalswgkl6f7opm	203	59	99	99	CD
work_pbekm73p7bendalswgkl6f7opm	203	60	Piece	Piece	NNP
work_pbekm73p7bendalswgkl6f7opm	203	61	Ta	Ta	NNP
work_pbekm73p7bendalswgkl6f7opm	203	62	25	25	CD
work_pbekm73p7bendalswgkl6f7opm	203	63	°	°	,
work_pbekm73p7bendalswgkl6f7opm	203	64	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	203	65	e	e	NN
work_pbekm73p7bendalswgkl6f7opm	203	66	0.005	0.005	CD
work_pbekm73p7bendalswgkl6f7opm	203	67	m	m	NN
work_pbekm73p7bendalswgkl6f7opm	203	68	P/∆T2	P/∆T2	NNP
work_pbekm73p7bendalswgkl6f7opm	203	69	0.0002	0.0002	CD
work_pbekm73p7bendalswgkl6f7opm	203	70	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	203	71	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	203	72	K2	K2	NNP
work_pbekm73p7bendalswgkl6f7opm	203	73	ATEG	ATEG	NNP
work_pbekm73p7bendalswgkl6f7opm	203	74	0.0031	0.0031	CD
work_pbekm73p7bendalswgkl6f7opm	203	75	m2	m2	NN
work_pbekm73p7bendalswgkl6f7opm	203	76	Using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	203	77	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	203	78	table	table	NN
work_pbekm73p7bendalswgkl6f7opm	203	79	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	203	80	equations	equation	NNS
work_pbekm73p7bendalswgkl6f7opm	203	81	above	above	IN
work_pbekm73p7bendalswgkl6f7opm	203	82	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	203	83	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	203	84	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	203	85	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	203	86	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	203	87	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	203	88	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	203	89	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	203	90	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	203	91	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	203	92	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	203	93	,	,	,
work_pbekm73p7bendalswgkl6f7opm	203	94	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	203	95	variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	203	96	,	,	,
work_pbekm73p7bendalswgkl6f7opm	203	97	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	203	98	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	203	99	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	203	100	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	203	101	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	203	102	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	203	103	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	203	104	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	203	105	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	203	106	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	203	107	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	203	108	studied	study	VBN
work_pbekm73p7bendalswgkl6f7opm	203	109	.	.	.
work_pbekm73p7bendalswgkl6f7opm	204	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	204	2	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	204	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	204	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	204	5	variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	204	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	204	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	204	8	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	204	9	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	204	10	varying	vary	VBG
work_pbekm73p7bendalswgkl6f7opm	204	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	204	12	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	204	13	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	204	14	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	204	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	205	1	780	780	CD
work_pbekm73p7bendalswgkl6f7opm	205	2	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	205	3	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	205	4	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	205	5	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	205	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	206	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	206	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	206	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	206	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	206	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	206	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	206	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	206	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	206	9	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	206	10	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	206	11	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	206	12	/	/	,
work_pbekm73p7bendalswgkl6f7opm	206	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	206	14	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	206	15	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	206	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	206	17	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	206	18	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	206	19	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	206	20	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	206	21	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	206	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	207	1	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	207	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	207	3	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	207	4	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	207	5	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	207	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	207	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	207	8	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	207	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	208	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	208	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	208	3	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	208	4	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	208	5	increases	increase	VBZ
work_pbekm73p7bendalswgkl6f7opm	208	6	linearly	linearly	JJ
work_pbekm73p7bendalswgkl6f7opm	208	7	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	208	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	208	9	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	208	10	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	208	11	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	208	12	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	208	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	208	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	209	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	209	2	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	209	3	directly	directly	RB
work_pbekm73p7bendalswgkl6f7opm	209	4	reflected	reflect	VBN
work_pbekm73p7bendalswgkl6f7opm	209	5	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	209	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	209	7	following	following	JJ
work_pbekm73p7bendalswgkl6f7opm	209	8	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	209	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	209	10	total	total	VB
work_pbekm73p7bendalswgkl6f7opm	209	11	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	209	12	g	g	NN
work_pbekm73p7bendalswgkl6f7opm	209	13	total	total	NN
work_pbekm73p7bendalswgkl6f7opm	209	14	g	g	NN
work_pbekm73p7bendalswgkl6f7opm	209	15	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	209	16	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	209	17	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	209	18	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	209	19	Tq	tq	NN
work_pbekm73p7bendalswgkl6f7opm	209	20			NN
work_pbekm73p7bendalswgkl6f7opm	209	21	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	209	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	209	23	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	209	24	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	209	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	209	26	11	11	CD
work_pbekm73p7bendalswgkl6f7opm	209	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	209	28	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	209	29	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	209	30	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	209	31	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	209	32	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	209	33	distribution	distribution	NN
work_pbekm73p7bendalswgkl6f7opm	209	34	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	209	35	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	209	36	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	209	37	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	209	38	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	209	39	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	209	40	.	.	.
work_pbekm73p7bendalswgkl6f7opm	210	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	210	2	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	210	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	211	1	Variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	211	2	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	211	3	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	211	4	distribution	distribution	NN
work_pbekm73p7bendalswgkl6f7opm	211	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	211	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	211	7	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	211	8	.	.	.
work_pbekm73p7bendalswgkl6f7opm	212	1	0	0	NFP
work_pbekm73p7bendalswgkl6f7opm	212	2	500	500	CD
work_pbekm73p7bendalswgkl6f7opm	212	3	1000	1000	CD
work_pbekm73p7bendalswgkl6f7opm	212	4	1500	1500	CD
work_pbekm73p7bendalswgkl6f7opm	212	5	2000	2000	CD
work_pbekm73p7bendalswgkl6f7opm	212	6	2500	2500	CD
work_pbekm73p7bendalswgkl6f7opm	212	7	3000	3000	CD
work_pbekm73p7bendalswgkl6f7opm	212	8	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	212	9	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	212	10	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	212	11	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	212	12	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	212	13	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	212	14	H	h	NN
work_pbekm73p7bendalswgkl6f7opm	212	15	ea	ea	NN
work_pbekm73p7bendalswgkl6f7opm	212	16	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	212	17	f	f	XX
work_pbekm73p7bendalswgkl6f7opm	212	18	lo	lo	NNP
work_pbekm73p7bendalswgkl6f7opm	212	19	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	212	20	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	212	21	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	212	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	23	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	212	24	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	212	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	212	26	°	°	,
work_pbekm73p7bendalswgkl6f7opm	212	27	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	212	28	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	29	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	212	30	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	212	31	60	60	CD
work_pbekm73p7bendalswgkl6f7opm	212	32	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	212	33	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	212	34	120	120	CD
work_pbekm73p7bendalswgkl6f7opm	212	35	140	140	CD
work_pbekm73p7bendalswgkl6f7opm	212	36	160	160	CD
work_pbekm73p7bendalswgkl6f7opm	212	37	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	212	38	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	212	39	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	212	40	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	212	41	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	212	42	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	212	43	Te	Te	NNP
work_pbekm73p7bendalswgkl6f7opm	212	44	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	212	45	pe	pe	NN
work_pbekm73p7bendalswgkl6f7opm	212	46	ra	ra	NNP
work_pbekm73p7bendalswgkl6f7opm	212	47	tu	tu	NNP
work_pbekm73p7bendalswgkl6f7opm	212	48	re	re	IN
work_pbekm73p7bendalswgkl6f7opm	212	49	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	212	50	°	°	,
work_pbekm73p7bendalswgkl6f7opm	212	51	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	212	52	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	53	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	212	54	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	212	55	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	212	56	°	°	,
work_pbekm73p7bendalswgkl6f7opm	212	57	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	212	58	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	59	TH	TH	NNP
work_pbekm73p7bendalswgkl6f7opm	212	60	Tc	Tc	NNP
work_pbekm73p7bendalswgkl6f7opm	212	61	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	212	62	Po	Po	NNP
work_pbekm73p7bendalswgkl6f7opm	212	63	Tw	Tw	NNP
work_pbekm73p7bendalswgkl6f7opm	212	64	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	212	65	,	,	,
work_pbekm73p7bendalswgkl6f7opm	212	66	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	212	67	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	212	68	,	,	,
work_pbekm73p7bendalswgkl6f7opm	212	69	o	o	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	70	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	212	71	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	212	72	/	/	,
work_pbekm73p7bendalswgkl6f7opm	212	73	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	212	74	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	212	75	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	212	76	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	212	77	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	212	78	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	212	79	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	212	80	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	212	81	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	212	82	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	212	83	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	212	84	any	any	DT
work_pbekm73p7bendalswgkl6f7opm	212	85	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	212	86	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	212	87	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	212	88	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	212	89	increased	increase	VBD
work_pbekm73p7bendalswgkl6f7opm	212	90	linearly	linearly	RB
work_pbekm73p7bendalswgkl6f7opm	212	91	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	212	92	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	212	93	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	212	94	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	212	95	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	212	96	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	212	97	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	212	98	.	.	.
work_pbekm73p7bendalswgkl6f7opm	213	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	213	2	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	213	3	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	213	4	noted	note	VBN
work_pbekm73p7bendalswgkl6f7opm	213	5	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	213	6	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	213	7	side	side	NN
work_pbekm73p7bendalswgkl6f7opm	213	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	213	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	213	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	11	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	213	12	TC	TC	NNP
work_pbekm73p7bendalswgkl6f7opm	213	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	213	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	15	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	213	16	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	213	17	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	213	18	have	have	VBP
work_pbekm73p7bendalswgkl6f7opm	213	19	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	213	20	relatively	relatively	RB
work_pbekm73p7bendalswgkl6f7opm	213	21	equal	equal	JJ
work_pbekm73p7bendalswgkl6f7opm	213	22	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	213	23	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	213	24	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	213	25	due	due	JJ
work_pbekm73p7bendalswgkl6f7opm	213	26	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	213	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	28	small	small	JJ
work_pbekm73p7bendalswgkl6f7opm	213	29	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	213	30	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	213	31	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	213	32	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	213	33	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	213	34	conductivity	conductivity	NN
work_pbekm73p7bendalswgkl6f7opm	213	35	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	213	36	reflect	reflect	VBP
work_pbekm73p7bendalswgkl6f7opm	213	37	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	38	invisibility	invisibility	NN
work_pbekm73p7bendalswgkl6f7opm	213	39	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	213	40	Tc	Tc	NNP
work_pbekm73p7bendalswgkl6f7opm	213	41	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	213	42	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	43	graph	graph	NN
work_pbekm73p7bendalswgkl6f7opm	213	44	..	..	.
work_pbekm73p7bendalswgkl6f7opm	213	45	Also	also	RB
work_pbekm73p7bendalswgkl6f7opm	213	46	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	213	47	,	,	,
work_pbekm73p7bendalswgkl6f7opm	213	48	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	213	49	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	213	50	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	213	51	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	213	52	,	,	,
work_pbekm73p7bendalswgkl6f7opm	213	53	o	o	PRP
work_pbekm73p7bendalswgkl6f7opm	213	54	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	213	55	approximately	approximately	RB
work_pbekm73p7bendalswgkl6f7opm	213	56	equal	equal	JJ
work_pbekm73p7bendalswgkl6f7opm	213	57	due	due	IN
work_pbekm73p7bendalswgkl6f7opm	213	58	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	213	59	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	60	low	low	JJ
work_pbekm73p7bendalswgkl6f7opm	213	61	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	213	62	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	213	63	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	213	64	tanks	tank	NNS
work_pbekm73p7bendalswgkl6f7opm	213	65	’	’	POS
work_pbekm73p7bendalswgkl6f7opm	213	66	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	213	67	.	.	.
