id	sid	tid	token	lemma	pos
work_lqoc3fv36veffa62lsrtqpk4na	1	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	1	2	Comparative	Comparative	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	3	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	4	Cycle	Cycle	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	5	Assessment	Assessment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	6	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	1	7	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	8	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	9	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	1	10	Lignocellulosic	Lignocellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	11	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	12	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	13	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	15	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	17	12974	12974	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	18	-	-	SYM
work_lqoc3fv36veffa62lsrtqpk4na	1	19	12987	12987	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	20	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	1	21	doi:10.3390	doi:10.3390	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	22	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	1	23	su71012974	su71012974	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	24	sustainability	sustainability	NN
work_lqoc3fv36veffa62lsrtqpk4na	1	25	ISSN	ISSN	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	26	2071	2071	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	27	-	-	SYM
work_lqoc3fv36veffa62lsrtqpk4na	1	28	1050	1050	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	29	www.mdpi.com/journal/sustainability	www.mdpi.com/journal/sustainability	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	1	30	Article	article	NN
work_lqoc3fv36veffa62lsrtqpk4na	1	31	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	1	32	Comparative	Comparative	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	33	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	34	Cycle	Cycle	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	35	Assessment	Assessment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	36	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	1	37	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	38	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	39	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	1	40	Lignocellulosic	Lignocellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	41	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	42	Xinhua	Xinhua	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	43	Shen	Shen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	44	1,†	1,†	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	45	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	46	Raghava	Raghava	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	47	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	48	Kommalapati	Kommalapati	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	49	1,2	1,2	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	50	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	51	*	*	NFP
work_lqoc3fv36veffa62lsrtqpk4na	1	52	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	1	53	Ziaul	Ziaul	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	54	Huque	Huque	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	55	1,3	1,3	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	56	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	57	NSF	NSF	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	58	CREST	CREST	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	59	Center	Center	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	60	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	1	61	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	62	&	&	CC
work_lqoc3fv36veffa62lsrtqpk4na	1	63	Environmental	Environmental	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	64	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	65	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	66	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	67	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	68	A&M	A&M	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	69	University	University	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	70	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	71	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	72	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	73	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	74	TX	TX	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	75	77446	77446	CD
work_lqoc3fv36veffa62lsrtqpk4na	1	76	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	1	77	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	78	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	1	79	E	E	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	80	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	1	81	Mails	mail	NNS
work_lqoc3fv36veffa62lsrtqpk4na	1	82	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	1	83	xinhua.shen@uni.edu	xinhua.shen@uni.edu	NNP
work_lqoc3fv36veffa62lsrtqpk4na	1	84	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	1	85	X.S.	X.S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	2	1	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	2	2	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	2	3	zihuque@pvamu.edu	zihuque@pvamu.edu	XX
work_lqoc3fv36veffa62lsrtqpk4na	2	4	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	2	5	Z.H.	Z.H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	2	6	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	3	1	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	3	2	Department	Department	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	3	4	Civil	Civil	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	3	6	Environmental	Environmental	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	7	Engineering	Engineering	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	9	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	10	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	11	A&M	A&M	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	12	University	University	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	14	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	15	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	17	TX	TX	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	18	77446	77446	CD
work_lqoc3fv36veffa62lsrtqpk4na	3	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	20	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	21	3	3	CD
work_lqoc3fv36veffa62lsrtqpk4na	3	22	Department	Department	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	23	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	3	24	Mechanical	Mechanical	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	25	Engineering	Engineering	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	26	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	27	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	28	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	29	A&M	A&M	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	30	University	University	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	32	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	33	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	35	TX	TX	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	36	77446	77446	CD
work_lqoc3fv36veffa62lsrtqpk4na	3	37	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	38	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	39	†	†	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	40	Current	Current	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	41	Address	Address	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	42	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	3	43	Department	Department	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	44	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	3	45	Earth	Earth	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	46	Sciences	Sciences	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	3	47	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	48	University	University	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	49	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	3	50	Northern	Northern	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	51	Iowa	Iowa	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	52	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	53	Cedar	Cedar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	54	Falls	Falls	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	55	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	56	IA	IA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	57	50614	50614	CD
work_lqoc3fv36veffa62lsrtqpk4na	3	58	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	3	59	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	3	60	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	4	1	*	*	NFP
work_lqoc3fv36veffa62lsrtqpk4na	4	2	Author	author	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	3	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	4	4	whom	whom	WP
work_lqoc3fv36veffa62lsrtqpk4na	4	5	correspondence	correspondence	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	6	should	should	MD
work_lqoc3fv36veffa62lsrtqpk4na	4	7	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	4	8	addressed	address	VBN
work_lqoc3fv36veffa62lsrtqpk4na	4	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	4	10	E	e	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	11	-	-	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	12	Mail	mail	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	13	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	4	14	rrkommalapati@pvamu.edu	rrkommalapati@pvamu.edu	XX
work_lqoc3fv36veffa62lsrtqpk4na	4	15	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	4	16	Tel	tel	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	17	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	4	18	+1	+1	:
work_lqoc3fv36veffa62lsrtqpk4na	4	19	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	20	936	936	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	21	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	22	261	261	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	23	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	24	1660	1660	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	25	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	4	26	Fax	fax	NN
work_lqoc3fv36veffa62lsrtqpk4na	4	27	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	4	28	+1	+1	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	4	29	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	30	936	936	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	31	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	32	261	261	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	33	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	4	34	1662	1662	CD
work_lqoc3fv36veffa62lsrtqpk4na	4	35	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	5	1	Academic	Academic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	2	Editor	Editor	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	3	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	5	4	Andrew	Andrew	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	5	Kusiak	Kusiak	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	6	Received	receive	VBD
work_lqoc3fv36veffa62lsrtqpk4na	5	7	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	5	8	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	9	August	August	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	10	2015/	2015/	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	11	Accepted	accept	VBN
work_lqoc3fv36veffa62lsrtqpk4na	5	12	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	5	13	17	17	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	14	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	15	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	16	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	5	17	Published	publish	VBN
work_lqoc3fv36veffa62lsrtqpk4na	5	18	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	5	19	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	20	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	21	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	5	22	Abstract	Abstract	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	23	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	5	24	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	5	25	order	order	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	26	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	5	27	solve	solve	VB
work_lqoc3fv36veffa62lsrtqpk4na	5	28	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	5	29	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	30	crisis	crisis	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	31	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	5	32	reduce	reduce	VB
work_lqoc3fv36veffa62lsrtqpk4na	5	33	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	5	34	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	5	35	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	36	gases	gas	NNS
work_lqoc3fv36veffa62lsrtqpk4na	5	37	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	5	38	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	5	39	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	5	40	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	5	41	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	5	42	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	43	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	5	44	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	5	45	exploited	exploit	VBN
work_lqoc3fv36veffa62lsrtqpk4na	5	46	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	5	47	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	48	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	5	49	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	6	1	Because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	6	2	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	6	3	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	6	4	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	6	5	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	6	6	abundant	abundant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	6	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	6	8	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	6	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	6	10	various	various	JJ
work_lqoc3fv36veffa62lsrtqpk4na	6	11	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	6	12	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	6	13	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	6	14	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	6	15	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	6	16	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	6	17	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	6	18	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	6	19	derive	derive	VB
work_lqoc3fv36veffa62lsrtqpk4na	6	20	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	6	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	6	22	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	6	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	7	1	This	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	7	2	paper	paper	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	3	focuses	focus	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	7	4	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	7	5	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	7	8	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	7	9	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	7	11	comparison	comparison	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	7	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	7	14	effects	effect	NNS
work_lqoc3fv36veffa62lsrtqpk4na	7	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	7	16	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	7	17	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	7	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	7	19	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	7	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	7	22	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	23	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	24	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	7	25	evaluated	evaluate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	7	26	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	7	27	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	28	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	29	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	7	30	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	7	31	LCA	LCA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	7	32	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	7	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	8	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	8	2	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	8	3	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	8	4	boundaries	boundary	NNS
work_lqoc3fv36veffa62lsrtqpk4na	8	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	8	6	LCA	LCA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	8	7	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	8	8	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	8	9	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	8	10	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	8	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	8	12	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	8	13	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	8	14	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	8	15	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	8	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	8	17	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	8	18	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	8	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	8	20	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	8	21	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	8	22	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	8	23	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	8	24	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	8	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	9	1	For	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	9	2	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	9	3	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	9	4	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	9	5	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	9	6	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	9	7	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	9	8	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	9	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	9	11	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	12	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	13	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	9	14	field	field	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	15	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	9	16	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	17	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	9	18	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	9	19	more	more	RBR
work_lqoc3fv36veffa62lsrtqpk4na	9	20	critical	critical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	9	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	10	1	Three	three	CD
work_lqoc3fv36veffa62lsrtqpk4na	10	2	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	10	3	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	10	4	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	10	5	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	10	6	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	10	7	analyzed	analyze	VBN
work_lqoc3fv36veffa62lsrtqpk4na	10	8	both	both	DT
work_lqoc3fv36veffa62lsrtqpk4na	10	9	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	10	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	10	11	without	without	IN
work_lqoc3fv36veffa62lsrtqpk4na	10	12	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	10	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	10	14	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	10	15	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	10	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	11	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	11	2	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	11	3	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	11	4	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	11	5	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	11	6	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	11	7	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	11	8	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	11	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	11	10	depend	depend	VB
work_lqoc3fv36veffa62lsrtqpk4na	11	11	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	11	12	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	11	13	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	11	14	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	11	15	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	11	16	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	11	17	scales	scale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	11	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	12	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	12	2	daily	daily	JJ
work_lqoc3fv36veffa62lsrtqpk4na	12	3	criteria	criterion	NNS
work_lqoc3fv36veffa62lsrtqpk4na	12	4	pollutant	pollutant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	12	5	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	12	6	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	12	7	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	8	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	9	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	12	10	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	12	11	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	13	were	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	12	14	evaluated	evaluate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	12	15	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	12	16	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	12	17	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	18	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	19	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	20	model	model	NN
work_lqoc3fv36veffa62lsrtqpk4na	12	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	12	22	GREET.net	GREET.net	NNP