work_pbekm73p7bendalswgkl6f7opm	214	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	214	2	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	214	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	214	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	214	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	214	6	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	214	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	214	8	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	214	9	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	214	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	214	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	214	12	corresponding	correspond	VBG
work_pbekm73p7bendalswgkl6f7opm	214	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	214	14	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	214	15	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	214	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	214	17	two	two	CD
work_pbekm73p7bendalswgkl6f7opm	214	18	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	214	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	214	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	214	21	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	214	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	215	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	215	2	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	215	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	216	1	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	216	2	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	216	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	216	4	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	216	5	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	216	6	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	216	7	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	216	8	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	216	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	217	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	217	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	217	3	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	217	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	217	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	217	6	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	217	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	217	8	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	217	9	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	217	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	217	11	continuously	continuously	RB
work_pbekm73p7bendalswgkl6f7opm	217	12	increasing	increase	VBG
work_pbekm73p7bendalswgkl6f7opm	217	13	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	217	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	217	15	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	217	16	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	217	17	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	217	18	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	217	19	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	217	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	218	1	For	for	IN
work_pbekm73p7bendalswgkl6f7opm	218	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	218	3	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	218	4	°	°	NN
work_pbekm73p7bendalswgkl6f7opm	218	5	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	218	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	218	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	218	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	218	9	0.68	0.68	NFP
work_pbekm73p7bendalswgkl6f7opm	218	10	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	218	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	218	12	electricity	electricity	NN
work_pbekm73p7bendalswgkl6f7opm	218	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	218	14	being	be	VBG
work_pbekm73p7bendalswgkl6f7opm	218	15	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	218	16	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	218	17	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	218	18	36.8	36.8	CD
work_pbekm73p7bendalswgkl6f7opm	218	19	°	°	,
work_pbekm73p7bendalswgkl6f7opm	218	20	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	218	21	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	218	22	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	218	23	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	218	24	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	218	25	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	218	26	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	218	27	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	218	28	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	218	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	218	30	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	218	31	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	218	32	.	.	.
work_pbekm73p7bendalswgkl6f7opm	219	1	While	while	IN
work_pbekm73p7bendalswgkl6f7opm	219	2	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	219	3	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	219	4	°	°	NNS
work_pbekm73p7bendalswgkl6f7opm	219	5	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	219	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	219	7	0.14	0.14	CD
work_pbekm73p7bendalswgkl6f7opm	219	8	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	219	9	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	219	10	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	219	11	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	219	12	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	219	13	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	219	14	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	219	15	17	17	CD
work_pbekm73p7bendalswgkl6f7opm	219	16	°	°	NNS
work_pbekm73p7bendalswgkl6f7opm	219	17	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	219	18	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	219	19	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	219	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	220	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	220	2	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	220	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	220	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	220	5	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	220	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	220	7	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	220	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	220	9	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	220	10	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	220	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	220	12	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	220	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	220	14	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	220	15	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	220	16	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	220	17	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	220	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	220	19	TEGs	TEGs	NNP
work_pbekm73p7bendalswgkl6f7opm	220	20	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	220	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	221	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	221	2	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	221	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	222	1	Total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	222	2	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	222	3	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	222	4	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	222	5	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	222	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	223	1	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	223	2	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	223	3	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	223	4	15	15	CD
work_pbekm73p7bendalswgkl6f7opm	223	5	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	223	6	25	25	CD
work_pbekm73p7bendalswgkl6f7opm	223	7	30	30	CD
work_pbekm73p7bendalswgkl6f7opm	223	8	35	35	CD
work_pbekm73p7bendalswgkl6f7opm	223	9	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	223	10	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	223	11	0.1	0.1	CD
work_pbekm73p7bendalswgkl6f7opm	223	12	0.2	0.2	CD
work_pbekm73p7bendalswgkl6f7opm	223	13	0.3	0.3	CD
work_pbekm73p7bendalswgkl6f7opm	223	14	0.4	0.4	CD
work_pbekm73p7bendalswgkl6f7opm	223	15	0.5	0.5	CD
work_pbekm73p7bendalswgkl6f7opm	223	16	0.6	0.6	CD
work_pbekm73p7bendalswgkl6f7opm	223	17	0.7	0.7	CD
work_pbekm73p7bendalswgkl6f7opm	223	18	0.8	0.8	CD
work_pbekm73p7bendalswgkl6f7opm	223	19	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	223	20	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	223	21	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	223	22	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	223	23	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	223	24	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	223	25	Te	Te	NNP
work_pbekm73p7bendalswgkl6f7opm	223	26	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	223	27	pe	pe	NNP
work_pbekm73p7bendalswgkl6f7opm	223	28	ra	ra	NNP
work_pbekm73p7bendalswgkl6f7opm	223	29	tu	tu	NNP
work_pbekm73p7bendalswgkl6f7opm	223	30	re	re	IN
work_pbekm73p7bendalswgkl6f7opm	223	31	d	d	NNP
work_pbekm73p7bendalswgkl6f7opm	223	32	iff	iff	NNP
work_pbekm73p7bendalswgkl6f7opm	223	33	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	223	34	en	en	FW
work_pbekm73p7bendalswgkl6f7opm	223	35	ce	ce	FW
work_pbekm73p7bendalswgkl6f7opm	223	36	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	223	37	°	°	,
work_pbekm73p7bendalswgkl6f7opm	223	38	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	223	39	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	223	40	Po	Po	NNP
work_pbekm73p7bendalswgkl6f7opm	223	41	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	223	42	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	223	43	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	223	44	ro	ro	NNP
work_pbekm73p7bendalswgkl6f7opm	223	45	du	du	NNP
work_pbekm73p7bendalswgkl6f7opm	223	46	ce	ce	NNP
work_pbekm73p7bendalswgkl6f7opm	223	47	d	d	NNP
work_pbekm73p7bendalswgkl6f7opm	223	48	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	223	49	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	223	50	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	223	51	E	e	NN
work_pbekm73p7bendalswgkl6f7opm	223	52	G	g	NN
work_pbekm73p7bendalswgkl6f7opm	223	53	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	223	54	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	223	55	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	223	56	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	223	57	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	223	58	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	223	59	°	°	,
work_pbekm73p7bendalswgkl6f7opm	223	60	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	223	61	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	223	62	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	223	63	1TEG	1teg	NN
work_pbekm73p7bendalswgkl6f7opm	223	64	∆T	∆T	NNP
work_pbekm73p7bendalswgkl6f7opm	223	65	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	223	66	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	223	67	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	223	68	30	30	CD
work_pbekm73p7bendalswgkl6f7opm	223	69	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	223	70	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	223	71	60	60	CD
work_pbekm73p7bendalswgkl6f7opm	223	72	70	70	CD
work_pbekm73p7bendalswgkl6f7opm	223	73	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	223	74	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	223	75	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	223	76	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	223	77	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	223	78	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	223	79	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	223	80	ta	ta	NNP
work_pbekm73p7bendalswgkl6f7opm	223	81	l	l	NN
work_pbekm73p7bendalswgkl6f7opm	223	82	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	223	83	ow	ow	NN
work_pbekm73p7bendalswgkl6f7opm	223	84	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	223	85	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	223	86	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	223	87	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	223	88	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	223	89	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	223	90	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	223	91	°	°	,
work_pbekm73p7bendalswgkl6f7opm	223	92	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	223	93	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	223	94	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	223	95	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	223	96	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	223	97	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	223	98	.	.	.
work_pbekm73p7bendalswgkl6f7opm	224	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	224	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	224	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	224	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	224	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	224	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	224	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	224	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	224	9	781	781	CD
work_pbekm73p7bendalswgkl6f7opm	224	10	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	224	11	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	224	12	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	224	13	/	/	,
work_pbekm73p7bendalswgkl6f7opm	224	14	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	224	15	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	224	16	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	224	17	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	224	18	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	224	19	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	224	20	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	224	21	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	224	22	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	224	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	225	1	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	225	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	225	3	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	225	4	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	225	5	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	225	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	225	7	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	225	8	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	225	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	226	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	226	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	226	3	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	226	4	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	226	5	increases	increase	VBZ
work_pbekm73p7bendalswgkl6f7opm	226	6	linearly	linearly	JJ
work_pbekm73p7bendalswgkl6f7opm	226	7	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	226	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	226	9	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	226	10	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	226	11	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	226	12	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	226	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	226	14	.	.	.
work_pbekm73p7bendalswgkl6f7opm	227	1	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	227	2	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	227	3	directly	directly	RB
work_pbekm73p7bendalswgkl6f7opm	227	4	reflected	reflect	VBN
work_pbekm73p7bendalswgkl6f7opm	227	5	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	227	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	227	7	following	following	JJ
work_pbekm73p7bendalswgkl6f7opm	227	8	equation	equation	NN
work_pbekm73p7bendalswgkl6f7opm	227	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	227	10	total	total	VB
work_pbekm73p7bendalswgkl6f7opm	227	11	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	227	12	g	g	NN
work_pbekm73p7bendalswgkl6f7opm	227	13	total	total	NN
work_pbekm73p7bendalswgkl6f7opm	227	14	g	g	NN
work_pbekm73p7bendalswgkl6f7opm	227	15	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	227	16	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	227	17	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	227	18	R	r	NN
work_pbekm73p7bendalswgkl6f7opm	227	19	Tq	tq	NN
work_pbekm73p7bendalswgkl6f7opm	227	20			NN
work_pbekm73p7bendalswgkl6f7opm	227	21	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	227	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	227	23	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	227	24	  	  	_SP
work_pbekm73p7bendalswgkl6f7opm	227	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	227	26	11	11	CD
work_pbekm73p7bendalswgkl6f7opm	227	27	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	227	28	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	227	29	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	227	30	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	227	31	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	227	32	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	227	33	distribution	distribution	NN
work_pbekm73p7bendalswgkl6f7opm	227	34	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	227	35	different	different	JJ
work_pbekm73p7bendalswgkl6f7opm	227	36	layers	layer	NNS
work_pbekm73p7bendalswgkl6f7opm	227	37	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	227	38	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	227	39	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	227	40	.	.	.
work_pbekm73p7bendalswgkl6f7opm	228	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	228	2	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	228	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	229	1	Variation	variation	NN
work_pbekm73p7bendalswgkl6f7opm	229	2	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	229	3	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	229	4	distribution	distribution	NN
work_pbekm73p7bendalswgkl6f7opm	229	5	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	229	6	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	229	7	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	229	8	.	.	.
work_pbekm73p7bendalswgkl6f7opm	230	1	0	0	NFP
work_pbekm73p7bendalswgkl6f7opm	230	2	500	500	CD
work_pbekm73p7bendalswgkl6f7opm	230	3	1000	1000	CD
work_pbekm73p7bendalswgkl6f7opm	230	4	1500	1500	CD
work_pbekm73p7bendalswgkl6f7opm	230	5	2000	2000	CD
work_pbekm73p7bendalswgkl6f7opm	230	6	2500	2500	CD
work_pbekm73p7bendalswgkl6f7opm	230	7	3000	3000	CD
work_pbekm73p7bendalswgkl6f7opm	230	8	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	230	9	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	230	10	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	230	11	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	230	12	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	230	13	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	230	14	H	h	NN
work_pbekm73p7bendalswgkl6f7opm	230	15	ea	ea	NN
work_pbekm73p7bendalswgkl6f7opm	230	16	t	t	NNP
work_pbekm73p7bendalswgkl6f7opm	230	17	f	f	XX
work_pbekm73p7bendalswgkl6f7opm	230	18	lo	lo	NNP
work_pbekm73p7bendalswgkl6f7opm	230	19	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	230	20	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	230	21	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	230	22	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	23	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	230	24	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	230	25	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	230	26	°	°	,
work_pbekm73p7bendalswgkl6f7opm	230	27	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	230	28	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	29	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	230	30	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	230	31	60	60	CD
work_pbekm73p7bendalswgkl6f7opm	230	32	80	80	CD
work_pbekm73p7bendalswgkl6f7opm	230	33	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	230	34	120	120	CD
work_pbekm73p7bendalswgkl6f7opm	230	35	140	140	CD
work_pbekm73p7bendalswgkl6f7opm	230	36	160	160	CD
work_pbekm73p7bendalswgkl6f7opm	230	37	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	230	38	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	230	39	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	230	40	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	230	41	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	230	42	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	230	43	Te	Te	NNP
work_pbekm73p7bendalswgkl6f7opm	230	44	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	230	45	pe	pe	NN
work_pbekm73p7bendalswgkl6f7opm	230	46	ra	ra	NNP
work_pbekm73p7bendalswgkl6f7opm	230	47	tu	tu	NNP
work_pbekm73p7bendalswgkl6f7opm	230	48	re	re	IN
work_pbekm73p7bendalswgkl6f7opm	230	49	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	230	50	°	°	,
work_pbekm73p7bendalswgkl6f7opm	230	51	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	230	52	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	53	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	230	54	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	230	55	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	230	56	°	°	,
work_pbekm73p7bendalswgkl6f7opm	230	57	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	230	58	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	59	TH	TH	NNP
work_pbekm73p7bendalswgkl6f7opm	230	60	Tc	Tc	NNP
work_pbekm73p7bendalswgkl6f7opm	230	61	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	230	62	Po	Po	NNP
work_pbekm73p7bendalswgkl6f7opm	230	63	Tw	Tw	NNP
work_pbekm73p7bendalswgkl6f7opm	230	64	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	230	65	,	,	,
work_pbekm73p7bendalswgkl6f7opm	230	66	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	230	67	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	230	68	,	,	,
work_pbekm73p7bendalswgkl6f7opm	230	69	o	o	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	70	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	230	71	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	230	72	/	/	,
work_pbekm73p7bendalswgkl6f7opm	230	73	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	230	74	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	230	75	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	230	76	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	230	77	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	230	78	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	230	79	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	230	80	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	230	81	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	230	82	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	230	83	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	230	84	any	any	DT
work_pbekm73p7bendalswgkl6f7opm	230	85	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	230	86	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	230	87	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	230	88	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	230	89	increased	increase	VBD
work_pbekm73p7bendalswgkl6f7opm	230	90	linearly	linearly	RB
work_pbekm73p7bendalswgkl6f7opm	230	91	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	230	92	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	230	93	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	230	94	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	230	95	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	230	96	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	230	97	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	230	98	.	.	.
work_pbekm73p7bendalswgkl6f7opm	231	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	231	2	should	should	MD
work_pbekm73p7bendalswgkl6f7opm	231	3	be	be	VB
work_pbekm73p7bendalswgkl6f7opm	231	4	noted	note	VBN
work_pbekm73p7bendalswgkl6f7opm	231	5	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	231	6	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	231	7	side	side	NN
work_pbekm73p7bendalswgkl6f7opm	231	8	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	231	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	231	10	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	11	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	231	12	TC	TC	NNP
work_pbekm73p7bendalswgkl6f7opm	231	13	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	231	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	15	outer	outer	JJ
work_pbekm73p7bendalswgkl6f7opm	231	16	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	231	17	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	231	18	have	have	VBP
work_pbekm73p7bendalswgkl6f7opm	231	19	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	231	20	relatively	relatively	RB
work_pbekm73p7bendalswgkl6f7opm	231	21	equal	equal	JJ
work_pbekm73p7bendalswgkl6f7opm	231	22	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	231	23	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	231	24	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	231	25	due	due	JJ
work_pbekm73p7bendalswgkl6f7opm	231	26	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	231	27	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	28	small	small	JJ
work_pbekm73p7bendalswgkl6f7opm	231	29	tube	tube	NN
work_pbekm73p7bendalswgkl6f7opm	231	30	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	231	31	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	231	32	high	high	JJ
work_pbekm73p7bendalswgkl6f7opm	231	33	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	231	34	conductivity	conductivity	NN
work_pbekm73p7bendalswgkl6f7opm	231	35	which	which	WDT
work_pbekm73p7bendalswgkl6f7opm	231	36	reflect	reflect	VBP
work_pbekm73p7bendalswgkl6f7opm	231	37	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	38	invisibility	invisibility	NN
work_pbekm73p7bendalswgkl6f7opm	231	39	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	231	40	Tc	Tc	NNP
work_pbekm73p7bendalswgkl6f7opm	231	41	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	231	42	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	43	graph	graph	NN
work_pbekm73p7bendalswgkl6f7opm	231	44	..	..	.
work_pbekm73p7bendalswgkl6f7opm	231	45	Also	also	RB
work_pbekm73p7bendalswgkl6f7opm	231	46	Twall	Twall	NNP
work_pbekm73p7bendalswgkl6f7opm	231	47	,	,	,
work_pbekm73p7bendalswgkl6f7opm	231	48	i	i	PRP
work_pbekm73p7bendalswgkl6f7opm	231	49	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	231	50	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	231	51	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	231	52	,	,	,
work_pbekm73p7bendalswgkl6f7opm	231	53	o	o	PRP
work_pbekm73p7bendalswgkl6f7opm	231	54	are	be	VBP
work_pbekm73p7bendalswgkl6f7opm	231	55	approximately	approximately	RB
work_pbekm73p7bendalswgkl6f7opm	231	56	equal	equal	JJ
work_pbekm73p7bendalswgkl6f7opm	231	57	due	due	IN
work_pbekm73p7bendalswgkl6f7opm	231	58	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	231	59	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	60	low	low	JJ
work_pbekm73p7bendalswgkl6f7opm	231	61	thickness	thickness	NN
work_pbekm73p7bendalswgkl6f7opm	231	62	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	231	63	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	231	64	tanks	tank	NNS
work_pbekm73p7bendalswgkl6f7opm	231	65	’	’	POS
work_pbekm73p7bendalswgkl6f7opm	231	66	wall	wall	NN
work_pbekm73p7bendalswgkl6f7opm	231	67	.	.	.
work_pbekm73p7bendalswgkl6f7opm	232	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	232	2	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	232	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	232	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	232	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	232	6	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	232	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	232	8	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	232	9	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	232	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	232	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	232	12	corresponding	correspond	VBG
work_pbekm73p7bendalswgkl6f7opm	232	13	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	232	14	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	232	15	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	232	16	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	232	17	two	two	CD
work_pbekm73p7bendalswgkl6f7opm	232	18	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	232	19	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	232	20	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	232	21	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	232	22	.	.	.
work_pbekm73p7bendalswgkl6f7opm	233	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	233	2	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	233	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	234	1	Temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	234	2	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	234	3	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	234	4	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	234	5	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	234	6	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	234	7	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	234	8	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	234	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	235	1	It	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	235	2	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	235	3	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	235	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	235	5	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	235	6	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	235	7	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	235	8	one	one	CD
work_pbekm73p7bendalswgkl6f7opm	235	9	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	235	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	235	11	continuously	continuously	RB
work_pbekm73p7bendalswgkl6f7opm	235	12	increasing	increase	VBG
work_pbekm73p7bendalswgkl6f7opm	235	13	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	235	14	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	235	15	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	235	16	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	235	17	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	235	18	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	235	19	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	235	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	236	1	For	for	IN
work_pbekm73p7bendalswgkl6f7opm	236	2	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	236	3	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	236	4	°	°	NN
work_pbekm73p7bendalswgkl6f7opm	236	5	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	236	6	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	236	7	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	236	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	236	9	0.68	0.68	NFP
work_pbekm73p7bendalswgkl6f7opm	236	10	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	236	11	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	236	12	electricity	electricity	NN
work_pbekm73p7bendalswgkl6f7opm	236	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	236	14	being	be	VBG
work_pbekm73p7bendalswgkl6f7opm	236	15	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	236	16	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	236	17	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	236	18	36.8	36.8	CD
work_pbekm73p7bendalswgkl6f7opm	236	19	°	°	,
work_pbekm73p7bendalswgkl6f7opm	236	20	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	236	21	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	236	22	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	236	23	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	236	24	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	236	25	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	236	26	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	236	27	cold	cold	JJ
work_pbekm73p7bendalswgkl6f7opm	236	28	sides	side	NNS
work_pbekm73p7bendalswgkl6f7opm	236	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	236	30	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	236	31	TEG	teg	NN
work_pbekm73p7bendalswgkl6f7opm	236	32	.	.	.
work_pbekm73p7bendalswgkl6f7opm	237	1	While	while	IN
work_pbekm73p7bendalswgkl6f7opm	237	2	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	237	3	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	237	4	°	°	NNS
work_pbekm73p7bendalswgkl6f7opm	237	5	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	237	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	237	7	0.14	0.14	CD
work_pbekm73p7bendalswgkl6f7opm	237	8	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	237	9	electric	electric	JJ
work_pbekm73p7bendalswgkl6f7opm	237	10	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	237	11	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	237	12	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	237	13	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	237	14	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	237	15	17	17	CD
work_pbekm73p7bendalswgkl6f7opm	237	16	°	°	NNS
work_pbekm73p7bendalswgkl6f7opm	237	17	C	c	NN
work_pbekm73p7bendalswgkl6f7opm	237	18	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	237	19	difference	difference	NN
work_pbekm73p7bendalswgkl6f7opm	237	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	238	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	238	2	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	238	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	238	4	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	238	5	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	238	6	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	238	7	changing	change	VBG
work_pbekm73p7bendalswgkl6f7opm	238	8	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	238	9	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	238	10	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	238	11	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	238	12	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	238	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	238	14	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	238	15	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	238	16	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	238	17	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	238	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	238	19	TEGs	TEGs	NNP
work_pbekm73p7bendalswgkl6f7opm	238	20	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	238	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	239	1	Figure	figure	NN
work_pbekm73p7bendalswgkl6f7opm	239	2	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	239	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	240	1	Total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	240	2	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	240	3	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	240	4	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	240	5	TEGs	teg	NNS
work_pbekm73p7bendalswgkl6f7opm	240	6	.	.	.