work_lqoc3fv36veffa62lsrtqpk4na	12	23	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	12	24	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	13	1	It	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	13	2	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	13	3	concluded	conclude	VBN
work_lqoc3fv36veffa62lsrtqpk4na	13	4	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	13	5	bio	bio	NNP
work_lqoc3fv36veffa62lsrtqpk4na	13	6	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	13	7	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	13	8	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	13	9	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	13	10	critical	critical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	13	11	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	13	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	13	13	urgency	urgency	NN
work_lqoc3fv36veffa62lsrtqpk4na	13	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	13	15	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	13	16	effects	effect	NNS
work_lqoc3fv36veffa62lsrtqpk4na	13	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	14	1	OPEN	open	JJ
work_lqoc3fv36veffa62lsrtqpk4na	14	2	ACCESS	access	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	3	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	14	4	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	14	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	14	6	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	14	7	12975	12975	CD
work_lqoc3fv36veffa62lsrtqpk4na	14	8	Keywords	Keywords	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	14	9	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	14	10	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	11	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	12	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	13	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	14	14	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	14	15	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	16	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	14	17	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	18	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	14	19	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	14	20	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	14	21	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	14	22	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	14	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	15	1	Introduction	introduction	NN
work_lqoc3fv36veffa62lsrtqpk4na	15	2	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	15	3	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	15	4	Nations	Nations	NNP
work_lqoc3fv36veffa62lsrtqpk4na	15	5	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	15	6	recently	recently	RB
work_lqoc3fv36veffa62lsrtqpk4na	15	7	reported	report	VBN
work_lqoc3fv36veffa62lsrtqpk4na	15	8	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	15	9	global	global	JJ
work_lqoc3fv36veffa62lsrtqpk4na	15	10	warming	warming	NN
work_lqoc3fv36veffa62lsrtqpk4na	15	11	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	15	12	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	15	13	due	due	JJ
work_lqoc3fv36veffa62lsrtqpk4na	15	14	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	15	15	progressive	progressive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	15	16	consumption	consumption	NN
work_lqoc3fv36veffa62lsrtqpk4na	15	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	15	18	fossil	fossil	JJ
work_lqoc3fv36veffa62lsrtqpk4na	15	19	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	15	20	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	15	21	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	15	22	Earth	Earth	NNP
work_lqoc3fv36veffa62lsrtqpk4na	15	23	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	15	24	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	15	25	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	15	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	16	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	16	2	current	current	JJ
work_lqoc3fv36veffa62lsrtqpk4na	16	3	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	4	consumption	consumption	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	5	structure	structure	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	6	mostly	mostly	RB
work_lqoc3fv36veffa62lsrtqpk4na	16	7	depends	depend	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	16	8	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	16	9	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	16	11	oil	oil	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	16	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	16	14	natural	natural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	16	15	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	16	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	16	17	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	18	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	16	20	chemical	chemical	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	21	productions	production	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	22	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	16	23	most	most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	16	24	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	16	26	results	result	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	27	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	16	28	substantial	substantial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	16	29	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	30	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	16	31	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	16	32	gases	gas	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	33	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	16	34	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	16	35	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	16	36	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	16	37	1,2	1,2	CD
work_lqoc3fv36veffa62lsrtqpk4na	16	38	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	16	39	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	17	1	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	17	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	17	3	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	17	4	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	17	5	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	17	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	17	7	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	17	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	17	9	O3	O3	NNP
work_lqoc3fv36veffa62lsrtqpk4na	17	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	17	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	17	12	N2O	N2O	NNP
work_lqoc3fv36veffa62lsrtqpk4na	17	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	17	14	play	play	VB
work_lqoc3fv36veffa62lsrtqpk4na	17	15	an	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	17	16	important	important	JJ
work_lqoc3fv36veffa62lsrtqpk4na	17	17	role	role	NN
work_lqoc3fv36veffa62lsrtqpk4na	17	18	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	17	19	global	global	JJ
work_lqoc3fv36veffa62lsrtqpk4na	17	20	climate	climate	NN
work_lqoc3fv36veffa62lsrtqpk4na	17	21	change	change	NN
work_lqoc3fv36veffa62lsrtqpk4na	17	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	18	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	18	2	increase	increase	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	18	4	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	18	5	level	level	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	6	changes	change	NNS
work_lqoc3fv36veffa62lsrtqpk4na	18	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	18	8	climate	climate	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	18	10	further	further	JJ
work_lqoc3fv36veffa62lsrtqpk4na	18	11	influences	influence	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	18	12	natural	natural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	18	13	ecosystems	ecosystem	NNS
work_lqoc3fv36veffa62lsrtqpk4na	18	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	18	15	water	water	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	16	resource	resource	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	17	distribution	distribution	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	18	19	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	18	20	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	18	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	19	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	19	2	order	order	NN
work_lqoc3fv36veffa62lsrtqpk4na	19	3	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	19	4	reduce	reduce	VB
work_lqoc3fv36veffa62lsrtqpk4na	19	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	19	6	climate	climate	NN
work_lqoc3fv36veffa62lsrtqpk4na	19	7	change	change	NN
work_lqoc3fv36veffa62lsrtqpk4na	19	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	19	9	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	19	10	efforts	effort	NNS
work_lqoc3fv36veffa62lsrtqpk4na	19	11	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	19	12	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	19	13	made	make	VBN
work_lqoc3fv36veffa62lsrtqpk4na	19	14	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	19	15	reduce	reduce	VB
work_lqoc3fv36veffa62lsrtqpk4na	19	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	19	17	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	19	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	19	19	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	19	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	20	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	20	2	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	20	3	Nations	Nations	NNP
work_lqoc3fv36veffa62lsrtqpk4na	20	4	proposed	propose	VBD
work_lqoc3fv36veffa62lsrtqpk4na	20	5	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	20	6	policies	policy	NNS
work_lqoc3fv36veffa62lsrtqpk4na	20	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	20	8	actions	action	NNS
work_lqoc3fv36veffa62lsrtqpk4na	20	9	associated	associate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	20	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	20	11	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	20	12	consumption	consumption	NN
work_lqoc3fv36veffa62lsrtqpk4na	20	13	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	20	14	limit	limit	VB
work_lqoc3fv36veffa62lsrtqpk4na	20	15	net	net	JJ
work_lqoc3fv36veffa62lsrtqpk4na	20	16	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	20	17	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	20	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	21	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	21	2	Kyoto	Kyoto	NNP
work_lqoc3fv36veffa62lsrtqpk4na	21	3	Protocol	Protocol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	21	4	agreed	agree	VBD
work_lqoc3fv36veffa62lsrtqpk4na	21	5	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	21	6	numerous	numerous	JJ
work_lqoc3fv36veffa62lsrtqpk4na	21	7	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	21	8	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	21	9	another	another	DT
work_lqoc3fv36veffa62lsrtqpk4na	21	10	milestone	milestone	NN
work_lqoc3fv36veffa62lsrtqpk4na	21	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	22	1	Some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	22	2	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	22	3	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	22	4	America	America	NNP
work_lqoc3fv36veffa62lsrtqpk4na	22	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	22	6	Europe	Europe	NNP
work_lqoc3fv36veffa62lsrtqpk4na	22	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	22	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	22	9	Asia	Asia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	22	10	started	start	VBD
work_lqoc3fv36veffa62lsrtqpk4na	22	11	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	22	12	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	22	13	consider	consider	VB
work_lqoc3fv36veffa62lsrtqpk4na	22	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	22	15	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	22	16	energies	energy	NNS
work_lqoc3fv36veffa62lsrtqpk4na	22	17	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	22	18	potential	potential	JJ
work_lqoc3fv36veffa62lsrtqpk4na	22	19	long	long	JJ
work_lqoc3fv36veffa62lsrtqpk4na	22	20	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	22	21	term	term	NN
work_lqoc3fv36veffa62lsrtqpk4na	22	22	sources	source	NNS
work_lqoc3fv36veffa62lsrtqpk4na	22	23	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	22	24	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	22	25	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	22	26	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	22	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	22	28	1980s	1980	NNS
work_lqoc3fv36veffa62lsrtqpk4na	22	29	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	22	30	even	even	RB
work_lqoc3fv36veffa62lsrtqpk4na	22	31	earlier	early	RBR
work_lqoc3fv36veffa62lsrtqpk4na	22	32	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	23	1	It	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	23	2	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	23	3	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	23	4	reported	report	VBN
work_lqoc3fv36veffa62lsrtqpk4na	23	5	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	23	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	23	7	starting	start	VBG
work_lqoc3fv36veffa62lsrtqpk4na	23	8	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	23	9	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	23	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	23	11	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	23	12	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	23	13	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	23	14	accounted	account	VBN
work_lqoc3fv36veffa62lsrtqpk4na	23	15	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	23	16	eight	eight	CD
work_lqoc3fv36veffa62lsrtqpk4na	23	17	percent	percent	NN
work_lqoc3fv36veffa62lsrtqpk4na	23	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	23	19	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	23	20	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	23	21	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	23	22	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	23	23	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	23	24	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	23	25	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	23	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	24	1	Thus	thus	RB
work_lqoc3fv36veffa62lsrtqpk4na	24	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	24	3	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	24	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	24	5	plays	play	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	24	6	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	24	7	significant	significant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	24	8	role	role	NN
work_lqoc3fv36veffa62lsrtqpk4na	24	9	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	24	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	24	11	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	24	12	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	24	13	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	24	14	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	24	15	world	world	NN
work_lqoc3fv36veffa62lsrtqpk4na	24	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	24	17	especially	especially	RB
work_lqoc3fv36veffa62lsrtqpk4na	24	18	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	24	19	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	24	20	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	24	21	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	24	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	25	1	Lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	25	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	25	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	25	4	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	25	5	distributed	distribute	VBN
work_lqoc3fv36veffa62lsrtqpk4na	25	6	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	25	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	25	8	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	25	9	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	25	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	25	11	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	25	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	25	13	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	25	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	25	15	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	25	16	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	25	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	25	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	25	19	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	25	20	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	25	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	26	1	Various	various	JJ
work_lqoc3fv36veffa62lsrtqpk4na	26	2	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	26	3	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	26	4	3	3	CD
work_lqoc3fv36veffa62lsrtqpk4na	26	5	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	26	6	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	26	7	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	26	8	developed	develop	VBN
work_lqoc3fv36veffa62lsrtqpk4na	26	9	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	26	10	use	use	VB
work_lqoc3fv36veffa62lsrtqpk4na	26	11	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	26	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	13	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	26	14	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	26	16	biofuel	biofuel	VB
work_lqoc3fv36veffa62lsrtqpk4na	26	17	derivation	derivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	26	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	26	20	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	21	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	22	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	26	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	27	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	27	2	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	27	4	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	5	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	27	6	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	7	residue	residue	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	8	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	27	9	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	27	10	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	27	11	when	when	WRB
work_lqoc3fv36veffa62lsrtqpk4na	27	12	oil	oil	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	13	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	27	14	deficient	deficient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	27	15	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	27	16	World	World	NNP
work_lqoc3fv36veffa62lsrtqpk4na	27	17	War	War	NNP
work_lqoc3fv36veffa62lsrtqpk4na	27	18	II	II	NNP
work_lqoc3fv36veffa62lsrtqpk4na	27	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	27	20	but	but	CC
work_lqoc3fv36veffa62lsrtqpk4na	27	21	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	27	22	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	27	23	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	27	24	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	27	25	efficient	efficient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	27	26	enough	enough	RB
work_lqoc3fv36veffa62lsrtqpk4na	27	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	28	1	Currently	currently	RB
work_lqoc3fv36veffa62lsrtqpk4na	28	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	28	3	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	28	4	research	research	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	5	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	28	6	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	28	7	being	be	VBG
work_lqoc3fv36veffa62lsrtqpk4na	28	8	put	put	VBN
work_lqoc3fv36veffa62lsrtqpk4na	28	9	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	28	10	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	11	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	28	13	including	include	VBG
work_lqoc3fv36veffa62lsrtqpk4na	28	14	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	28	16	biodiesel	biodiesel	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	17	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	28	18	various	various	JJ
work_lqoc3fv36veffa62lsrtqpk4na	28	19	types	type	NNS
work_lqoc3fv36veffa62lsrtqpk4na	28	20	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	28	21	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	28	22	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	28	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	29	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	29	2	first	first	JJ
work_lqoc3fv36veffa62lsrtqpk4na	29	3	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	29	5	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	7	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	29	8	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	29	9	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	29	10	successfully	successfully	RB
work_lqoc3fv36veffa62lsrtqpk4na	29	11	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	29	12	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	29	13	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	29	15	soybeans	soybean	NNS
work_lqoc3fv36veffa62lsrtqpk4na	29	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	29	17	sugarcane	sugarcane	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	29	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	29	20	beets	beet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	29	21	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	29	22	extract	extract	VB
work_lqoc3fv36veffa62lsrtqpk4na	29	23	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	24	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	29	25	biodiesel	biodiesel	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	26	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	29	27	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	29	28	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	29	29	this	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	29	30	partially	partially	RB