work_pbekm73p7bendalswgkl6f7opm	241	1	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	241	2	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	241	3	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	241	4	15	15	CD
work_pbekm73p7bendalswgkl6f7opm	241	5	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	241	6	25	25	CD
work_pbekm73p7bendalswgkl6f7opm	241	7	30	30	CD
work_pbekm73p7bendalswgkl6f7opm	241	8	35	35	CD
work_pbekm73p7bendalswgkl6f7opm	241	9	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	241	10	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	241	11	0.1	0.1	CD
work_pbekm73p7bendalswgkl6f7opm	241	12	0.2	0.2	CD
work_pbekm73p7bendalswgkl6f7opm	241	13	0.3	0.3	CD
work_pbekm73p7bendalswgkl6f7opm	241	14	0.4	0.4	CD
work_pbekm73p7bendalswgkl6f7opm	241	15	0.5	0.5	CD
work_pbekm73p7bendalswgkl6f7opm	241	16	0.6	0.6	CD
work_pbekm73p7bendalswgkl6f7opm	241	17	0.7	0.7	CD
work_pbekm73p7bendalswgkl6f7opm	241	18	0.8	0.8	CD
work_pbekm73p7bendalswgkl6f7opm	241	19	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	241	20	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	241	21	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	241	22	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	241	23	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	241	24	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	241	25	Te	Te	NNP
work_pbekm73p7bendalswgkl6f7opm	241	26	m	m	NNP
work_pbekm73p7bendalswgkl6f7opm	241	27	pe	pe	NNP
work_pbekm73p7bendalswgkl6f7opm	241	28	ra	ra	NNP
work_pbekm73p7bendalswgkl6f7opm	241	29	tu	tu	NNP
work_pbekm73p7bendalswgkl6f7opm	241	30	re	re	IN
work_pbekm73p7bendalswgkl6f7opm	241	31	d	d	NNP
work_pbekm73p7bendalswgkl6f7opm	241	32	iff	iff	NNP
work_pbekm73p7bendalswgkl6f7opm	241	33	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	241	34	en	en	FW
work_pbekm73p7bendalswgkl6f7opm	241	35	ce	ce	FW
work_pbekm73p7bendalswgkl6f7opm	241	36	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	241	37	°	°	,
work_pbekm73p7bendalswgkl6f7opm	241	38	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	241	39	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	241	40	Po	Po	NNP
work_pbekm73p7bendalswgkl6f7opm	241	41	w	w	NNP
work_pbekm73p7bendalswgkl6f7opm	241	42	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	241	43	p	p	NNP
work_pbekm73p7bendalswgkl6f7opm	241	44	ro	ro	NNP
work_pbekm73p7bendalswgkl6f7opm	241	45	du	du	NNP
work_pbekm73p7bendalswgkl6f7opm	241	46	ce	ce	NNP
work_pbekm73p7bendalswgkl6f7opm	241	47	d	d	NNP
work_pbekm73p7bendalswgkl6f7opm	241	48	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	241	49	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	241	50	T	t	NN
work_pbekm73p7bendalswgkl6f7opm	241	51	E	e	NN
work_pbekm73p7bendalswgkl6f7opm	241	52	G	g	NN
work_pbekm73p7bendalswgkl6f7opm	241	53	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	241	54	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	241	55	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	241	56	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	241	57	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	241	58	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	241	59	°	°	,
work_pbekm73p7bendalswgkl6f7opm	241	60	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	241	61	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	241	62	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	241	63	1TEG	1teg	NN
work_pbekm73p7bendalswgkl6f7opm	241	64	∆T	∆T	NNP
work_pbekm73p7bendalswgkl6f7opm	241	65	0	0	CD
work_pbekm73p7bendalswgkl6f7opm	241	66	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	241	67	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	241	68	30	30	CD
work_pbekm73p7bendalswgkl6f7opm	241	69	40	40	CD
work_pbekm73p7bendalswgkl6f7opm	241	70	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	241	71	60	60	CD
work_pbekm73p7bendalswgkl6f7opm	241	72	70	70	CD
work_pbekm73p7bendalswgkl6f7opm	241	73	50	50	CD
work_pbekm73p7bendalswgkl6f7opm	241	74	100	100	CD
work_pbekm73p7bendalswgkl6f7opm	241	75	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	241	76	200	200	CD
work_pbekm73p7bendalswgkl6f7opm	241	77	250	250	CD
work_pbekm73p7bendalswgkl6f7opm	241	78	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	241	79	To	to	TO
work_pbekm73p7bendalswgkl6f7opm	241	80	ta	ta	NNP
work_pbekm73p7bendalswgkl6f7opm	241	81	l	l	NN
work_pbekm73p7bendalswgkl6f7opm	241	82	P	p	NN
work_pbekm73p7bendalswgkl6f7opm	241	83	ow	ow	NN
work_pbekm73p7bendalswgkl6f7opm	241	84	er	er	UH
work_pbekm73p7bendalswgkl6f7opm	241	85	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	241	86	W	w	NN
work_pbekm73p7bendalswgkl6f7opm	241	87	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	241	88	Gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	241	89	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	241	90	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	241	91	°	°	,
work_pbekm73p7bendalswgkl6f7opm	241	92	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	241	93	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	241	94	782	782	CD
work_pbekm73p7bendalswgkl6f7opm	241	95	Hassan	Hassan	NNP
work_pbekm73p7bendalswgkl6f7opm	241	96	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	241	97	et	et	NNP
work_pbekm73p7bendalswgkl6f7opm	241	98	al	al	NNP
work_pbekm73p7bendalswgkl6f7opm	241	99	.	.	.
work_pbekm73p7bendalswgkl6f7opm	242	1	/	/	SYM
work_pbekm73p7bendalswgkl6f7opm	242	2	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	242	3	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	242	4	119	119	CD
work_pbekm73p7bendalswgkl6f7opm	242	5	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	242	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	242	7	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	242	8	775–782	775–782	CD
work_pbekm73p7bendalswgkl6f7opm	242	9	8	8	CD
work_pbekm73p7bendalswgkl6f7opm	242	10	Author	author	NN
work_pbekm73p7bendalswgkl6f7opm	242	11	name	name	NN
work_pbekm73p7bendalswgkl6f7opm	242	12	/	/	,
work_pbekm73p7bendalswgkl6f7opm	242	13	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	242	14	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	242	15	00	00	NFP
work_pbekm73p7bendalswgkl6f7opm	242	16	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	242	17	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	242	18	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	242	19	000–000	000–000	CD
work_pbekm73p7bendalswgkl6f7opm	242	20	When	when	WRB
work_pbekm73p7bendalswgkl6f7opm	242	21	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	22	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	242	23	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	242	24	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	242	25	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	242	26	was	be	VBD
work_pbekm73p7bendalswgkl6f7opm	242	27	150	150	CD
work_pbekm73p7bendalswgkl6f7opm	242	28	°	°	,
work_pbekm73p7bendalswgkl6f7opm	242	29	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	242	30	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	31	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	242	32	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	242	33	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	34	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	242	35	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	242	36	produced	produce	VBN
work_pbekm73p7bendalswgkl6f7opm	242	37	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	38	14	14	CD
work_pbekm73p7bendalswgkl6f7opm	242	39	W	W	NNP
work_pbekm73p7bendalswgkl6f7opm	242	40	,	,	,
work_pbekm73p7bendalswgkl6f7opm	242	41	when	when	WRB
work_pbekm73p7bendalswgkl6f7opm	242	42	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	43	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	242	44	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	242	45	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	242	46	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	47	doubled	double	VBN
work_pbekm73p7bendalswgkl6f7opm	242	48	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	242	49	300	300	CD
work_pbekm73p7bendalswgkl6f7opm	242	50	°	°	,
work_pbekm73p7bendalswgkl6f7opm	242	51	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	242	52	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	242	53	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	54	total	total	JJ
work_pbekm73p7bendalswgkl6f7opm	242	55	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	242	56	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	57	67	67	CD
work_pbekm73p7bendalswgkl6f7opm	242	58	W.	W.	NNP
work_pbekm73p7bendalswgkl6f7opm	242	59	This	this	DT
work_pbekm73p7bendalswgkl6f7opm	242	60	indicates	indicate	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	61	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	242	62	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	63	relation	relation	NN
work_pbekm73p7bendalswgkl6f7opm	242	64	between	between	IN
work_pbekm73p7bendalswgkl6f7opm	242	65	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	242	66	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	242	67	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	242	68	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	242	69	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	242	70	not	not	RB
work_pbekm73p7bendalswgkl6f7opm	242	71	linear	linear	JJ
work_pbekm73p7bendalswgkl6f7opm	242	72	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	242	73	when	when	WRB
work_pbekm73p7bendalswgkl6f7opm	242	74	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	75	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	242	76	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	242	77	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	242	78	doubled	double	VBD
work_pbekm73p7bendalswgkl6f7opm	242	79	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	242	80	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	242	81	increased	increase	VBN
work_pbekm73p7bendalswgkl6f7opm	242	82	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	242	83	times	time	NNS
work_pbekm73p7bendalswgkl6f7opm	242	84	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	242	85	what	what	WP
work_pbekm73p7bendalswgkl6f7opm	242	86	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	242	87	was	be	VBD
work_pbekm73p7bendalswgkl6f7opm	242	88	.	.	.
work_pbekm73p7bendalswgkl6f7opm	243	1	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	243	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	244	1	Conclusion	Conclusion	NNP
work_pbekm73p7bendalswgkl6f7opm	244	2	Heat	Heat	NNP
work_pbekm73p7bendalswgkl6f7opm	244	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	244	4	offers	offer	VBZ
work_pbekm73p7bendalswgkl6f7opm	244	5	an	an	DT
work_pbekm73p7bendalswgkl6f7opm	244	6	excellent	excellent	JJ
work_pbekm73p7bendalswgkl6f7opm	244	7	opportunity	opportunity	NN
work_pbekm73p7bendalswgkl6f7opm	244	8	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	244	9	cost	cost	NN
work_pbekm73p7bendalswgkl6f7opm	244	10	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	244	11	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	244	12	saving	saving	NN
work_pbekm73p7bendalswgkl6f7opm	244	13	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	244	14	industrial	industrial	JJ
work_pbekm73p7bendalswgkl6f7opm	244	15	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	244	16	residential	residential	JJ
work_pbekm73p7bendalswgkl6f7opm	244	17	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	244	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	245	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	245	2	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	245	3	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	245	4	process	process	NN
work_pbekm73p7bendalswgkl6f7opm	245	5	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	245	6	mainly	mainly	RB
work_pbekm73p7bendalswgkl6f7opm	245	7	affected	affect	VBN
work_pbekm73p7bendalswgkl6f7opm	245	8	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	245	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	245	10	quality	quality	NN
work_pbekm73p7bendalswgkl6f7opm	245	11	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	245	12	quantity	quantity	NN
work_pbekm73p7bendalswgkl6f7opm	245	13	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	245	14	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	245	15	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	245	16	lost	lose	VBN
work_pbekm73p7bendalswgkl6f7opm	245	17	.	.	.
work_pbekm73p7bendalswgkl6f7opm	246	1	In	in	IN
work_pbekm73p7bendalswgkl6f7opm	246	2	other	other	JJ
work_pbekm73p7bendalswgkl6f7opm	246	3	words	word	NNS
work_pbekm73p7bendalswgkl6f7opm	246	4	,	,	,
work_pbekm73p7bendalswgkl6f7opm	246	5	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	246	6	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	246	7	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	246	8	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	246	9	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	246	10	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	246	11	affected	affect	VBN
work_pbekm73p7bendalswgkl6f7opm	246	12	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	246	13	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	246	14	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	246	15	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	246	16	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	246	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	246	18	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	246	19	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	246	20	.	.	.
work_pbekm73p7bendalswgkl6f7opm	247	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	247	2	effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	247	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	247	4	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	247	5	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	247	6	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	247	7	a	a	DT
work_pbekm73p7bendalswgkl6f7opm	247	8	proposed	propose	VBN
work_pbekm73p7bendalswgkl6f7opm	247	9	hybrid	hybrid	JJ
work_pbekm73p7bendalswgkl6f7opm	247	10	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	247	11	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	247	12	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	247	13	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	247	14	studied	study	VBN
work_pbekm73p7bendalswgkl6f7opm	247	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	248	1	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	248	2	domestic	domestic	JJ
work_pbekm73p7bendalswgkl6f7opm	248	3	thermoelectric	thermoelectric	NN
work_pbekm73p7bendalswgkl6f7opm	248	4	cogeneration	cogeneration	NN
work_pbekm73p7bendalswgkl6f7opm	248	5	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	248	6	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	248	7	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	248	8	is	be	VBZ
work_pbekm73p7bendalswgkl6f7opm	248	9	utilized	utilize	VBN
work_pbekm73p7bendalswgkl6f7opm	248	10	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	248	11	this	this	DT
work_pbekm73p7bendalswgkl6f7opm	248	12	study	study	NN
work_pbekm73p7bendalswgkl6f7opm	248	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	249	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	249	2	results	result	NNS
work_pbekm73p7bendalswgkl6f7opm	249	3	shows	show	VBZ
work_pbekm73p7bendalswgkl6f7opm	249	4	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	249	5	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	249	6	increasing	increase	VBG
work_pbekm73p7bendalswgkl6f7opm	249	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	249	8	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	249	9	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	249	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	249	11	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	249	12	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	249	13	rate	rate	NN
work_pbekm73p7bendalswgkl6f7opm	249	14	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	249	15	temperatures	temperature	NNS
work_pbekm73p7bendalswgkl6f7opm	249	16	at	at	IN
work_pbekm73p7bendalswgkl6f7opm	249	17	each	each	DT
work_pbekm73p7bendalswgkl6f7opm	249	18	layer	layer	NN
work_pbekm73p7bendalswgkl6f7opm	249	19	increase	increase	VB
work_pbekm73p7bendalswgkl6f7opm	249	20	linearly	linearly	RB
work_pbekm73p7bendalswgkl6f7opm	249	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	250	1	The	the	DT
work_pbekm73p7bendalswgkl6f7opm	250	2	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	250	3	generated	generate	VBN
work_pbekm73p7bendalswgkl6f7opm	250	4	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	250	5	TEG	TEG	NNP
work_pbekm73p7bendalswgkl6f7opm	250	6	progressively	progressively	RB
work_pbekm73p7bendalswgkl6f7opm	250	7	increases	increase	VBZ
work_pbekm73p7bendalswgkl6f7opm	250	8	with	with	IN
work_pbekm73p7bendalswgkl6f7opm	250	9	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	250	10	increase	increase	NN
work_pbekm73p7bendalswgkl6f7opm	250	11	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	250	12	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	250	13	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	250	14	temperature	temperature	NN
work_pbekm73p7bendalswgkl6f7opm	250	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	251	1	Also	also	RB
work_pbekm73p7bendalswgkl6f7opm	251	2	it	-PRON-	PRP
work_pbekm73p7bendalswgkl6f7opm	251	3	was	be	VBD
work_pbekm73p7bendalswgkl6f7opm	251	4	shown	show	VBN
work_pbekm73p7bendalswgkl6f7opm	251	5	that	that	IN
work_pbekm73p7bendalswgkl6f7opm	251	6	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	251	7	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	251	8	utilized	utilized	JJ
work_pbekm73p7bendalswgkl6f7opm	251	9	configuration	configuration	NN
work_pbekm73p7bendalswgkl6f7opm	251	10	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	251	11	HHRS	HHRS	NNP
work_pbekm73p7bendalswgkl6f7opm	251	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	251	13	when	when	WRB
work_pbekm73p7bendalswgkl6f7opm	251	14	doubling	double	VBG
work_pbekm73p7bendalswgkl6f7opm	251	15	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	251	16	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	251	17	temperature	temperature	VBP
work_pbekm73p7bendalswgkl6f7opm	251	18	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	251	19	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	251	20	produced	produce	VBD
work_pbekm73p7bendalswgkl6f7opm	251	21	increases	increase	NNS
work_pbekm73p7bendalswgkl6f7opm	251	22	about	about	IN
work_pbekm73p7bendalswgkl6f7opm	251	23	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	251	24	times	time	NNS
work_pbekm73p7bendalswgkl6f7opm	251	25	more	more	JJR
work_pbekm73p7bendalswgkl6f7opm	251	26	.	.	.
work_pbekm73p7bendalswgkl6f7opm	252	1	References	reference	NNS
work_pbekm73p7bendalswgkl6f7opm	252	2	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	252	3	1	1	CD
work_pbekm73p7bendalswgkl6f7opm	252	4	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	252	5	Williams	Williams	NNP
work_pbekm73p7bendalswgkl6f7opm	252	6	A.	a.	NN
work_pbekm73p7bendalswgkl6f7opm	252	7	,	,	,
work_pbekm73p7bendalswgkl6f7opm	252	8	Kennedy	Kennedy	NNP
work_pbekm73p7bendalswgkl6f7opm	252	9	S.	S.	NNP
work_pbekm73p7bendalswgkl6f7opm	252	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	252	11	Philipp	Philipp	NNP
work_pbekm73p7bendalswgkl6f7opm	252	12	F.	F.	NNP
work_pbekm73p7bendalswgkl6f7opm	252	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	252	14	Whiteman	Whiteman	NNP
work_pbekm73p7bendalswgkl6f7opm	252	15	G.	G.	NNP
work_pbekm73p7bendalswgkl6f7opm	252	16	Systems	Systems	NNP
work_pbekm73p7bendalswgkl6f7opm	252	17	thinking	thinking	NN
work_pbekm73p7bendalswgkl6f7opm	252	18	:	:	:
work_pbekm73p7bendalswgkl6f7opm	252	19	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	252	20	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	252	21	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	252	22	sustainability	sustainability	NN
work_pbekm73p7bendalswgkl6f7opm	252	23	management	management	NN
work_pbekm73p7bendalswgkl6f7opm	252	24	research	research	NN
work_pbekm73p7bendalswgkl6f7opm	252	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	253	1	Journal	Journal	NNP
work_pbekm73p7bendalswgkl6f7opm	253	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	253	3	Cleaner	Cleaner	NNP
work_pbekm73p7bendalswgkl6f7opm	253	4	Production	Production	NNP
work_pbekm73p7bendalswgkl6f7opm	253	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	253	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	253	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	253	8	148	148	CD
work_pbekm73p7bendalswgkl6f7opm	253	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	253	10	866	866	CD
work_pbekm73p7bendalswgkl6f7opm	253	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	253	12	881	881	CD
work_pbekm73p7bendalswgkl6f7opm	253	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	254	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	254	2	2	2	LS
work_pbekm73p7bendalswgkl6f7opm	254	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	254	4	Herez	Herez	NNP
work_pbekm73p7bendalswgkl6f7opm	254	5	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	254	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	254	7	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	254	8	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	254	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	254	10	Abdulhay	Abdulhay	NNP
work_pbekm73p7bendalswgkl6f7opm	254	11	B	B	NNP
work_pbekm73p7bendalswgkl6f7opm	254	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	254	13	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	254	14	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	254	15	Short	Short	NNP
work_pbekm73p7bendalswgkl6f7opm	254	16	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	254	17	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	254	18	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	254	19	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	254	20	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	254	21	.	.	.
work_pbekm73p7bendalswgkl6f7opm	255	1	AIP	AIP	NNP
work_pbekm73p7bendalswgkl6f7opm	255	2	Conference	Conference	NNP
work_pbekm73p7bendalswgkl6f7opm	255	3	Proceedings	Proceedings	NNP
work_pbekm73p7bendalswgkl6f7opm	255	4	2016;1758,1	2016;1758,1	CD
work_pbekm73p7bendalswgkl6f7opm	255	5	:	:	:
work_pbekm73p7bendalswgkl6f7opm	255	6	10.1063/1.4959437	10.1063/1.4959437	CD
work_pbekm73p7bendalswgkl6f7opm	255	7	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	255	8	3	3	CD
work_pbekm73p7bendalswgkl6f7opm	255	9	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	255	10	F.	F.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	11	Hachem	Hachem	NNP
work_pbekm73p7bendalswgkl6f7opm	255	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	13	B.	B.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	14	Abdulhay	Abdulhay	NNP
work_pbekm73p7bendalswgkl6f7opm	255	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	16	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	17	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	255	18	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	19	H.	H.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	20	El	El	NNP
work_pbekm73p7bendalswgkl6f7opm	255	21	Hage	Hage	NNP
work_pbekm73p7bendalswgkl6f7opm	255	22	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	23	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	24	Gad	Gad	NNP
work_pbekm73p7bendalswgkl6f7opm	255	25	El	El	NNP
work_pbekm73p7bendalswgkl6f7opm	255	26	Rab	Rab	NNP
work_pbekm73p7bendalswgkl6f7opm	255	27	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	28	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	255	29	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	255	30	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	31	Improving	improve	VBG
work_pbekm73p7bendalswgkl6f7opm	255	32	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	255	33	performance	performance	NN
work_pbekm73p7bendalswgkl6f7opm	255	34	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	255	35	photovoltaic	photovoltaic	NNP
work_pbekm73p7bendalswgkl6f7opm	255	36	cells	cell	NNS
work_pbekm73p7bendalswgkl6f7opm	255	37	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	255	38	pure	pure	JJ
work_pbekm73p7bendalswgkl6f7opm	255	39	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	255	40	combined	combined	JJ
work_pbekm73p7bendalswgkl6f7opm	255	41	phase	phase	NN
work_pbekm73p7bendalswgkl6f7opm	255	42	change	change	NN
work_pbekm73p7bendalswgkl6f7opm	255	43	materials	material	NNS
work_pbekm73p7bendalswgkl6f7opm	255	44	–	–	:
work_pbekm73p7bendalswgkl6f7opm	255	45	Experiments	experiment	NNS
work_pbekm73p7bendalswgkl6f7opm	255	46	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	255	47	transient	transient	JJ
work_pbekm73p7bendalswgkl6f7opm	255	48	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	255	49	balance	balance	NN
work_pbekm73p7bendalswgkl6f7opm	255	50	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	51	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	255	52	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	255	53	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	54	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	255	55	;	;	:
work_pbekm73p7bendalswgkl6f7opm	255	56	107	107	CD
work_pbekm73p7bendalswgkl6f7opm	255	57	,	,	,
work_pbekm73p7bendalswgkl6f7opm	255	58	567	567	CD
work_pbekm73p7bendalswgkl6f7opm	255	59	–	–	:
work_pbekm73p7bendalswgkl6f7opm	255	60	575	575	CD
work_pbekm73p7bendalswgkl6f7opm	255	61	.	.	.
work_pbekm73p7bendalswgkl6f7opm	256	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	256	2	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	256	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	256	4	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	256	5	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	256	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	256	7	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	256	8	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	256	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	256	10	H.S.	H.S.	NNP
work_pbekm73p7bendalswgkl6f7opm	257	1	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	257	2	,	,	,
work_pbekm73p7bendalswgkl6f7opm	257	3	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	257	4	Becherif	Becherif	NNP
work_pbekm73p7bendalswgkl6f7opm	257	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	257	6	Modeling	Modeling	NNP
work_pbekm73p7bendalswgkl6f7opm	257	7	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	257	8	sizing	sizing	NN
work_pbekm73p7bendalswgkl6f7opm	257	9	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	257	10	combined	combined	JJ
work_pbekm73p7bendalswgkl6f7opm	257	11	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	257	12	cell	cell	NN
work_pbekm73p7bendalswgkl6f7opm	257	13	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	257	14	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	257	15	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	257	16	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	257	17	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	257	18	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	257	19	generation	generation	NN
work_pbekm73p7bendalswgkl6f7opm	257	20	,	,	,
work_pbekm73p7bendalswgkl6f7opm	257	21	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	257	22	Journal	Journal	NNP
work_pbekm73p7bendalswgkl6f7opm	257	23	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	257	24	Hydrogen	Hydrogen	NNP
work_pbekm73p7bendalswgkl6f7opm	257	25	Energ	Energ	NNP
work_pbekm73p7bendalswgkl6f7opm	257	26	,	,	,
work_pbekm73p7bendalswgkl6f7opm	257	27	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	257	28	;	;	:
work_pbekm73p7bendalswgkl6f7opm	257	29	41	41	CD
work_pbekm73p7bendalswgkl6f7opm	257	30	,	,	,
work_pbekm73p7bendalswgkl6f7opm	257	31	19929–19935	19929–19935	CD
work_pbekm73p7bendalswgkl6f7opm	257	32	.	.	.