work_lqoc3fv36veffa62lsrtqpk4na	29	31	contributes	contribute	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	29	32	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	29	33	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	29	34	increase	increase	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	35	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	29	36	food	food	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	37	price	price	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	38	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	29	39	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	29	40	world	world	NN
work_lqoc3fv36veffa62lsrtqpk4na	29	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	30	1	Starting	start	VBG
work_lqoc3fv36veffa62lsrtqpk4na	30	2	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	30	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	30	4	1990s	1990	NNS
work_lqoc3fv36veffa62lsrtqpk4na	30	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	6	more	more	JJR
work_lqoc3fv36veffa62lsrtqpk4na	30	7	efforts	effort	NNS
work_lqoc3fv36veffa62lsrtqpk4na	30	8	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	30	9	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	30	10	shifted	shift	VBN
work_lqoc3fv36veffa62lsrtqpk4na	30	11	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	30	12	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	30	13	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	30	14	food	food	JJ
work_lqoc3fv36veffa62lsrtqpk4na	30	15	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	16	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	18	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	30	19	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	30	20	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	21	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	30	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	23	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	24	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	26	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	30	27	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	30	28	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	30	29	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	30	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	31	forest	forest	NN
work_lqoc3fv36veffa62lsrtqpk4na	30	32	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	30	33	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	30	34	etc	etc	FW
work_lqoc3fv36veffa62lsrtqpk4na	30	35	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	31	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	31	2	second	second	JJ
work_lqoc3fv36veffa62lsrtqpk4na	31	3	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	4	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	31	5	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	31	6	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	7	currently	currently	RB
work_lqoc3fv36veffa62lsrtqpk4na	31	8	encounter	encounter	VBP
work_lqoc3fv36veffa62lsrtqpk4na	31	9	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	31	10	challenges	challenge	NNS
work_lqoc3fv36veffa62lsrtqpk4na	31	11	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	31	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	31	13	experimental	experimental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	31	14	step	step	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	31	16	especially	especially	RB
work_lqoc3fv36veffa62lsrtqpk4na	31	17	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	31	18	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	19	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	31	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	31	21	land	land	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	22	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	31	23	planted	plant	VBN
work_lqoc3fv36veffa62lsrtqpk4na	31	24	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	31	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	32	1	However	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	32	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	32	3	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	32	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	32	5	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	32	6	generate	generate	VB
work_lqoc3fv36veffa62lsrtqpk4na	32	7	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	32	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	32	9	heat	heat	NN
work_lqoc3fv36veffa62lsrtqpk4na	32	10	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	32	11	relatively	relatively	RB
work_lqoc3fv36veffa62lsrtqpk4na	32	12	easy	easy	JJ
work_lqoc3fv36veffa62lsrtqpk4na	32	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	32	14	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	32	15	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	32	16	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	32	17	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	32	18	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	32	19	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	32	20	European	european	JJ
work_lqoc3fv36veffa62lsrtqpk4na	32	21	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	32	22	since	since	IN
work_lqoc3fv36veffa62lsrtqpk4na	32	23	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	32	24	1990s	1990s	CD
work_lqoc3fv36veffa62lsrtqpk4na	32	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	32	26	started	start	VBD
work_lqoc3fv36veffa62lsrtqpk4na	32	27	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	32	28	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	32	29	pioneered	pioneer	VBN
work_lqoc3fv36veffa62lsrtqpk4na	32	30	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	32	31	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	32	32	America	America	NNP
work_lqoc3fv36veffa62lsrtqpk4na	32	33	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	32	34	Asia	Asia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	32	35	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	32	36	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	32	37	21st	21st	JJ
work_lqoc3fv36veffa62lsrtqpk4na	32	38	century	century	NN
work_lqoc3fv36veffa62lsrtqpk4na	32	39	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	33	1	Biomaterial	biomaterial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	33	2	constitutes	constitute	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	33	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	33	4	world	world	NN
work_lqoc3fv36veffa62lsrtqpk4na	33	5	’s	’s	POS
work_lqoc3fv36veffa62lsrtqpk4na	33	6	largest	large	JJS
work_lqoc3fv36veffa62lsrtqpk4na	33	7	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	33	8	resource	resource	NN
work_lqoc3fv36veffa62lsrtqpk4na	33	9	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	33	10	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	33	11	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	33	12	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	34	1	Lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	3	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	34	4	available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	5	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	6	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	7	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	8	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	34	9	include	include	VBP
work_lqoc3fv36veffa62lsrtqpk4na	34	10	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	11	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	12	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	34	13	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	14	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	15	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	16	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	17	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	19	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	20	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	22	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	23	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	26	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	27	cultured	cultured	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	28	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	29	stems	stem	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	34	30	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	32	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	33	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	34	its	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	34	35	wastes	waste	NNS
work_lqoc3fv36veffa62lsrtqpk4na	34	36	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	37	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	38	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	39	industry	industry	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	40	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	41	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	42	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	43	bough	bough	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	44	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	45	bark	bark	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	46	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	47	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	48	sawdust	sawdust	NNP
work_lqoc3fv36veffa62lsrtqpk4na	34	49	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	50	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	51	dedicated	dedicated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	52	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	53	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	34	54	rotation	rotation	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	55	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	56	coppice	coppice	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	57	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	58	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	59	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	60	eucalyptus	eucalyptus	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	61	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	62	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	63	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	64	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	65	willow	willow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	34	66	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	67	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	34	68	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	69	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	70	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	71	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	72	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	34	73	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	74	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	34	75	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	34	76	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	77	natural	natural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	34	78	grasses	grass	NNS
work_lqoc3fv36veffa62lsrtqpk4na	34	79	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	34	80	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	35	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	35	2	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	35	3	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	35	4	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	35	5	includes	include	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	35	6	three	three	CD
work_lqoc3fv36veffa62lsrtqpk4na	35	7	main	main	JJ
work_lqoc3fv36veffa62lsrtqpk4na	35	8	components	component	NNS
work_lqoc3fv36veffa62lsrtqpk4na	35	9	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	35	10	cellulose	cellulose	NNP
work_lqoc3fv36veffa62lsrtqpk4na	35	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	35	12	hemicellulose	hemicellulose	NN
work_lqoc3fv36veffa62lsrtqpk4na	35	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	35	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	35	15	lignin	lignin	JJ
work_lqoc3fv36veffa62lsrtqpk4na	35	16	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	35	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	35	18	cellulose	cellulose	VB
work_lqoc3fv36veffa62lsrtqpk4na	35	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	35	20	hemicellulose	hemicellulose	VB
work_lqoc3fv36veffa62lsrtqpk4na	35	21	make	make	VBP
work_lqoc3fv36veffa62lsrtqpk4na	35	22	up	up	RP
work_lqoc3fv36veffa62lsrtqpk4na	35	23	approximately	approximately	RB
work_lqoc3fv36veffa62lsrtqpk4na	35	24	70	70	CD
work_lqoc3fv36veffa62lsrtqpk4na	35	25	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	35	26	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	35	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	35	28	entire	entire	JJ
work_lqoc3fv36veffa62lsrtqpk4na	35	29	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	35	30	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	35	31	4,5	4,5	CD
work_lqoc3fv36veffa62lsrtqpk4na	35	32	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	35	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	36	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	36	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	5	12976	12976	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	6	Agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	7	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	8	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	9	include	include	VBP
work_lqoc3fv36veffa62lsrtqpk4na	36	10	25%–35	25%–35	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	11	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	12	hemicelluloses	hemicellulose	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	14	37%–50	37%–50	:
work_lqoc3fv36veffa62lsrtqpk4na	36	15	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	16	celluloses	cellulose	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	18	5%–15	5%–15	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	19	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	20	lignin	lignin	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	36	23	12%–16	12%–16	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	24	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	25	ash	ash	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	26	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	36	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	36	28	compounds	compound	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	29	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	36	30	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	32	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	33	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	36	34	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	35	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	37	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	36	38	similar	similar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	39	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	36	40	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	41	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	42	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	43	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	36	44	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	36	45	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	46	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	47	including	include	VBG
work_lqoc3fv36veffa62lsrtqpk4na	36	48	hard	hard	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	49	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	50	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	36	51	soft	soft	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	52	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	53	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	36	54	divided	divide	VBN
work_lqoc3fv36veffa62lsrtqpk4na	36	55	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	36	56	25%–40	25%–40	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	57	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	58	hemicelluloses	hemicellulose	NNS
work_lqoc3fv36veffa62lsrtqpk4na	36	59	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	36	60	40%–47	40%–47	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	61	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	62	cellulose	cellulose	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	63	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	64	20%–60	20%–60	CD
work_lqoc3fv36veffa62lsrtqpk4na	36	65	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	66	lignin	lignin	NNP
work_lqoc3fv36veffa62lsrtqpk4na	36	67	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	36	68	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	36	69	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	36	70	little	little	JJ
work_lqoc3fv36veffa62lsrtqpk4na	36	71	amount	amount	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	72	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	36	73	ash	ash	NN
work_lqoc3fv36veffa62lsrtqpk4na	36	74	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	37	1	This	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	37	2	article	article	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	3	focuses	focus	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	37	4	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	37	6	investigation	investigation	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	8	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	9	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	10	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	11	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	37	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	13	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	37	15	candidates	candidate	NNS
work_lqoc3fv36veffa62lsrtqpk4na	37	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	37	17	as	as	RB
work_lqoc3fv36veffa62lsrtqpk4na	37	18	well	well	RB
work_lqoc3fv36veffa62lsrtqpk4na	37	19	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	37	21	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	22	improvement	improvement	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	23	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	24	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	37	26	heat	heat	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	27	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	28	evaluated	evaluate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	37	29	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	37	30	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	31	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	32	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	33	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	37	34	6–10	6–10	NN
work_lqoc3fv36veffa62lsrtqpk4na	37	35	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	37	36	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	38	1	Life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	2	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	3	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	38	5	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	38	6	called	call	VBN
work_lqoc3fv36veffa62lsrtqpk4na	38	7	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	8	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	9	analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	10	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	38	11	LCA	LCA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	38	12	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	38	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	38	14	evaluates	evaluate	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	38	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	38	16	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	38	17	burdens	burden	NNS
work_lqoc3fv36veffa62lsrtqpk4na	38	18	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	38	19	identifying	identify	VBG
work_lqoc3fv36veffa62lsrtqpk4na	38	20	resource	resource	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	21	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	38	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	38	23	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	24	consumptions	consumption	NNS
work_lqoc3fv36veffa62lsrtqpk4na	38	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	38	26	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	38	27	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	38	28	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	38	29	various	various	JJ
work_lqoc3fv36veffa62lsrtqpk4na	38	30	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	38	31	compartments	compartment	NNS
work_lqoc3fv36veffa62lsrtqpk4na	38	32	resulting	result	VBG
work_lqoc3fv36veffa62lsrtqpk4na	38	33	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	38	34	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	38	35	particular	particular	JJ
work_lqoc3fv36veffa62lsrtqpk4na	38	36	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	37	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	38	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	38	39	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	38	40	product	product	NN
work_lqoc3fv36veffa62lsrtqpk4na	38	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	39	1	It	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	39	2	commonly	commonly	RB
work_lqoc3fv36veffa62lsrtqpk4na	39	3	comprises	comprise	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	39	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	39	5	four	four	CD
work_lqoc3fv36veffa62lsrtqpk4na	39	6	steps	step	NNS
work_lqoc3fv36veffa62lsrtqpk4na	39	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	39	8	goal	goal	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	39	10	boundary	boundary	JJ
work_lqoc3fv36veffa62lsrtqpk4na	39	11	definition	definition	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	39	13	inventory	inventory	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	14	analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	39	16	impact	impact	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	17	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	39	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	39	20	impact	impact	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	21	interpretation	interpretation	NN
work_lqoc3fv36veffa62lsrtqpk4na	39	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	40	1	Here	here	RB
work_lqoc3fv36veffa62lsrtqpk4na	40	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	40	3	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	4	models	model	NNS