work_pbekm73p7bendalswgkl6f7opm	258	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	258	2	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	258	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	258	4	Plaza	Plaza	NNP
work_pbekm73p7bendalswgkl6f7opm	258	5	D	D	NNP
work_pbekm73p7bendalswgkl6f7opm	258	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	258	7	Martinez	Martinez	NNP
work_pbekm73p7bendalswgkl6f7opm	258	8	I	I	NNP
work_pbekm73p7bendalswgkl6f7opm	258	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	258	10	Gasch	Gasch	NNP
work_pbekm73p7bendalswgkl6f7opm	258	11	G	G	NNP
work_pbekm73p7bendalswgkl6f7opm	258	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	258	13	Sufrategui	Sufrategui	NNP
work_pbekm73p7bendalswgkl6f7opm	258	14	F	F	NNP
work_pbekm73p7bendalswgkl6f7opm	258	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	258	16	García	García	NNP
work_pbekm73p7bendalswgkl6f7opm	258	17	J.	J.	NNP
work_pbekm73p7bendalswgkl6f7opm	259	1	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	259	2	Case	Case	NNP
work_pbekm73p7bendalswgkl6f7opm	259	3	Study	Study	NNP
work_pbekm73p7bendalswgkl6f7opm	259	4	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	259	5	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	259	6	Feasibility	Feasibility	NNP
work_pbekm73p7bendalswgkl6f7opm	259	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	259	8	Using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	259	9	Solar	Solar	NNP
work_pbekm73p7bendalswgkl6f7opm	259	10	Concentrating	Concentrating	NNP
work_pbekm73p7bendalswgkl6f7opm	259	11	Technologies	Technologies	NNPS
work_pbekm73p7bendalswgkl6f7opm	259	12	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	259	13	Manufacturing	Manufacturing	NNP
work_pbekm73p7bendalswgkl6f7opm	259	14	Ceramics	Ceramics	NNP
work_pbekm73p7bendalswgkl6f7opm	259	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	260	1	Journal	Journal	NNP
work_pbekm73p7bendalswgkl6f7opm	260	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	260	3	Cleaner	Cleaner	NNP
work_pbekm73p7bendalswgkl6f7opm	260	4	Production	Production	NNP
work_pbekm73p7bendalswgkl6f7opm	260	5	2015	2015	CD
work_pbekm73p7bendalswgkl6f7opm	260	6	;	;	:
work_pbekm73p7bendalswgkl6f7opm	260	7	87	87	CD
work_pbekm73p7bendalswgkl6f7opm	260	8	:	:	:
work_pbekm73p7bendalswgkl6f7opm	260	9	977–991	977–991	CD
work_pbekm73p7bendalswgkl6f7opm	260	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	261	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	261	2	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	261	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	261	4	Kalogirou	Kalogirou	NNP
work_pbekm73p7bendalswgkl6f7opm	261	5	S.	S.	NNP
work_pbekm73p7bendalswgkl6f7opm	261	6	Solar	Solar	NNP
work_pbekm73p7bendalswgkl6f7opm	261	7	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	261	8	collectors	collector	NNS
work_pbekm73p7bendalswgkl6f7opm	261	9	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	261	10	applications	application	NNS
work_pbekm73p7bendalswgkl6f7opm	261	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	262	1	Progress	progress	NN
work_pbekm73p7bendalswgkl6f7opm	262	2	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	262	3	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	262	4	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	262	5	Combustion	Combustion	NNP
work_pbekm73p7bendalswgkl6f7opm	262	6	Science	Science	NNP
work_pbekm73p7bendalswgkl6f7opm	262	7	2004	2004	CD
work_pbekm73p7bendalswgkl6f7opm	262	8	;	;	:
work_pbekm73p7bendalswgkl6f7opm	262	9	30	30	CD
work_pbekm73p7bendalswgkl6f7opm	262	10	:	:	:
work_pbekm73p7bendalswgkl6f7opm	262	11	231–295	231–295	CD
work_pbekm73p7bendalswgkl6f7opm	262	12	.	.	.
work_pbekm73p7bendalswgkl6f7opm	263	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	263	2	7	7	CD
work_pbekm73p7bendalswgkl6f7opm	263	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	263	4	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	263	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	263	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	263	7	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	263	8	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	263	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	263	10	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	263	11	H	H	NNP
work_pbekm73p7bendalswgkl6f7opm	263	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	263	13	Becherif	Becherif	NNP
work_pbekm73p7bendalswgkl6f7opm	263	14	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	263	15	Modeling	Modeling	NNP
work_pbekm73p7bendalswgkl6f7opm	263	16	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	263	17	sizing	sizing	NN
work_pbekm73p7bendalswgkl6f7opm	263	18	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	263	19	combined	combined	JJ
work_pbekm73p7bendalswgkl6f7opm	263	20	fuel	fuel	NN
work_pbekm73p7bendalswgkl6f7opm	263	21	cell	cell	NN
work_pbekm73p7bendalswgkl6f7opm	263	22	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	263	23	thermal	thermal	JJ
work_pbekm73p7bendalswgkl6f7opm	263	24	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	263	25	system	system	NN
work_pbekm73p7bendalswgkl6f7opm	263	26	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	263	27	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	263	28	generation	generation	NN
work_pbekm73p7bendalswgkl6f7opm	263	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	264	1	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	264	2	Journal	Journal	NNP
work_pbekm73p7bendalswgkl6f7opm	264	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	264	4	Hydrogen	Hydrogen	NNP
work_pbekm73p7bendalswgkl6f7opm	264	5	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	264	6	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	264	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	264	8	41	41	CD
work_pbekm73p7bendalswgkl6f7opm	264	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	264	10	44	44	CD
work_pbekm73p7bendalswgkl6f7opm	264	11	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	264	12	19929	19929	CD
work_pbekm73p7bendalswgkl6f7opm	264	13	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	264	14	19935	19935	CD
work_pbekm73p7bendalswgkl6f7opm	264	15	.	.	.
work_pbekm73p7bendalswgkl6f7opm	265	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	265	2	8	8	CD
work_pbekm73p7bendalswgkl6f7opm	265	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	265	4	Cherubini	Cherubini	NNP
work_pbekm73p7bendalswgkl6f7opm	265	5	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	265	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	265	7	Papini	Papini	NNP
work_pbekm73p7bendalswgkl6f7opm	265	8	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	265	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	265	10	Vertechy	Vertechy	NNP
work_pbekm73p7bendalswgkl6f7opm	265	11	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	265	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	265	13	Fontana	Fontana	NNP
work_pbekm73p7bendalswgkl6f7opm	265	14	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	265	15	Airborne	Airborne	NNP
work_pbekm73p7bendalswgkl6f7opm	265	16	Wind	Wind	NNP
work_pbekm73p7bendalswgkl6f7opm	265	17	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	265	18	Systems	Systems	NNPS
work_pbekm73p7bendalswgkl6f7opm	265	19	:	:	:
work_pbekm73p7bendalswgkl6f7opm	265	20	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	265	21	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	265	22	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	265	23	the	the	DT
work_pbekm73p7bendalswgkl6f7opm	265	24	technologies	technology	NNS
work_pbekm73p7bendalswgkl6f7opm	265	25	.	.	.
work_pbekm73p7bendalswgkl6f7opm	266	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	266	2	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	266	3	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	266	4	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	266	5	Reviews	Reviews	NNP
work_pbekm73p7bendalswgkl6f7opm	266	6	2015	2015	CD
work_pbekm73p7bendalswgkl6f7opm	266	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	266	8	51	51	CD
work_pbekm73p7bendalswgkl6f7opm	266	9	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	266	10	1461	1461	CD
work_pbekm73p7bendalswgkl6f7opm	266	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	266	12	1476	1476	CD
work_pbekm73p7bendalswgkl6f7opm	266	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	267	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	267	2	9	9	CD
work_pbekm73p7bendalswgkl6f7opm	267	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	267	4	Giwa	Giwa	NNP
work_pbekm73p7bendalswgkl6f7opm	267	5	A	a	NN
work_pbekm73p7bendalswgkl6f7opm	267	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	267	7	Alabi	Alabi	NNP
work_pbekm73p7bendalswgkl6f7opm	267	8	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	267	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	267	10	Yusuf	Yusuf	NNP
work_pbekm73p7bendalswgkl6f7opm	267	11	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	267	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	267	13	Olukan	Olukan	NNP
work_pbekm73p7bendalswgkl6f7opm	267	14	T.	T.	NNP
work_pbekm73p7bendalswgkl6f7opm	267	15	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	267	16	comprehensive	comprehensive	JJ
work_pbekm73p7bendalswgkl6f7opm	267	17	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	267	18	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	267	19	biomass	biomass	NN
work_pbekm73p7bendalswgkl6f7opm	267	20	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	267	21	solar	solar	JJ
work_pbekm73p7bendalswgkl6f7opm	267	22	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	267	23	for	for	IN
work_pbekm73p7bendalswgkl6f7opm	267	24	sustainable	sustainable	JJ
work_pbekm73p7bendalswgkl6f7opm	267	25	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	267	26	generation	generation	NN
work_pbekm73p7bendalswgkl6f7opm	267	27	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	267	28	Nigeria	Nigeria	NNP
work_pbekm73p7bendalswgkl6f7opm	267	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	268	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	268	2	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	268	3	Sustainable	sustainable	JJ
work_pbekm73p7bendalswgkl6f7opm	268	4	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	268	5	Reviews	Reviews	NNP
work_pbekm73p7bendalswgkl6f7opm	268	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	268	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	268	8	69	69	CD
work_pbekm73p7bendalswgkl6f7opm	268	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	268	10	620	620	CD
work_pbekm73p7bendalswgkl6f7opm	268	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	268	12	641	641	CD
work_pbekm73p7bendalswgkl6f7opm	268	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	269	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	269	2	10	10	CD
work_pbekm73p7bendalswgkl6f7opm	269	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	269	4	Brimmo	Brimmo	NNP
work_pbekm73p7bendalswgkl6f7opm	269	5	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	269	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	269	7	Sodiq	Sodiq	NNP
work_pbekm73p7bendalswgkl6f7opm	269	8	A	A	NNP
work_pbekm73p7bendalswgkl6f7opm	269	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	269	10	Sofela	Sofela	NNP
work_pbekm73p7bendalswgkl6f7opm	269	11	S	S	NNP
work_pbekm73p7bendalswgkl6f7opm	269	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	269	13	Kolo	Kolo	NNP
work_pbekm73p7bendalswgkl6f7opm	269	14	I.	I.	NNP
work_pbekm73p7bendalswgkl6f7opm	270	1	Sustainable	sustainable	JJ
work_pbekm73p7bendalswgkl6f7opm	270	2	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	270	3	development	development	NN
work_pbekm73p7bendalswgkl6f7opm	270	4	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	270	5	Nigeria	Nigeria	NNP
work_pbekm73p7bendalswgkl6f7opm	270	6	:	:	:
work_pbekm73p7bendalswgkl6f7opm	270	7	Wind	wind	NN
work_pbekm73p7bendalswgkl6f7opm	270	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	270	9	hydropower	hydropower	NN
work_pbekm73p7bendalswgkl6f7opm	270	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	270	11	geothermal	geothermal	JJ
work_pbekm73p7bendalswgkl6f7opm	270	12	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	270	13	nuclear	nuclear	JJ
work_pbekm73p7bendalswgkl6f7opm	270	14	(	(	-LRB-
work_pbekm73p7bendalswgkl6f7opm	270	15	Vol	Vol	NNP
work_pbekm73p7bendalswgkl6f7opm	270	16	.	.	.