work_lqoc3fv36veffa62lsrtqpk4na	40	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	6	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	7	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	40	8	evaluated	evaluate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	40	9	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	40	10	clarify	clarify	VB
work_lqoc3fv36veffa62lsrtqpk4na	40	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	40	12	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	13	effects	effect	NNS
work_lqoc3fv36veffa62lsrtqpk4na	40	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	15	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	16	types	type	NNS
work_lqoc3fv36veffa62lsrtqpk4na	40	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	18	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	19	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	20	according	accord	VBG
work_lqoc3fv36veffa62lsrtqpk4na	40	21	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	22	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	23	impacts	impact	NNS
work_lqoc3fv36veffa62lsrtqpk4na	40	24	during	during	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	25	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	40	26	whole	whole	JJ
work_lqoc3fv36veffa62lsrtqpk4na	40	27	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	28	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	29	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	30	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	31	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	32	discussion	discussion	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	33	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	40	34	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	40	35	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	40	37	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	38	consumption	consumption	NN
work_lqoc3fv36veffa62lsrtqpk4na	40	39	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	40	40	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	40	41	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	40	42	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	41	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	41	2	whole	whole	JJ
work_lqoc3fv36veffa62lsrtqpk4na	41	3	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	41	4	starts	start	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	41	5	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	41	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	41	7	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	41	8	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	41	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	41	10	ends	end	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	41	11	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	41	12	waste	waste	NN
work_lqoc3fv36veffa62lsrtqpk4na	41	13	releases	release	NNS
work_lqoc3fv36veffa62lsrtqpk4na	41	14	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	41	15	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	41	16	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	41	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	42	1	2	2	LS
work_lqoc3fv36veffa62lsrtqpk4na	42	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	43	1	Feedstock	Feedstock	NNP
work_lqoc3fv36veffa62lsrtqpk4na	43	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	43	3	Lignocellulosic	Lignocellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	43	4	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	43	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	43	6	Preparations	Preparations	NNP
work_lqoc3fv36veffa62lsrtqpk4na	43	7	2.1	2.1	CD
work_lqoc3fv36veffa62lsrtqpk4na	43	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	44	1	Feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	44	2	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	44	3	Forestry	Forestry	NNP
work_lqoc3fv36veffa62lsrtqpk4na	44	4	Wood	Wood	NNP
work_lqoc3fv36veffa62lsrtqpk4na	44	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	44	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	44	7	Cultivation	Cultivation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	44	8	Thirty	thirty	CD
work_lqoc3fv36veffa62lsrtqpk4na	44	9	percent	percent	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	44	11	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	44	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	13	produced	produce	VBD
work_lqoc3fv36veffa62lsrtqpk4na	44	14	every	every	DT
work_lqoc3fv36veffa62lsrtqpk4na	44	15	year	year	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	16	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	44	17	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	44	18	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	44	19	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	44	20	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	44	21	forest	forest	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	22	woody	woody	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	23	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	44	24	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	44	25	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	44	26	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	44	27	about	about	IN
work_lqoc3fv36veffa62lsrtqpk4na	44	28	336	336	CD
work_lqoc3fv36veffa62lsrtqpk4na	44	29	million	million	CD
work_lqoc3fv36veffa62lsrtqpk4na	44	30	tons	ton	NNS
work_lqoc3fv36veffa62lsrtqpk4na	44	31	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	44	32	11	11	CD
work_lqoc3fv36veffa62lsrtqpk4na	44	33	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	44	34	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	45	1	Forest	forest	NN
work_lqoc3fv36veffa62lsrtqpk4na	45	2	woody	woody	NN
work_lqoc3fv36veffa62lsrtqpk4na	45	3	materials	material	NNS
work_lqoc3fv36veffa62lsrtqpk4na	45	4	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	45	5	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	45	6	classified	classify	VBN
work_lqoc3fv36veffa62lsrtqpk4na	45	7	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	45	8	softwoods	softwood	NNS
work_lqoc3fv36veffa62lsrtqpk4na	45	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	45	10	hardwoods	hardwood	NNS
work_lqoc3fv36veffa62lsrtqpk4na	45	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	46	1	Most	Most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	46	2	softwoods	softwood	NNS
work_lqoc3fv36veffa62lsrtqpk4na	46	3	grow	grow	VBP
work_lqoc3fv36veffa62lsrtqpk4na	46	4	faster	fast	RBR
work_lqoc3fv36veffa62lsrtqpk4na	46	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	46	6	possess	possess	VB
work_lqoc3fv36veffa62lsrtqpk4na	46	7	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	46	8	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	46	9	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	46	10	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	46	11	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	46	12	mean	mean	VBP
work_lqoc3fv36veffa62lsrtqpk4na	46	13	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	46	14	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	46	15	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	46	16	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	46	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	46	18	most	most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	46	19	hardwoods	hardwood	NNS
work_lqoc3fv36veffa62lsrtqpk4na	46	20	grow	grow	VBP
work_lqoc3fv36veffa62lsrtqpk4na	46	21	slower	slow	JJR
work_lqoc3fv36veffa62lsrtqpk4na	46	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	46	23	have	have	VB
work_lqoc3fv36veffa62lsrtqpk4na	46	24	higher	high	JJR
work_lqoc3fv36veffa62lsrtqpk4na	46	25	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	46	26	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	46	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	47	1	Softwoods	softwood	NNS
work_lqoc3fv36veffa62lsrtqpk4na	47	2	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	47	3	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	47	4	gymnosperm	gymnosperm	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	5	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	47	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	7	mostly	mostly	RB
work_lqoc3fv36veffa62lsrtqpk4na	47	8	evergreen	evergreen	JJ
work_lqoc3fv36veffa62lsrtqpk4na	47	9	species	specie	NNS
work_lqoc3fv36veffa62lsrtqpk4na	47	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	11	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	47	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	13	pine	pine	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	15	spruce	spruce	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	17	cypress	cypress	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	19	fir	fir	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	21	hemlock	hemlock	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	47	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	47	24	redwood	redwood	NN
work_lqoc3fv36veffa62lsrtqpk4na	47	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	48	1	Hardwoods	Hardwoods	NNP
work_lqoc3fv36veffa62lsrtqpk4na	48	2	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	48	3	deciduous	deciduous	JJ
work_lqoc3fv36veffa62lsrtqpk4na	48	4	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	48	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	6	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	48	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	8	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	48	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	10	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	48	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	12	oak	oak	NN
work_lqoc3fv36veffa62lsrtqpk4na	48	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	14	cottonwood	cottonwood	NN
work_lqoc3fv36veffa62lsrtqpk4na	48	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	48	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	48	17	aspen	aspen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	48	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	49	1	Wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	49	2	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	49	4	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	49	5	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	49	6	sawdust	sawdust	NNP
work_lqoc3fv36veffa62lsrtqpk4na	49	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	49	8	barks	bark	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	9	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	49	10	sawmills	sawmill	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	49	12	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	49	13	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	49	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	49	16	branches	branch	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	17	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	49	18	dead	dead	JJ
work_lqoc3fv36veffa62lsrtqpk4na	49	19	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	20	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	49	21	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	49	22	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	49	23	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	49	24	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	49	25	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	49	26	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	49	27	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	49	28	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	50	1	Compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	50	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	50	3	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	50	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	50	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	50	6	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	50	7	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	50	8	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	50	9	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	50	10	collected	collect	VBN
work_lqoc3fv36veffa62lsrtqpk4na	50	11	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	50	12	its	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	50	13	ripe	ripe	JJ
work_lqoc3fv36veffa62lsrtqpk4na	50	14	time	time	NN
work_lqoc3fv36veffa62lsrtqpk4na	50	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	50	16	woody	woody	NN
work_lqoc3fv36veffa62lsrtqpk4na	50	17	materials	material	NNS
work_lqoc3fv36veffa62lsrtqpk4na	50	18	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	50	19	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	50	20	collected	collect	VBN
work_lqoc3fv36veffa62lsrtqpk4na	50	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	50	22	transported	transported	JJ
work_lqoc3fv36veffa62lsrtqpk4na	50	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	50	24	stored	store	VBN
work_lqoc3fv36veffa62lsrtqpk4na	50	25	flexibly	flexibly	RB
work_lqoc3fv36veffa62lsrtqpk4na	50	26	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	50	27	time	time	NN
work_lqoc3fv36veffa62lsrtqpk4na	50	28	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	51	1	Similar	similar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	51	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	51	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	51	4	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	5	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	7	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	51	8	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	51	9	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	51	10	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	51	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	12	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	51	13	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	51	14	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	16	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	51	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	18	black	black	JJ
work_lqoc3fv36veffa62lsrtqpk4na	51	19	locust	locust	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	21	eucalyptus	eucalyptus	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	23	chestnut	chestnut	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	25	etc	etc	FW
work_lqoc3fv36veffa62lsrtqpk4na	51	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	51	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	51	28	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	51	29	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	51	30	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	51	31	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	51	32	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	51	33	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	34	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	51	35	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	36	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	51	37	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	51	38	12–19	12–19	CD
work_lqoc3fv36veffa62lsrtqpk4na	51	39	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	51	40	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	52	1	Fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	52	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	52	3	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	52	4	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	5	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	52	6	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	52	7	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	52	8	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	52	9	produce	produce	VB
work_lqoc3fv36veffa62lsrtqpk4na	52	10	fuelwood	fuelwood	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	52	12	furniture	furniture	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	13	materials	material	NNS
work_lqoc3fv36veffa62lsrtqpk4na	52	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	52	15	fiber	fiber	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	16	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	52	17	paper	paper	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	52	19	cellulose	cellulose	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	20	industries	industry	NNS
work_lqoc3fv36veffa62lsrtqpk4na	52	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	52	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	52	23	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	52	24	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	52	25	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	52	26	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	52	27	20	20	CD
work_lqoc3fv36veffa62lsrtqpk4na	52	28	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	52	29	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	53	1	Fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	53	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	53	3	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	53	4	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	5	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	53	6	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	7	advantages	advantage	NNS
work_lqoc3fv36veffa62lsrtqpk4na	53	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	53	9	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	10	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	53	11	high	high	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	12	yield	yield	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	13	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	53	14	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	15	time	time	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	16	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	53	18	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	19	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	20	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	53	21	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	53	23	management	management	NN
work_lqoc3fv36veffa62lsrtqpk4na	53	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	53	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	53	26	possible	possible	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	27	opportunities	opportunity	NNS
work_lqoc3fv36veffa62lsrtqpk4na	53	28	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	53	29	planting	plant	VBG
work_lqoc3fv36veffa62lsrtqpk4na	53	30	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	53	31	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	32	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	33	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	53	34	lands	land	NNS
work_lqoc3fv36veffa62lsrtqpk4na	53	35	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	54	1	These	these	DT
work_lqoc3fv36veffa62lsrtqpk4na	54	2	fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	54	3	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	54	4	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	54	5	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	54	6	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	54	7	planted	plant	VBN
work_lqoc3fv36veffa62lsrtqpk4na	54	8	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	54	9	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	54	10	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	54	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	54	12	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	54	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	54	14	China	China	NNP
work_lqoc3fv36veffa62lsrtqpk4na	54	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	54	16	India	India	NNP
work_lqoc3fv36veffa62lsrtqpk4na	54	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	54	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	54	19	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	54	20	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	54	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	54	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	54	23	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	54	24	European	european	JJ
work_lqoc3fv36veffa62lsrtqpk4na	54	25	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	54	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	55	1	For	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	55	2	example	example	NN
work_lqoc3fv36veffa62lsrtqpk4na	55	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	55	4	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	55	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	55	6	black	black	JJ
work_lqoc3fv36veffa62lsrtqpk4na	55	7	locust	locust	NN
work_lqoc3fv36veffa62lsrtqpk4na	55	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	55	9	eucalyptus	eucalyptus	NN
work_lqoc3fv36veffa62lsrtqpk4na	55	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	55	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	55	12	willow	willow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	55	13	were	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	55	14	planted	plant	VBN
work_lqoc3fv36veffa62lsrtqpk4na	55	15	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	55	16	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	55	17	areas	area	NNS
work_lqoc3fv36veffa62lsrtqpk4na	55	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	55	19	depending	depend	VBG
work_lqoc3fv36veffa62lsrtqpk4na	55	20	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	55	21	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	55	22	climate	climate	NN
work_lqoc3fv36veffa62lsrtqpk4na	55	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	55	24	land	land	NN
work_lqoc3fv36veffa62lsrtqpk4na	55	25	options	option	NNS
work_lqoc3fv36veffa62lsrtqpk4na	55	26	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	55	27	Spain	Spain	NNP
work_lqoc3fv36veffa62lsrtqpk4na	55	28	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	55	29	15,21	15,21	CD
work_lqoc3fv36veffa62lsrtqpk4na	55	30	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	55	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	56	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	56	2	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	3	densities	densitie	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	56	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	56	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	56	6	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	7	time	time	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	8	periods	period	NNS
work_lqoc3fv36veffa62lsrtqpk4na	56	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	56	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	56	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	56	12	harvest	harvest	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	56	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	56	15	fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	56	16	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	17	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	56	18	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	56	19	listed	list	VBN