work_pbekm73p7bendalswgkl6f7opm	271	1	1	1	LS
work_pbekm73p7bendalswgkl6f7opm	271	2	)	)	-RRB-
work_pbekm73p7bendalswgkl6f7opm	271	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	272	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	272	2	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	272	3	Sustainable	sustainable	JJ
work_pbekm73p7bendalswgkl6f7opm	272	4	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	272	5	Reviews	Reviews	NNP
work_pbekm73p7bendalswgkl6f7opm	272	6	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	272	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	272	8	74	74	CD
work_pbekm73p7bendalswgkl6f7opm	272	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	272	10	474	474	CD
work_pbekm73p7bendalswgkl6f7opm	272	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	272	12	490	490	CD
work_pbekm73p7bendalswgkl6f7opm	272	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	273	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	273	2	11	11	CD
work_pbekm73p7bendalswgkl6f7opm	273	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	273	4	Tomasini	Tomasini	NNP
work_pbekm73p7bendalswgkl6f7opm	273	5	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	273	6	Montenegro	Montenegro	NNP
work_pbekm73p7bendalswgkl6f7opm	273	7	C	C	NNP
work_pbekm73p7bendalswgkl6f7opm	273	8	,	,	,
work_pbekm73p7bendalswgkl6f7opm	273	9	Santoyo	Santoyo	NNP
work_pbekm73p7bendalswgkl6f7opm	273	10	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	273	11	Castelazo	Castelazo	NNP
work_pbekm73p7bendalswgkl6f7opm	273	12	E	E	NNP
work_pbekm73p7bendalswgkl6f7opm	273	13	,	,	,
work_pbekm73p7bendalswgkl6f7opm	273	14	Gujba	Gujba	NNP
work_pbekm73p7bendalswgkl6f7opm	273	15	H	H	NNP
work_pbekm73p7bendalswgkl6f7opm	273	16	,	,	,
work_pbekm73p7bendalswgkl6f7opm	273	17	Romero	Romero	NNP
work_pbekm73p7bendalswgkl6f7opm	273	18	R	R	NNP
work_pbekm73p7bendalswgkl6f7opm	273	19	,	,	,
work_pbekm73p7bendalswgkl6f7opm	273	20	Santoyo	Santoyo	NNP
work_pbekm73p7bendalswgkl6f7opm	273	21	E.	E.	NNP
work_pbekm73p7bendalswgkl6f7opm	273	22	Life	Life	NNP
work_pbekm73p7bendalswgkl6f7opm	273	23	cycle	cycle	NN
work_pbekm73p7bendalswgkl6f7opm	273	24	assessment	assessment	NN
work_pbekm73p7bendalswgkl6f7opm	273	25	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	273	26	geothermal	geothermal	JJ
work_pbekm73p7bendalswgkl6f7opm	273	27	power	power	NN
work_pbekm73p7bendalswgkl6f7opm	273	28	generation	generation	NN
work_pbekm73p7bendalswgkl6f7opm	273	29	technologies	technology	NNS
work_pbekm73p7bendalswgkl6f7opm	273	30	:	:	:
work_pbekm73p7bendalswgkl6f7opm	273	31	An	an	DT
work_pbekm73p7bendalswgkl6f7opm	273	32	updated	update	VBN
work_pbekm73p7bendalswgkl6f7opm	273	33	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	273	34	.	.	.
work_pbekm73p7bendalswgkl6f7opm	274	1	Applied	Applied	NNP
work_pbekm73p7bendalswgkl6f7opm	274	2	Thermal	Thermal	NNP
work_pbekm73p7bendalswgkl6f7opm	274	3	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	274	4	2017	2017	CD
work_pbekm73p7bendalswgkl6f7opm	274	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	274	6	114	114	CD
work_pbekm73p7bendalswgkl6f7opm	274	7	:	:	:
work_pbekm73p7bendalswgkl6f7opm	274	8	1119	1119	CD
work_pbekm73p7bendalswgkl6f7opm	274	9	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	274	10	1136	1136	CD
work_pbekm73p7bendalswgkl6f7opm	274	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	275	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	275	2	12	12	CD
work_pbekm73p7bendalswgkl6f7opm	275	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	275	4	Lee	Lee	NNP
work_pbekm73p7bendalswgkl6f7opm	275	5	D	D	NNP
work_pbekm73p7bendalswgkl6f7opm	275	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	275	7	Cheng	Cheng	NNP
work_pbekm73p7bendalswgkl6f7opm	275	8	C.	C.	NNP
work_pbekm73p7bendalswgkl6f7opm	275	9	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	275	10	savings	saving	NNS
work_pbekm73p7bendalswgkl6f7opm	275	11	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	275	12	energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	275	13	management	management	NN
work_pbekm73p7bendalswgkl6f7opm	275	14	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	275	15	:	:	:
work_pbekm73p7bendalswgkl6f7opm	275	16	A	a	DT
work_pbekm73p7bendalswgkl6f7opm	275	17	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	275	18	.	.	.
work_pbekm73p7bendalswgkl6f7opm	276	1	Renewable	renewable	JJ
work_pbekm73p7bendalswgkl6f7opm	276	2	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	276	3	Sustainable	Sustainable	NNP
work_pbekm73p7bendalswgkl6f7opm	276	4	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	276	5	Reviews	Reviews	NNP
work_pbekm73p7bendalswgkl6f7opm	276	6	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	276	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	276	8	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	276	9	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	276	10	760–777	760–777	CD
work_pbekm73p7bendalswgkl6f7opm	276	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	277	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	277	2	13	13	CD
work_pbekm73p7bendalswgkl6f7opm	277	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	277	4	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	277	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	277	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	277	7	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	277	8	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	277	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	277	10	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	277	11	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	277	12	Recovering	Recovering	NNP
work_pbekm73p7bendalswgkl6f7opm	277	13	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	277	14	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	277	15	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	277	16	drain	drain	NN
work_pbekm73p7bendalswgkl6f7opm	277	17	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	277	18	—	—	:
work_pbekm73p7bendalswgkl6f7opm	277	19	Experimental	experimental	JJ
work_pbekm73p7bendalswgkl6f7opm	277	20	evaluation	evaluation	NN
work_pbekm73p7bendalswgkl6f7opm	277	21	,	,	,
work_pbekm73p7bendalswgkl6f7opm	277	22	parametric	parametric	JJ
work_pbekm73p7bendalswgkl6f7opm	277	23	analysis	analysis	NN
work_pbekm73p7bendalswgkl6f7opm	277	24	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	277	25	new	new	JJ
work_pbekm73p7bendalswgkl6f7opm	277	26	calculation	calculation	NN
work_pbekm73p7bendalswgkl6f7opm	277	27	procedure	procedure	NN
work_pbekm73p7bendalswgkl6f7opm	277	28	.	.	.
work_pbekm73p7bendalswgkl6f7opm	278	1	Energy	energy	NN
work_pbekm73p7bendalswgkl6f7opm	278	2	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	278	3	Buildings	building	NNS
work_pbekm73p7bendalswgkl6f7opm	278	4	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	278	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	278	6	128	128	CD
work_pbekm73p7bendalswgkl6f7opm	278	7	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	278	8	575	575	CD
work_pbekm73p7bendalswgkl6f7opm	278	9	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	278	10	58	58	CD
work_pbekm73p7bendalswgkl6f7opm	278	11	.	.	.
work_pbekm73p7bendalswgkl6f7opm	279	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	279	2	14	14	CD
work_pbekm73p7bendalswgkl6f7opm	279	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	279	4	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	279	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	279	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	279	7	Gad	Gad	NNP
work_pbekm73p7bendalswgkl6f7opm	279	8	El	El	NNP
work_pbekm73p7bendalswgkl6f7opm	279	9	Rab	Rab	NNP
work_pbekm73p7bendalswgkl6f7opm	279	10	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	279	11	,	,	,
work_pbekm73p7bendalswgkl6f7opm	279	12	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	279	13	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	279	14	Parametric	Parametric	NNP
work_pbekm73p7bendalswgkl6f7opm	279	15	analysis	analysis	NN
work_pbekm73p7bendalswgkl6f7opm	279	16	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	279	17	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	279	18	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	279	19	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	279	20	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	279	21	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	279	22	concept	concept	NN
work_pbekm73p7bendalswgkl6f7opm	279	23	applied	apply	VBD
work_pbekm73p7bendalswgkl6f7opm	279	24	to	to	IN
work_pbekm73p7bendalswgkl6f7opm	279	25	HVAC	HVAC	NNP
work_pbekm73p7bendalswgkl6f7opm	279	26	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	279	27	:	:	:
work_pbekm73p7bendalswgkl6f7opm	279	28	Effect	effect	NN
work_pbekm73p7bendalswgkl6f7opm	279	29	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	279	30	mass	mass	JJ
work_pbekm73p7bendalswgkl6f7opm	279	31	flow	flow	NN
work_pbekm73p7bendalswgkl6f7opm	279	32	rates	rate	NNS
work_pbekm73p7bendalswgkl6f7opm	279	33	.	.	.
work_pbekm73p7bendalswgkl6f7opm	280	1	Case	Case	NNP
work_pbekm73p7bendalswgkl6f7opm	280	2	Studies	Studies	NNP
work_pbekm73p7bendalswgkl6f7opm	280	3	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	280	4	Thermal	Thermal	NNP
work_pbekm73p7bendalswgkl6f7opm	280	5	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	280	6	2015	2015	CD
work_pbekm73p7bendalswgkl6f7opm	280	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	280	8	6	6	CD
work_pbekm73p7bendalswgkl6f7opm	280	9	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	280	10	61	61	CD
work_pbekm73p7bendalswgkl6f7opm	280	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	280	12	68	68	CD
work_pbekm73p7bendalswgkl6f7opm	280	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	281	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	281	2	15	15	CD
work_pbekm73p7bendalswgkl6f7opm	281	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	281	4	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	281	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	281	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	281	7	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	281	8	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	281	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	281	10	El	El	NNP
work_pbekm73p7bendalswgkl6f7opm	281	11	Hage	Hage	NNP
work_pbekm73p7bendalswgkl6f7opm	281	12	H.	H.	NNP
work_pbekm73p7bendalswgkl6f7opm	281	13	Parametric	Parametric	NNP
work_pbekm73p7bendalswgkl6f7opm	281	14	analysis	analysis	NN
work_pbekm73p7bendalswgkl6f7opm	281	15	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	281	16	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	281	17	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	281	18	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	281	19	exhaust	exhaust	JJ
work_pbekm73p7bendalswgkl6f7opm	281	20	gases	gas	NNS
work_pbekm73p7bendalswgkl6f7opm	281	21	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	281	22	generators	generator	NNS
work_pbekm73p7bendalswgkl6f7opm	281	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	282	1	Energy	Energy	NNP
work_pbekm73p7bendalswgkl6f7opm	282	2	Procedia	Procedia	NNP
work_pbekm73p7bendalswgkl6f7opm	282	3	2015	2015	CD
work_pbekm73p7bendalswgkl6f7opm	282	4	;	;	:
work_pbekm73p7bendalswgkl6f7opm	282	5	75	75	CD
work_pbekm73p7bendalswgkl6f7opm	282	6	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	282	7	3295	3295	CD
work_pbekm73p7bendalswgkl6f7opm	282	8	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	282	9	3300	3300	CD
work_pbekm73p7bendalswgkl6f7opm	282	10	.	.	.
work_pbekm73p7bendalswgkl6f7opm	283	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	283	2	16	16	CD
work_pbekm73p7bendalswgkl6f7opm	283	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	283	4	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	283	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	283	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	283	7	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	283	8	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	283	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	283	10	Chahine	Chahine	NNP
work_pbekm73p7bendalswgkl6f7opm	283	11	K	K	NNP
work_pbekm73p7bendalswgkl6f7opm	283	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	283	13	Assi	Assi	NNP
work_pbekm73p7bendalswgkl6f7opm	283	14	A.	A.	NNP
work_pbekm73p7bendalswgkl6f7opm	283	15	Prototype	Prototype	NNP
work_pbekm73p7bendalswgkl6f7opm	283	16	implementation	implementation	NN
work_pbekm73p7bendalswgkl6f7opm	283	17	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	283	18	experimental	experimental	JJ
work_pbekm73p7bendalswgkl6f7opm	283	19	analysis	analysis	NN
work_pbekm73p7bendalswgkl6f7opm	283	20	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	283	21	water	water	NN
work_pbekm73p7bendalswgkl6f7opm	283	22	heating	heating	NN
work_pbekm73p7bendalswgkl6f7opm	283	23	using	use	VBG
work_pbekm73p7bendalswgkl6f7opm	283	24	recovered	recover	VBN
work_pbekm73p7bendalswgkl6f7opm	283	25	waste	waste	NN
work_pbekm73p7bendalswgkl6f7opm	283	26	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	283	27	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	283	28	chimneys	chimney	NNS
work_pbekm73p7bendalswgkl6f7opm	283	29	.	.	.