work_lqoc3fv36veffa62lsrtqpk4na	56	20	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	56	21	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	56	22	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	56	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	57	1	It	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	57	2	obviously	obviously	RB
work_lqoc3fv36veffa62lsrtqpk4na	57	3	shows	show	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	57	4	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	57	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	57	6	harvest	harvest	NN
work_lqoc3fv36veffa62lsrtqpk4na	57	7	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	57	8	varies	vary	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	57	9	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	57	10	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	57	11	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	57	12	types	type	NNS
work_lqoc3fv36veffa62lsrtqpk4na	57	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	57	14	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	57	15	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	57	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	58	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	58	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	58	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	58	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	58	5	12977	12977	CD
work_lqoc3fv36veffa62lsrtqpk4na	58	6	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	58	7	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	58	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	59	1	Summary	summary	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	59	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	59	4	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	5	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	59	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	59	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	59	8	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	9	time	time	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	10	periods	period	NNS
work_lqoc3fv36veffa62lsrtqpk4na	59	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	59	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	59	13	harvest	harvest	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	59	15	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	59	16	fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	59	17	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	59	18	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	59	19	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	59	20	Spain	Spain	NNP
work_lqoc3fv36veffa62lsrtqpk4na	59	21	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	59	22	15,21	15,21	CD
work_lqoc3fv36veffa62lsrtqpk4na	59	23	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	59	24	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	60	1	Crop	Crop	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	2	Plantation	Plantation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	3	Density	Density	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	4	Cultivation	Cultivation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	5	Period	Period	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	6	Yield	Yield	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	7	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	60	8	Year	Year	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	9	Eucalyptus	Eucalyptus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	10	1428	1428	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	11	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	12	ha−1	ha−1	PRP
work_lqoc3fv36veffa62lsrtqpk4na	60	13	15	15	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	14	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	15	5.2	5.2	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	16	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	60	17	ha−1·year−1	ha−1·year−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	18	Poplar	Poplar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	19	10,000	10,000	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	20	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	21	ha−1	ha−1	PRP
work_lqoc3fv36veffa62lsrtqpk4na	60	22	16	16	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	23	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	24	13.5	13.5	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	25	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	60	26	ha−1·year−1	ha−1·year−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	27	Black	Black	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	28	locust	locust	NN
work_lqoc3fv36veffa62lsrtqpk4na	60	29	1100	1100	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	30	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	31	ha−1	ha−1	PRP
work_lqoc3fv36veffa62lsrtqpk4na	60	32	16	16	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	33	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	34	9	9	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	35	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	60	36	ha−1·year−1	ha−1·year−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	37	Willow	Willow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	38	10,000	10,000	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	39	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	40	ha−1	ha−1	PRP
work_lqoc3fv36veffa62lsrtqpk4na	60	41	20	20	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	42	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	60	43	10	10	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	44	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	60	45	ha−1·year−1	ha−1·year−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	60	46	2.2	2.2	CD
work_lqoc3fv36veffa62lsrtqpk4na	60	47	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	61	1	Feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	61	2	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	61	3	Agricultural	Agricultural	NNP
work_lqoc3fv36veffa62lsrtqpk4na	61	4	Crop	Crop	NNP
work_lqoc3fv36veffa62lsrtqpk4na	61	5	Residues	Residues	NNP
work_lqoc3fv36veffa62lsrtqpk4na	61	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	61	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	61	8	Cultivation	Cultivation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	61	9	Agricultural	Agricultural	NNP
work_lqoc3fv36veffa62lsrtqpk4na	61	10	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	61	11	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	61	12	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	61	13	among	among	IN
work_lqoc3fv36veffa62lsrtqpk4na	61	14	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	61	15	cheapest	cheap	JJS
work_lqoc3fv36veffa62lsrtqpk4na	61	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	61	17	most	most	RBS
work_lqoc3fv36veffa62lsrtqpk4na	61	18	widespread	widespread	JJ
work_lqoc3fv36veffa62lsrtqpk4na	61	19	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	61	20	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	61	21	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	61	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	62	1	They	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	62	2	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	62	3	mostly	mostly	RB
work_lqoc3fv36veffa62lsrtqpk4na	62	4	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	62	5	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	6	wastes	waste	NNS
work_lqoc3fv36veffa62lsrtqpk4na	62	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	62	8	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	9	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	62	10	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	11	straws	straw	NNS
work_lqoc3fv36veffa62lsrtqpk4na	62	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	62	13	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	14	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	62	16	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	17	straws	straws	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	62	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	62	20	husk	husk	NN
work_lqoc3fv36veffa62lsrtqpk4na	62	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	62	22	as	as	RB
work_lqoc3fv36veffa62lsrtqpk4na	62	23	well	well	RB
work_lqoc3fv36veffa62lsrtqpk4na	62	24	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	62	25	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	26	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	27	food	food	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	28	parts	part	NNS
work_lqoc3fv36veffa62lsrtqpk4na	62	29	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	62	30	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	62	31	planted	plant	VBN
work_lqoc3fv36veffa62lsrtqpk4na	62	32	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	62	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	63	1	Similar	similar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	63	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	63	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	63	4	availability	availability	NN
work_lqoc3fv36veffa62lsrtqpk4na	63	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	63	6	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	63	7	wood	wood	NNP
work_lqoc3fv36veffa62lsrtqpk4na	63	8	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	63	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	63	10	approximately	approximately	RB
work_lqoc3fv36veffa62lsrtqpk4na	63	11	318–408	318–408	CD
work_lqoc3fv36veffa62lsrtqpk4na	63	12	million	million	CD
work_lqoc3fv36veffa62lsrtqpk4na	63	13	tons	ton	NNS
work_lqoc3fv36veffa62lsrtqpk4na	63	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	63	15	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	63	16	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	63	17	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	63	18	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	63	19	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	63	20	harvested	harvest	VBN
work_lqoc3fv36veffa62lsrtqpk4na	63	21	per	per	IN
work_lqoc3fv36veffa62lsrtqpk4na	63	22	year	year	NN
work_lqoc3fv36veffa62lsrtqpk4na	63	23	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	63	24	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	63	25	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	63	26	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	63	27	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	63	28	11	11	CD
work_lqoc3fv36veffa62lsrtqpk4na	63	29	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	63	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	64	1	They	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	64	2	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	64	3	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	64	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	64	5	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	64	6	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	64	7	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	64	8	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	64	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	64	10	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	64	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	64	12	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	64	13	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	64	14	straws	straw	NNS
work_lqoc3fv36veffa62lsrtqpk4na	64	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	64	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	64	17	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	64	18	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	64	19	considered	consider	VBN
work_lqoc3fv36veffa62lsrtqpk4na	64	20	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	64	21	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	64	22	bioenergy	bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	64	23	feedstocks	feedstock	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	64	24	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	64	25	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	64	26	most	most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	64	27	potential	potential	NN
work_lqoc3fv36veffa62lsrtqpk4na	64	28	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	64	29	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	64	30	areas	area	NNS
work_lqoc3fv36veffa62lsrtqpk4na	64	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	65	1	Agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	65	2	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	3	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	65	4	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	65	5	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	65	6	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	65	7	density	density	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	8	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	65	9	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	10	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	65	12	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	65	13	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	65	14	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	65	15	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	65	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	65	18	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	65	19	relatively	relatively	RB
work_lqoc3fv36veffa62lsrtqpk4na	65	20	expensive	expensive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	65	21	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	65	22	collection	collection	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	65	24	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	65	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	66	1	However	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	66	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	66	3	alternative	alternative	JJ
work_lqoc3fv36veffa62lsrtqpk4na	66	4	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	66	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	66	6	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	66	7	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	66	8	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	66	9	help	help	VB
work_lqoc3fv36veffa62lsrtqpk4na	66	10	us	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	66	11	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	66	12	avoid	avoid	VB
work_lqoc3fv36veffa62lsrtqpk4na	66	13	reliance	reliance	NN
work_lqoc3fv36veffa62lsrtqpk4na	66	14	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	66	15	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	66	16	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	66	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	66	18	reduce	reduce	VB
work_lqoc3fv36veffa62lsrtqpk4na	66	19	deforestation	deforestation	NN
work_lqoc3fv36veffa62lsrtqpk4na	66	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	67	1	Another	another	DT
work_lqoc3fv36veffa62lsrtqpk4na	67	2	important	important	JJ
work_lqoc3fv36veffa62lsrtqpk4na	67	3	aspect	aspect	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	4	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	67	5	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	67	6	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	67	7	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	67	8	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	67	9	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	67	10	additional	additional	JJ
work_lqoc3fv36veffa62lsrtqpk4na	67	11	product	product	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	67	13	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	14	grain	grain	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	67	16	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	67	17	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	67	18	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	67	19	harvested	harvest	VBN
work_lqoc3fv36veffa62lsrtqpk4na	67	20	every	every	DT
work_lqoc3fv36veffa62lsrtqpk4na	67	21	year	year	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	67	23	so	so	IN
work_lqoc3fv36veffa62lsrtqpk4na	67	24	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	67	25	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	67	26	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	67	27	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	67	28	considered	consider	VBN
work_lqoc3fv36veffa62lsrtqpk4na	67	29	consistently	consistently	RB
work_lqoc3fv36veffa62lsrtqpk4na	67	30	available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	67	31	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	67	32	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	33	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	67	34	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	35	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	67	36	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	67	37	22,23	22,23	CD
work_lqoc3fv36veffa62lsrtqpk4na	67	38	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	67	39	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	68	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	68	2	contrast	contrast	NN
work_lqoc3fv36veffa62lsrtqpk4na	68	3	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	68	4	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	68	5	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	68	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	68	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	68	8	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	68	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	68	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	68	11	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	68	12	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	68	13	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	68	14	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	68	15	critical	critical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	68	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	69	1	With	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	2	regard	regard	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	3	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	4	winter	winter	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	5	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	6	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	8	two	two	CD
work_lqoc3fv36veffa62lsrtqpk4na	69	9	European	european	JJ
work_lqoc3fv36veffa62lsrtqpk4na	69	10	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	11	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	69	12	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	69	13	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	69	14	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	15	an	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	69	16	example	example	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	17	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	69	18	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	19	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	20	plantation	plantation	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	69	22	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	23	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	69	24	shows	show	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	69	25	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	26	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	69	27	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	28	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	69	29	outputs	output	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	30	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	69	31	according	accord	VBG
work_lqoc3fv36veffa62lsrtqpk4na	69	32	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	33	differences	difference	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	34	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	35	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	69	36	climate	climate	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	37	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	69	38	field	field	NN
work_lqoc3fv36veffa62lsrtqpk4na	69	39	conditions	condition	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	40	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	69	41	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	69	42	two	two	CD
work_lqoc3fv36veffa62lsrtqpk4na	69	43	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	69	44	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	70	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	70	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	70	3	table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	70	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	70	6	yield	yield	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	7	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	8	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	70	9	calculated	calculate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	70	10	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	70	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	70	12	ratio	ratio	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	70	14	grain	grain	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	70	16	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	70	17	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	70	18	1:0.8	1:0.8	CD
work_lqoc3fv36veffa62lsrtqpk4na	70	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	71	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	71	2	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	71	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	72	1	Main	main	JJ
work_lqoc3fv36veffa62lsrtqpk4na	72	2	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	72	3	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	72	4	outputs	output	NNS
work_lqoc3fv36veffa62lsrtqpk4na	72	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	72	6	winter	winter	NN
work_lqoc3fv36veffa62lsrtqpk4na	72	7	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	72	8	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	72	9	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	72	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	72	11	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	72	12	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	72	13	Germany	Germany	NNP
work_lqoc3fv36veffa62lsrtqpk4na	72	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	72	15	Poland	Poland	NNP
work_lqoc3fv36veffa62lsrtqpk4na	72	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	73	1	Parameter	Parameter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	2	Unit	Unit	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	3	Winter	Winter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	4	Wheat	Wheat	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	5	Reference	Reference	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	6	Source	Source	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	7	Corn	Corn	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	8	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	9	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	10	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	11	Germany	Germany	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	12	Poland	Poland	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	13	Yield	Yield	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	14	grain	grain	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	15	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	16	7430	7430	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	17	3800	3800	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	18	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	19	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	20	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	21	8000	8000	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	22	Yield	yield	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	23	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	24	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	25	5940	5940	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	26	3040	3040	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	27	6400	6400	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	28	Diesel	Diesel	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	29	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	30	75	75	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	31	75	75	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	32	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	33	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	34	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	35	160	160	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	36	Seeds	seed	NNS
work_lqoc3fv36veffa62lsrtqpk4na	73	37	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	38	140	140	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	39	140	140	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	40	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	41	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	42	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	43	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	44	N	n	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	45	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	73	46	fertilizer	fertilizer	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	47	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	48	165	165	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	49	65	65	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	50	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	51	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	52	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	53	150	150	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	54	P	p	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	55	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	73	56	fertilizer	fertilizer	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	57	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	58	30	30	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	59	10	10	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	60	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	61	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	62	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	63	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	64	K	k	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	65	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	73	66	fertilizer	fertilizer	NN
work_lqoc3fv36veffa62lsrtqpk4na	73	67	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	68	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	69	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	70	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	71	27	27	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	72	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	73	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	74	Herbicides	herbicide	NNS
work_lqoc3fv36veffa62lsrtqpk4na	73	75	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	76	1.43	1.43	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	77	0.69	0.69	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	78	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	79	27	27	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	80	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	73	81	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	82	Insecticides	Insecticides	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	83	Kg·ha−1	Kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	84	0.04	0.04	CD
work_lqoc3fv36veffa62lsrtqpk4na	73	85	n.a	n.a	NNP
work_lqoc3fv36veffa62lsrtqpk4na	73	86	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	74	1	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	74	2	27	27	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	3	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	74	4	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	5	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	74	6	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	74	8	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	9	12978	12978	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	10	2.3	2.3	CD
work_lqoc3fv36veffa62lsrtqpk4na	74	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	75	1	Perennial	Perennial	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	2	Fast	Fast	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	3	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	75	4	Growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	75	5	Grass	Grass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	75	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	75	8	Cultivation	Cultivation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	9	Switch	Switch	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	10	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	75	11	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	75	12	perennial	perennial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	75	13	warm	warm	JJ
work_lqoc3fv36veffa62lsrtqpk4na	75	14	season	season	NN
work_lqoc3fv36veffa62lsrtqpk4na	75	15	bunchgrass	bunchgrass	NN
work_lqoc3fv36veffa62lsrtqpk4na	75	16	that	that	WDT
work_lqoc3fv36veffa62lsrtqpk4na	75	17	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	75	18	native	native	JJ
work_lqoc3fv36veffa62lsrtqpk4na	75	19	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	75	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	75	21	North	north	JJ
work_lqoc3fv36veffa62lsrtqpk4na	75	22	American	American	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	23	hemisphere	hemisphere	NN
work_lqoc3fv36veffa62lsrtqpk4na	75	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	75	25	mainly	mainly	RB
work_lqoc3fv36veffa62lsrtqpk4na	75	26	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	75	27	Canada	Canada	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	28	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	75	29	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	75	30	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	31	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	75	32	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	75	33	1,2	1,2	CD
work_lqoc3fv36veffa62lsrtqpk4na	75	34	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	75	35	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	76	1	Switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	2	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	76	4	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	76	5	only	only	RB
work_lqoc3fv36veffa62lsrtqpk4na	76	6	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	76	7	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	76	8	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	76	9	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	76	10	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	76	12	but	but	CC
work_lqoc3fv36veffa62lsrtqpk4na	76	13	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	76	14	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	76	15	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	76	16	advantages	advantage	NNS
work_lqoc3fv36veffa62lsrtqpk4na	76	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	76	18	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	19	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	76	20	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	21	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	22	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	76	23	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	76	24	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	25	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	76	26	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	76	27	wide	wide	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	28	distribution	distribution	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	29	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	76	30	abundance	abundance	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	31	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	76	32	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	76	33	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	76	34	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	76	35	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	76	36	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	76	37	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	38	maintenance	maintenance	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	39	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	76	40	requiring	require	VBG
work_lqoc3fv36veffa62lsrtqpk4na	76	41	little	little	JJ
work_lqoc3fv36veffa62lsrtqpk4na	76	42	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	76	43	no	no	DT
work_lqoc3fv36veffa62lsrtqpk4na	76	44	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	76	45	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	77	1	Although	although	IN
work_lqoc3fv36veffa62lsrtqpk4na	77	2	typically	typically	RB
work_lqoc3fv36veffa62lsrtqpk4na	77	3	shorter	short	JJR
work_lqoc3fv36veffa62lsrtqpk4na	77	4	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	77	5	big	big	JJ
work_lqoc3fv36veffa62lsrtqpk4na	77	6	bluestem	bluestem	NNP
work_lqoc3fv36veffa62lsrtqpk4na	77	7	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	77	8	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	77	9	Indian	indian	JJ
work_lqoc3fv36veffa62lsrtqpk4na	77	10	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	77	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	77	12	switch	switch	VB
work_lqoc3fv36veffa62lsrtqpk4na	77	13	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	77	14	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	77	15	grow	grow	VB
work_lqoc3fv36veffa62lsrtqpk4na	77	16	up	up	IN
work_lqoc3fv36veffa62lsrtqpk4na	77	17	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	77	18	2.7	2.7	CD
work_lqoc3fv36veffa62lsrtqpk4na	77	19	meters	meter	NNS
work_lqoc3fv36veffa62lsrtqpk4na	77	20	high	high	JJ
work_lqoc3fv36veffa62lsrtqpk4na	77	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	78	1	Switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	2	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	3	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	78	4	another	another	DT
work_lqoc3fv36veffa62lsrtqpk4na	78	5	more	more	RBR
work_lqoc3fv36veffa62lsrtqpk4na	78	6	attractive	attractive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	78	7	advantage	advantage	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	8	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	78	9	resistance	resistance	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	10	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	78	11	conditions	condition	NNS
work_lqoc3fv36veffa62lsrtqpk4na	78	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	78	13	drought	drought	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	78	15	high	high	JJ
work_lqoc3fv36veffa62lsrtqpk4na	78	16	temperature	temperature	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	17	because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	78	18	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	78	19	uses	use	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	78	20	C4	c4	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	21	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	22	fixation	fixation	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	23	like	like	IN
work_lqoc3fv36veffa62lsrtqpk4na	78	24	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	78	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	79	1	Because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	79	2	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	79	3	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	79	4	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	79	5	perennial	perennial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	79	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	79	7	self	self	NN
work_lqoc3fv36veffa62lsrtqpk4na	79	8	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	79	9	seeding	seed	VBG
work_lqoc3fv36veffa62lsrtqpk4na	79	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	79	11	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	79	12	lifetime	lifetime	NN
work_lqoc3fv36veffa62lsrtqpk4na	79	13	around	around	IN
work_lqoc3fv36veffa62lsrtqpk4na	79	14	10	10	CD
work_lqoc3fv36veffa62lsrtqpk4na	79	15	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	79	16	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	79	17	even	even	RB
work_lqoc3fv36veffa62lsrtqpk4na	79	18	longer	long	RBR
work_lqoc3fv36veffa62lsrtqpk4na	79	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	79	20	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	79	21	does	do	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	79	22	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	79	23	need	need	VB
work_lqoc3fv36veffa62lsrtqpk4na	79	24	planting	plant	VBG
work_lqoc3fv36veffa62lsrtqpk4na	79	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	79	26	reseeding	reseed	VBG
work_lqoc3fv36veffa62lsrtqpk4na	79	27	after	after	IN
work_lqoc3fv36veffa62lsrtqpk4na	79	28	annual	annual	JJ
work_lqoc3fv36veffa62lsrtqpk4na	79	29	harvesting	harvesting	NN
work_lqoc3fv36veffa62lsrtqpk4na	79	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	80	1	However	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	80	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	80	3	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	80	4	order	order	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	5	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	80	6	guarantee	guarantee	VB
work_lqoc3fv36veffa62lsrtqpk4na	80	7	high	high	JJ
work_lqoc3fv36veffa62lsrtqpk4na	80	8	yield	yield	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	9	every	every	DT
work_lqoc3fv36veffa62lsrtqpk4na	80	10	year	year	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	80	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	80	13	necessary	necessary	JJ
work_lqoc3fv36veffa62lsrtqpk4na	80	14	input	input	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	80	16	maintenance	maintenance	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	80	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	80	19	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	80	20	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	80	21	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	80	22	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	80	23	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	80	24	suggestive	suggestive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	80	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	81	1	Miscanthus	Miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	81	2	giganteus	giganteus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	81	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	81	4	another	another	DT
work_lqoc3fv36veffa62lsrtqpk4na	81	5	perennial	perennial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	81	6	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	81	7	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	81	8	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	81	9	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	10	that	that	WDT
work_lqoc3fv36veffa62lsrtqpk4na	81	11	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	81	12	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	81	13	great	great	JJ
work_lqoc3fv36veffa62lsrtqpk4na	81	14	candidate	candidate	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	15	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	81	16	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	17	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	81	19	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	20	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	81	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	82	1	It	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	82	2	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	82	3	native	native	JJ
work_lqoc3fv36veffa62lsrtqpk4na	82	4	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	82	5	Asia	Asia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	82	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	82	7	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	82	8	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	82	9	planted	plant	VBN
work_lqoc3fv36veffa62lsrtqpk4na	82	10	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	82	11	Europe	Europe	NNP
work_lqoc3fv36veffa62lsrtqpk4na	82	12	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	82	13	combustible	combustible	JJ
work_lqoc3fv36veffa62lsrtqpk4na	82	14	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	82	15	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	82	16	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	82	17	28	28	CD
work_lqoc3fv36veffa62lsrtqpk4na	82	18	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	82	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	83	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	83	2	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	83	3	3	3	CD
work_lqoc3fv36veffa62lsrtqpk4na	83	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	83	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	83	6	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	83	7	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	83	8	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	83	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	83	10	outputs	output	NNS
work_lqoc3fv36veffa62lsrtqpk4na	83	11	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	83	12	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	83	13	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	83	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	83	15	miscanthus	miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	83	16	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	83	17	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	83	18	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	83	19	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	83	20	listed	list	VBN
work_lqoc3fv36veffa62lsrtqpk4na	83	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	84	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	84	2	3	3	CD
work_lqoc3fv36veffa62lsrtqpk4na	84	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	85	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	85	2	input	input	NN
work_lqoc3fv36veffa62lsrtqpk4na	85	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	85	4	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	85	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	85	6	output	output	NN
work_lqoc3fv36veffa62lsrtqpk4na	85	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	85	8	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	85	9	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	85	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	85	11	miscanthus	miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	85	12	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	85	13	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	85	14	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	85	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	86	1	Parameter	Parameter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	2	Units	Units	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	3	Switch	Switch	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	4	Grass	Grass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	5	Miscanthus	Miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	6	Planting	Planting	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	7	year	year	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	8	N	n	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	9	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	10	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	11	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	12	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	13	-	-	:
work_lqoc3fv36veffa62lsrtqpk4na	86	14	P	p	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	15	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	16	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	17	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	18	87	87	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	19	87	87	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	20	K	K	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	21	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	22	fertilization	fertilization	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	23	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	24	ha−1	ha−1	PRP
work_lqoc3fv36veffa62lsrtqpk4na	86	25	166	166	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	26	166	166	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	27	Seeds	Seeds	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	86	28	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	29	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	30	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	31	Productive	productive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	86	32	years	year	NNS