work_pbekm73p7bendalswgkl6f7opm	284	1	Case	Case	NNP
work_pbekm73p7bendalswgkl6f7opm	284	2	Studies	Studies	NNP
work_pbekm73p7bendalswgkl6f7opm	284	3	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	284	4	Thermal	Thermal	NNP
work_pbekm73p7bendalswgkl6f7opm	284	5	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	284	6	2015	2015	CD
work_pbekm73p7bendalswgkl6f7opm	284	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	284	8	5	5	CD
work_pbekm73p7bendalswgkl6f7opm	284	9	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	284	10	127	127	CD
work_pbekm73p7bendalswgkl6f7opm	284	11	-	-	SYM
work_pbekm73p7bendalswgkl6f7opm	284	12	133	133	CD
work_pbekm73p7bendalswgkl6f7opm	284	13	.	.	.
work_pbekm73p7bendalswgkl6f7opm	285	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	285	2	17	17	CD
work_pbekm73p7bendalswgkl6f7opm	285	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	285	4	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	285	5	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	285	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	285	7	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	285	8	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	285	9	Heating	Heating	NNP
work_pbekm73p7bendalswgkl6f7opm	285	10	fresh	fresh	JJ
work_pbekm73p7bendalswgkl6f7opm	285	11	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	285	12	by	by	IN
work_pbekm73p7bendalswgkl6f7opm	285	13	hot	hot	JJ
work_pbekm73p7bendalswgkl6f7opm	285	14	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	285	15	air	air	NN
work_pbekm73p7bendalswgkl6f7opm	285	16	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	285	17	HVAC	HVAC	NNP
work_pbekm73p7bendalswgkl6f7opm	285	18	systems	system	NNS
work_pbekm73p7bendalswgkl6f7opm	285	19	.	.	.
work_pbekm73p7bendalswgkl6f7opm	286	1	Case	Case	NNP
work_pbekm73p7bendalswgkl6f7opm	286	2	Studies	Studies	NNP
work_pbekm73p7bendalswgkl6f7opm	286	3	in	in	IN
work_pbekm73p7bendalswgkl6f7opm	286	4	Thermal	Thermal	NNP
work_pbekm73p7bendalswgkl6f7opm	286	5	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	286	6	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	286	7	;	;	:
work_pbekm73p7bendalswgkl6f7opm	286	8	8	8	CD
work_pbekm73p7bendalswgkl6f7opm	286	9	:	:	:
work_pbekm73p7bendalswgkl6f7opm	286	10	398-	398-	CD
work_pbekm73p7bendalswgkl6f7opm	286	11	402	402	CD
work_pbekm73p7bendalswgkl6f7opm	286	12	.	.	.
work_pbekm73p7bendalswgkl6f7opm	287	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	287	2	18	18	CD
work_pbekm73p7bendalswgkl6f7opm	287	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	287	4	Jaber	Jaber	NNP
work_pbekm73p7bendalswgkl6f7opm	287	5	H	H	NNP
work_pbekm73p7bendalswgkl6f7opm	287	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	287	7	Khaled	Khaled	NNP
work_pbekm73p7bendalswgkl6f7opm	287	8	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	287	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	287	10	Lemenand	Lemenand	NNP
work_pbekm73p7bendalswgkl6f7opm	287	11	T	T	NNP
work_pbekm73p7bendalswgkl6f7opm	287	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	287	13	Ramadan	Ramadan	NNP
work_pbekm73p7bendalswgkl6f7opm	287	14	M.	M.	NNP
work_pbekm73p7bendalswgkl6f7opm	287	15	Short	Short	NNP
work_pbekm73p7bendalswgkl6f7opm	287	16	review	review	NN
work_pbekm73p7bendalswgkl6f7opm	287	17	on	on	IN
work_pbekm73p7bendalswgkl6f7opm	287	18	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	287	19	recovery	recovery	NN
work_pbekm73p7bendalswgkl6f7opm	287	20	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	287	21	exhaust	exhaust	NN
work_pbekm73p7bendalswgkl6f7opm	287	22	gas	gas	NN
work_pbekm73p7bendalswgkl6f7opm	287	23	.	.	.
work_pbekm73p7bendalswgkl6f7opm	288	1	AIP	AIP	NNP
work_pbekm73p7bendalswgkl6f7opm	288	2	Conference	Conference	NNP
work_pbekm73p7bendalswgkl6f7opm	288	3	Proceedings	Proceedings	NNP
work_pbekm73p7bendalswgkl6f7opm	288	4	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	288	5	;	;	:
work_pbekm73p7bendalswgkl6f7opm	288	6	1758	1758	CD
work_pbekm73p7bendalswgkl6f7opm	288	7	:	:	SYM
work_pbekm73p7bendalswgkl6f7opm	288	8	10.1063/1.4959441	10.1063/1.4959441	CD
work_pbekm73p7bendalswgkl6f7opm	288	9	.	.	.
work_pbekm73p7bendalswgkl6f7opm	289	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	289	2	19	19	CD
work_pbekm73p7bendalswgkl6f7opm	289	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	289	4	Ramade	Ramade	NNP
work_pbekm73p7bendalswgkl6f7opm	289	5	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	289	6	,	,	,
work_pbekm73p7bendalswgkl6f7opm	289	7	Patil	Patil	NNP
work_pbekm73p7bendalswgkl6f7opm	289	8	P	P	NNP
work_pbekm73p7bendalswgkl6f7opm	289	9	,	,	,
work_pbekm73p7bendalswgkl6f7opm	289	10	Shelar	Shelar	NNP
work_pbekm73p7bendalswgkl6f7opm	289	11	M	M	NNP
work_pbekm73p7bendalswgkl6f7opm	289	12	,	,	,
work_pbekm73p7bendalswgkl6f7opm	289	13	Chaudhary	Chaudhary	NNP
work_pbekm73p7bendalswgkl6f7opm	289	14	S	S	NNP
work_pbekm73p7bendalswgkl6f7opm	289	15	,	,	,
work_pbekm73p7bendalswgkl6f7opm	289	16	Yadav	Yadav	NNP
work_pbekm73p7bendalswgkl6f7opm	289	17	S	S	NNP
work_pbekm73p7bendalswgkl6f7opm	289	18	,	,	,
work_pbekm73p7bendalswgkl6f7opm	289	19	Trimbake	Trimbake	NNP
work_pbekm73p7bendalswgkl6f7opm	289	20	S.	S.	NNP
work_pbekm73p7bendalswgkl6f7opm	289	21	Automobile	Automobile	NNP
work_pbekm73p7bendalswgkl6f7opm	289	22	Exhaust	Exhaust	NNP
work_pbekm73p7bendalswgkl6f7opm	289	23	Thermo	Thermo	NNP
work_pbekm73p7bendalswgkl6f7opm	289	24	-	-	HYPH
work_pbekm73p7bendalswgkl6f7opm	289	25	Electric	Electric	NNP
work_pbekm73p7bendalswgkl6f7opm	289	26	Generator	Generator	NNP
work_pbekm73p7bendalswgkl6f7opm	289	27	Design	Design	NNP
work_pbekm73p7bendalswgkl6f7opm	289	28	&	&	CC
work_pbekm73p7bendalswgkl6f7opm	289	29	Performance	Performance	NNP
work_pbekm73p7bendalswgkl6f7opm	289	30	Analysis	Analysis	NNP
work_pbekm73p7bendalswgkl6f7opm	289	31	.	.	.
work_pbekm73p7bendalswgkl6f7opm	290	1	International	International	NNP
work_pbekm73p7bendalswgkl6f7opm	290	2	Journal	Journal	NNP
work_pbekm73p7bendalswgkl6f7opm	290	3	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	290	4	Emerging	Emerging	NNP
work_pbekm73p7bendalswgkl6f7opm	290	5	Technology	Technology	NNP
work_pbekm73p7bendalswgkl6f7opm	290	6	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	290	7	Advanced	Advanced	NNP
work_pbekm73p7bendalswgkl6f7opm	290	8	Engineering	Engineering	NNP
work_pbekm73p7bendalswgkl6f7opm	290	9	2014	2014	CD
work_pbekm73p7bendalswgkl6f7opm	290	10	;	;	:
work_pbekm73p7bendalswgkl6f7opm	290	11	4	4	CD
work_pbekm73p7bendalswgkl6f7opm	290	12	.	.	.
work_pbekm73p7bendalswgkl6f7opm	291	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	291	2	20	20	CD
work_pbekm73p7bendalswgkl6f7opm	291	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	291	4	Incorpera	Incorpera	NNP
work_pbekm73p7bendalswgkl6f7opm	291	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	291	6	F.P.	F.P.	NNP
work_pbekm73p7bendalswgkl6f7opm	292	1	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	292	2	DeWitt	DeWitt	NNP
work_pbekm73p7bendalswgkl6f7opm	292	3	,	,	,
work_pbekm73p7bendalswgkl6f7opm	292	4	D.P.	D.P.	NNP
work_pbekm73p7bendalswgkl6f7opm	293	1	2007	2007	CD
work_pbekm73p7bendalswgkl6f7opm	293	2	.	.	.
work_pbekm73p7bendalswgkl6f7opm	294	1	Fundamentals	fundamental	NNS
work_pbekm73p7bendalswgkl6f7opm	294	2	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	294	3	heat	heat	NN
work_pbekm73p7bendalswgkl6f7opm	294	4	and	and	CC
work_pbekm73p7bendalswgkl6f7opm	294	5	mass	mass	NN
work_pbekm73p7bendalswgkl6f7opm	294	6	transfer	transfer	NN
work_pbekm73p7bendalswgkl6f7opm	294	7	.	.	.
work_pbekm73p7bendalswgkl6f7opm	295	1	Sixth	Sixth	NNP
work_pbekm73p7bendalswgkl6f7opm	295	2	Edition	Edition	NNP
work_pbekm73p7bendalswgkl6f7opm	295	3	.	.	.
work_pbekm73p7bendalswgkl6f7opm	296	1	John	John	NNP
work_pbekm73p7bendalswgkl6f7opm	296	2	Wiley	Wiley	NNP
work_pbekm73p7bendalswgkl6f7opm	296	3	&	&	CC
work_pbekm73p7bendalswgkl6f7opm	296	4	Sons	Sons	NNP
work_pbekm73p7bendalswgkl6f7opm	296	5	.	.	.
work_pbekm73p7bendalswgkl6f7opm	297	1	[	[	-LRB-
work_pbekm73p7bendalswgkl6f7opm	297	2	21	21	CD
work_pbekm73p7bendalswgkl6f7opm	297	3	]	]	-RRB-
work_pbekm73p7bendalswgkl6f7opm	297	4	Tecteg	Tecteg	NNP
work_pbekm73p7bendalswgkl6f7opm	297	5	,	,	,
work_pbekm73p7bendalswgkl6f7opm	297	6	Manufacturer	Manufacturer	NNP
work_pbekm73p7bendalswgkl6f7opm	297	7	of	of	IN
work_pbekm73p7bendalswgkl6f7opm	297	8	thermoelectric	thermoelectric	NNP
work_pbekm73p7bendalswgkl6f7opm	297	9	modules	module	NNS
work_pbekm73p7bendalswgkl6f7opm	297	10	,	,	,
work_pbekm73p7bendalswgkl6f7opm	297	11	2016	2016	CD
work_pbekm73p7bendalswgkl6f7opm	297	12	.	.	.
work_pbekm73p7bendalswgkl6f7opm	298	1	Available	available	JJ
work_pbekm73p7bendalswgkl6f7opm	298	2	from	from	IN
work_pbekm73p7bendalswgkl6f7opm	298	3	:	:	:
work_pbekm73p7bendalswgkl6f7opm	298	4	www.tecteg.com	www.tecteg.com	ADD