work_lqoc3fv36veffa62lsrtqpk4na	86	33	N	n	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	34	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	35	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	36	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	37	80	80	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	38	90	90	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	39	P	p	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	40	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	41	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	42	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	43	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	44	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	45	K	K	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	46	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	86	47	fertilization	fertilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	48	kg·ha−1	kg·ha−1	NNP
work_lqoc3fv36veffa62lsrtqpk4na	86	49	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	50	60	60	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	51	yield	yield	NN
work_lqoc3fv36veffa62lsrtqpk4na	86	52	Mg·ha−1	mg·ha−1	$
work_lqoc3fv36veffa62lsrtqpk4na	86	53	12	12	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	54	17	17	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	55	3	3	CD
work_lqoc3fv36veffa62lsrtqpk4na	86	56	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	87	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	87	2	Role	Role	NNP
work_lqoc3fv36veffa62lsrtqpk4na	87	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	4	Transportation	Transportation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	87	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	87	6	Pelletization	Pelletization	NNP
work_lqoc3fv36veffa62lsrtqpk4na	87	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	87	9	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	10	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	11	contrast	contrast	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	12	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	13	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	87	14	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	87	15	like	like	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	16	wind	wind	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	18	solar	solar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	87	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	20	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	87	21	hydropower	hydropower	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	23	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	87	24	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	25	feedstocks	feedstock	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	87	26	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	27	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	28	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	29	must	must	MD
work_lqoc3fv36veffa62lsrtqpk4na	87	30	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	87	31	produced	produce	VBN
work_lqoc3fv36veffa62lsrtqpk4na	87	32	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	33	collected	collect	VBN
work_lqoc3fv36veffa62lsrtqpk4na	87	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	35	transported	transport	VBN
work_lqoc3fv36veffa62lsrtqpk4na	87	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	87	37	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	87	38	stored	store	VBN
work_lqoc3fv36veffa62lsrtqpk4na	87	39	before	before	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	40	their	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	87	41	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	42	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	87	43	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	87	44	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	45	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	87	46	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	88	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	88	2	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	5	materials	material	NNS
work_lqoc3fv36veffa62lsrtqpk4na	88	6	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	88	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	8	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	9	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	10	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	11	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	88	12	critically	critically	RB
work_lqoc3fv36veffa62lsrtqpk4na	88	13	dependent	dependent	JJ
work_lqoc3fv36veffa62lsrtqpk4na	88	14	upon	upon	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	88	16	availability	availability	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	18	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	88	19	secure	secure	JJ
work_lqoc3fv36veffa62lsrtqpk4na	88	20	long	long	JJ
work_lqoc3fv36veffa62lsrtqpk4na	88	21	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	88	22	term	term	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	23	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	24	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	25	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	26	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	27	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	88	28	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	88	29	competitive	competitive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	88	30	price	price	NN
work_lqoc3fv36veffa62lsrtqpk4na	88	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	89	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	89	2	current	current	JJ
work_lqoc3fv36veffa62lsrtqpk4na	89	3	worldwide	worldwide	JJ
work_lqoc3fv36veffa62lsrtqpk4na	89	4	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	89	6	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	7	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	8	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	89	9	represent	represent	VB
work_lqoc3fv36veffa62lsrtqpk4na	89	10	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	89	11	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	12	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	89	13	50	50	CD
work_lqoc3fv36veffa62lsrtqpk4na	89	14	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	89	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	89	17	total	total	JJ
work_lqoc3fv36veffa62lsrtqpk4na	89	18	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	19	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	89	20	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	21	produced	produce	VBN
work_lqoc3fv36veffa62lsrtqpk4na	89	22	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	89	23	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	89	24	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	89	25	29	29	CD
work_lqoc3fv36veffa62lsrtqpk4na	89	26	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	89	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	90	1	Considering	consider	VBG
work_lqoc3fv36veffa62lsrtqpk4na	90	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	90	3	convenience	convenience	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	90	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	90	6	lowest	low	JJS
work_lqoc3fv36veffa62lsrtqpk4na	90	7	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	8	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	9	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	90	10	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	90	11	residue	residue	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	90	13	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	90	14	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	90	15	local	local	JJ
work_lqoc3fv36veffa62lsrtqpk4na	90	16	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	17	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	18	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	90	19	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	20	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	90	22	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	23	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	90	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	90	26	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	90	27	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	90	28	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	90	29	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	90	30	when	when	WRB
work_lqoc3fv36veffa62lsrtqpk4na	90	31	they	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	90	32	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	90	33	collected	collect	VBN
work_lqoc3fv36veffa62lsrtqpk4na	90	34	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	90	35	harvest	harvest	NN
work_lqoc3fv36veffa62lsrtqpk4na	90	36	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	91	1	For	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	91	2	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	91	3	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	91	4	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	91	5	residue	residue	NN
work_lqoc3fv36veffa62lsrtqpk4na	91	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	91	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	91	8	collection	collection	NN
work_lqoc3fv36veffa62lsrtqpk4na	91	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	91	10	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	91	11	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	91	12	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	91	13	predominant	predominant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	91	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	92	1	Comparing	compare	VBG
work_lqoc3fv36veffa62lsrtqpk4na	92	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	92	3	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	4	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	92	5	petroleum	petroleum	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	92	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	92	8	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	92	9	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	10	density	density	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	11	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	92	12	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	92	13	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	92	14	limits	limit	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	92	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	92	16	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	17	distance	distance	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	18	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	92	19	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	92	20	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	21	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	92	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	92	24	farther	farther	JJ
work_lqoc3fv36veffa62lsrtqpk4na	92	25	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	26	adds	add	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	92	27	more	more	JJR
work_lqoc3fv36veffa62lsrtqpk4na	92	28	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	29	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	92	30	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	92	31	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	92	32	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	33	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	92	34	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	93	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	2	4	4	CD
work_lqoc3fv36veffa62lsrtqpk4na	93	3	lists	list	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	93	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	93	5	typical	typical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	93	6	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	93	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	93	8	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	9	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	10	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	93	12	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	93	13	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	93	14	related	relate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	93	15	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	93	16	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	93	17	equipment	equipment	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	18	reported	report	VBN
work_lqoc3fv36veffa62lsrtqpk4na	93	19	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	93	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	93	21	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	93	22	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	93	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	93	24	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	93	25	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	93	26	data	datum	NNS
work_lqoc3fv36veffa62lsrtqpk4na	93	27	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	93	28	farmer	farmer	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	29	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	93	30	owned	own	VBN
work_lqoc3fv36veffa62lsrtqpk4na	93	31	equipment	equipment	NN
work_lqoc3fv36veffa62lsrtqpk4na	93	32	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	93	33	calculated	calculate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	93	34	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	93	35	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	93	36	810	810	CD
work_lqoc3fv36veffa62lsrtqpk4na	93	37	ha	ha	NNS
work_lqoc3fv36veffa62lsrtqpk4na	93	38	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	93	39	2000	2000	CD
work_lqoc3fv36veffa62lsrtqpk4na	93	40	acres	acre	NNS
work_lqoc3fv36veffa62lsrtqpk4na	93	41	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	93	42	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	93	43	30	30	CD
work_lqoc3fv36veffa62lsrtqpk4na	93	44	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	93	45	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	94	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	94	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	94	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	94	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	94	5	12979	12979	CD
work_lqoc3fv36veffa62lsrtqpk4na	94	6	Bales	bale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	94	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	94	8	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	9	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	94	10	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	94	11	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	94	12	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	94	13	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	14	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	94	15	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	94	16	convenient	convenient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	94	17	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	94	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	94	19	harvesting	harvesting	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	20	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	94	22	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	94	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	94	24	their	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	94	25	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	94	26	bulk	bulk	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	27	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	94	28	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	29	densities	density	NNS
work_lqoc3fv36veffa62lsrtqpk4na	94	30	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	94	31	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	94	32	drawbacks	drawback	NNS
work_lqoc3fv36veffa62lsrtqpk4na	94	33	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	94	34	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	94	35	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	94	36	31,32	31,32	CD
work_lqoc3fv36veffa62lsrtqpk4na	94	37	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	94	38	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	95	1	Compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	95	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	95	4	conventional	conventional	JJ
work_lqoc3fv36veffa62lsrtqpk4na	95	5	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	6	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	7	bales	bale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	95	9	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	10	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	11	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	95	12	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	95	13	forest	forest	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	14	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	15	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	16	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	17	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	18	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	95	20	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	22	these	these	DT
work_lqoc3fv36veffa62lsrtqpk4na	95	23	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	24	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	95	25	one	one	CD
work_lqoc3fv36veffa62lsrtqpk4na	95	26	major	major	JJ
work_lqoc3fv36veffa62lsrtqpk4na	95	27	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	28	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	95	29	save	save	VB
work_lqoc3fv36veffa62lsrtqpk4na	95	30	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	31	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	32	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	95	33	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	95	34	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	95	35	improve	improve	VB
work_lqoc3fv36veffa62lsrtqpk4na	95	36	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	95	37	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	38	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	39	fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	40	conversion	conversion	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	41	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	95	42	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	95	43	final	final	JJ
work_lqoc3fv36veffa62lsrtqpk4na	95	44	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	95	45	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	96	1	Because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	96	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	96	3	high	high	JJ
work_lqoc3fv36veffa62lsrtqpk4na	96	4	density	density	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	96	6	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	96	7	water	water	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	8	content	content	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	96	10	pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	96	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	96	12	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	13	reduces	reduce	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	96	14	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	15	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	96	17	improves	improve	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	96	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	96	19	conversion	conversion	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	20	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	21	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	96	22	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	96	23	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	96	24	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	96	25	31	31	CD
work_lqoc3fv36veffa62lsrtqpk4na	96	26	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	96	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	97	1	Pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	2	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	97	3	minimizes	minimize	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	97	4	dust	dust	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	5	formation	formation	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	97	7	helps	help	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	97	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	97	9	feed	feed	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	97	11	free	free	JJ
work_lqoc3fv36veffa62lsrtqpk4na	97	12	flow	flow	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	97	14	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	15	fuels	fuel	NNS
work_lqoc3fv36veffa62lsrtqpk4na	97	16	because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	97	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	97	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	97	19	regular	regular	JJ
work_lqoc3fv36veffa62lsrtqpk4na	97	20	size	size	NN
work_lqoc3fv36veffa62lsrtqpk4na	97	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	97	22	pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	97	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	98	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	98	2	4	4	CD
work_lqoc3fv36veffa62lsrtqpk4na	98	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	99	1	Transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	99	2	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	99	3	per	per	IN
work_lqoc3fv36veffa62lsrtqpk4na	99	4	ton	ton	NN
work_lqoc3fv36veffa62lsrtqpk4na	99	5	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	99	6	custom	custom	NN
work_lqoc3fv36veffa62lsrtqpk4na	99	7	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	99	8	owned	own	VBN
work_lqoc3fv36veffa62lsrtqpk4na	99	9	equipment	equipment	NN
work_lqoc3fv36veffa62lsrtqpk4na	99	10	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	99	11	30	30	CD
work_lqoc3fv36veffa62lsrtqpk4na	99	12	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	99	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	100	1	Transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	2	Distance	Distance	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	3	Cost	Cost	VBD
work_lqoc3fv36veffa62lsrtqpk4na	100	4	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	100	5	Custom	Custom	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	6	Equipment	Equipment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	7	Cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	8	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	100	9	Farmer	Farmer	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	10	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	100	11	Owned	Owned	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	12	Equipment	Equipment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	100	13	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	14	km	km	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	100	15	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	16	2.79	2.79	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	17	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	18	3.33	3.33	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	19	16	16	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	20	km	km	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	21	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	22	4.32	4.32	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	23	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	24	4.07	4.07	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	25	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	26	km	km	NNS
work_lqoc3fv36veffa62lsrtqpk4na	100	27	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	28	5.84	5.84	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	29	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	30	4.81	4.81	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	31	32	32	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	32	km	km	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	33	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	34	7.36	7.36	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	35	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	36	5.55	5.55	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	37	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	38	km	km	NNS
work_lqoc3fv36veffa62lsrtqpk4na	100	39	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	40	8.90	8.90	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	41	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	42	6.28	6.28	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	43	48	48	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	44	km	km	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	45	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	46	10.43	10.43	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	47	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	48	7.02	7.02	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	49	56	56	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	50	km	km	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	51	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	52	11.95	11.95	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	53	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	54	7.76	7.76	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	55	64	64	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	56	km	km	NNS
work_lqoc3fv36veffa62lsrtqpk4na	100	57	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	58	13.48	13.48	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	59	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	60	8.50	8.50	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	61	72	72	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	62	km	km	NN
work_lqoc3fv36veffa62lsrtqpk4na	100	63	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	64	15.01	15.01	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	65	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	66	9.24	9.24	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	67	80	80	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	68	km	km	VBG
work_lqoc3fv36veffa62lsrtqpk4na	100	69	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	70	16.54	16.54	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	71	$	$	$
work_lqoc3fv36veffa62lsrtqpk4na	100	72	9.98	9.98	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	73	4	4	CD
work_lqoc3fv36veffa62lsrtqpk4na	100	74	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	101	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	101	2	Role	Role	NNP
work_lqoc3fv36veffa62lsrtqpk4na	101	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	101	4	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	101	5	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	101	6	Methods	Methods	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	101	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	101	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	101	9	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	10	There	there	EX
work_lqoc3fv36veffa62lsrtqpk4na	101	11	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	101	12	three	three	CD
work_lqoc3fv36veffa62lsrtqpk4na	101	13	primary	primary	JJ
work_lqoc3fv36veffa62lsrtqpk4na	101	14	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	101	15	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	101	16	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	101	17	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	101	18	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	19	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	20	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	101	21	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	22	factories	factory	NNS
work_lqoc3fv36veffa62lsrtqpk4na	101	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	101	24	direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	101	25	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	101	26	dedicated	dedicated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	101	27	burning	burning	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	28	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	101	29	combined	combined	JJ
work_lqoc3fv36veffa62lsrtqpk4na	101	30	heat	heat	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	31	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	101	32	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	33	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	101	34	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	101	35	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	101	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	101	37	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	38	-	-	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	39	firing	firing	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	40	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	101	41	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	42	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	101	43	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	101	44	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	102	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	102	2	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	102	3	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	102	4	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	102	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	102	6	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	102	7	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	102	8	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	102	9	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	102	10	significantly	significantly	RB
work_lqoc3fv36veffa62lsrtqpk4na	102	11	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	102	12	those	those	DT
work_lqoc3fv36veffa62lsrtqpk4na	102	13	three	three	CD
work_lqoc3fv36veffa62lsrtqpk4na	102	14	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	102	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	103	1	Equipment	equipment	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	2	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	3	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	4	each	each	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	5	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	6	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	103	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	9	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	10	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	11	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	103	12	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	103	13	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	103	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	103	15	depending	depend	VBG
work_lqoc3fv36veffa62lsrtqpk4na	103	16	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	17	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	18	region	region	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	103	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	21	nature	nature	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	22	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	23	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	103	24	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	103	26	feeding	feed	VBG
work_lqoc3fv36veffa62lsrtqpk4na	103	27	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	28	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	29	bales	bale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	30	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	103	31	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	32	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	103	33	pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	103	35	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	103	36	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	37	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	38	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	103	39	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	103	40	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	103	41	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	103	42	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	104	1	Figures	figure	NNS
work_lqoc3fv36veffa62lsrtqpk4na	104	2	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	104	3	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	104	4	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	104	5	show	show	VBP
work_lqoc3fv36veffa62lsrtqpk4na	104	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	104	7	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	104	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	104	9	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	104	10	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	104	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	104	12	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	104	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	104	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	104	15	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	104	16	burning	burning	NN
work_lqoc3fv36veffa62lsrtqpk4na	104	17	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	104	18	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	104	19	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	104	20	pathways	pathway	NNS
work_lqoc3fv36veffa62lsrtqpk4na	104	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	104	22	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	104	23	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	104	24	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	104	25	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	104	26	without	without	IN
work_lqoc3fv36veffa62lsrtqpk4na	104	27	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	104	28	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	105	1	Figure	figure	NN
work_lqoc3fv36veffa62lsrtqpk4na	105	2	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	105	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	106	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	106	2	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	106	3	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	106	4	pathway	pathway	NN
work_lqoc3fv36veffa62lsrtqpk4na	106	5	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	106	6	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	106	7	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	106	8	without	without	IN
work_lqoc3fv36veffa62lsrtqpk4na	106	9	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	106	10	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	107	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	107	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	107	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	107	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	107	5	12980	12980	CD
work_lqoc3fv36veffa62lsrtqpk4na	107	6	Through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	107	7	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	8	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	107	9	dedicated	dedicated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	107	10	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	107	12	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	107	13	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	107	14	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	15	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	107	16	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	107	17	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	107	18	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	107	19	produce	produce	VB
work_lqoc3fv36veffa62lsrtqpk4na	107	20	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	107	22	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	107	23	via	via	IN
work_lqoc3fv36veffa62lsrtqpk4na	107	24	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	107	25	steam	steam	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	26	turbine	turbine	NN
work_lqoc3fv36veffa62lsrtqpk4na	107	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	108	1	Direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	108	2	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	108	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	108	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	108	5	oldest	old	JJS
work_lqoc3fv36veffa62lsrtqpk4na	108	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	108	7	simplest	simple	JJS
work_lqoc3fv36veffa62lsrtqpk4na	108	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	108	9	but	but	CC
work_lqoc3fv36veffa62lsrtqpk4na	108	10	most	most	RBS
work_lqoc3fv36veffa62lsrtqpk4na	108	11	inefficient	inefficient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	108	12	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	108	13	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	108	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	109	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	109	2	typical	typical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	109	3	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	5	direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	109	6	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	7	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	8	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	9	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	109	10	16.2%–20	16.2%–20	CD
work_lqoc3fv36veffa62lsrtqpk4na	109	11	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	12	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	109	14	1990s	1990	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	15	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	109	16	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	109	17	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	109	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	109	20	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	109	21	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	109	22	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	109	23	improved	improve	VBN
work_lqoc3fv36veffa62lsrtqpk4na	109	24	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	25	20%–22	20%–22	CD
work_lqoc3fv36veffa62lsrtqpk4na	109	26	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	28	depending	depend	VBG
work_lqoc3fv36veffa62lsrtqpk4na	109	29	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	30	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	109	31	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	32	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	109	33	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	34	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	109	35	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	37	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	109	38	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	39	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	109	40	feeding	feed	VBG
work_lqoc3fv36veffa62lsrtqpk4na	109	41	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	42	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	43	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	109	44	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	45	bales	bale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	46	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	109	47	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	48	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	109	49	pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	109	50	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	109	51	33	33	CD
work_lqoc3fv36veffa62lsrtqpk4na	109	52	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	109	53	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	110	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	110	2	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	110	3	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	110	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	110	6	system	system	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	110	8	heat	heat	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	9	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	10	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	110	11	parallel	parallel	JJ
work_lqoc3fv36veffa62lsrtqpk4na	110	12	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	110	13	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	14	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	16	producing	produce	VBG
work_lqoc3fv36veffa62lsrtqpk4na	110	17	steam	steam	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	19	hot	hot	JJ
work_lqoc3fv36veffa62lsrtqpk4na	110	20	water	water	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	22	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	110	23	chilled	chill	VBN
work_lqoc3fv36veffa62lsrtqpk4na	110	24	water	water	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	26	optimally	optimally	RB
work_lqoc3fv36veffa62lsrtqpk4na	110	27	designed	design	VBN
work_lqoc3fv36veffa62lsrtqpk4na	110	28	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	110	29	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	110	30	customer	customer	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	31	’s	’s	POS
work_lqoc3fv36veffa62lsrtqpk4na	110	32	needs	need	NNS
work_lqoc3fv36veffa62lsrtqpk4na	110	33	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	110	34	requirements	requirement	NNS
work_lqoc3fv36veffa62lsrtqpk4na	110	35	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	110	36	heating	heating	NN
work_lqoc3fv36veffa62lsrtqpk4na	110	37	factories	factory	NNS
work_lqoc3fv36veffa62lsrtqpk4na	110	38	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	39	green	green	JJ
work_lqoc3fv36veffa62lsrtqpk4na	110	40	houses	house	NNS
work_lqoc3fv36veffa62lsrtqpk4na	110	41	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	110	42	etc	etc	FW
work_lqoc3fv36veffa62lsrtqpk4na	110	43	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	111	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	111	2	total	total	JJ
work_lqoc3fv36veffa62lsrtqpk4na	111	3	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	111	4	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	111	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	111	6	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	111	7	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	111	8	reach	reach	VB
work_lqoc3fv36veffa62lsrtqpk4na	111	9	85%–90	85%–90	CD
work_lqoc3fv36veffa62lsrtqpk4na	111	10	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	111	11	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	111	12	34	34	CD
work_lqoc3fv36veffa62lsrtqpk4na	111	13	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	111	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	112	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	112	2	typical	typical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	112	3	size	size	NN
work_lqoc3fv36veffa62lsrtqpk4na	112	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	112	5	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	112	6	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	112	7	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	112	8	usually	usually	RB
work_lqoc3fv36veffa62lsrtqpk4na	112	9	ten	ten	CD
work_lqoc3fv36veffa62lsrtqpk4na	112	10	times	time	NNS
work_lqoc3fv36veffa62lsrtqpk4na	112	11	smaller	small	JJR
work_lqoc3fv36veffa62lsrtqpk4na	112	12	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	112	13	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	112	14	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	112	15	to100	to100	CD
work_lqoc3fv36veffa62lsrtqpk4na	112	16	MW	MW	NNP
work_lqoc3fv36veffa62lsrtqpk4na	112	17	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	112	18	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	112	19	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	112	20	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	112	21	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	112	22	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	112	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	112	24	depending	depend	VBG
work_lqoc3fv36veffa62lsrtqpk4na	112	25	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	112	26	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	112	27	availability	availability	NN
work_lqoc3fv36veffa62lsrtqpk4na	112	28	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	112	29	local	local	JJ
work_lqoc3fv36veffa62lsrtqpk4na	112	30	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	112	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	113	1	Because	because	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	3	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	113	4	sulfur	sulfur	NN
work_lqoc3fv36veffa62lsrtqpk4na	113	5	content	content	NN
work_lqoc3fv36veffa62lsrtqpk4na	113	6	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	7	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	113	8	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	113	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	113	10	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	113	11	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	12	pollutants	pollutant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	113	13	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	14	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	113	15	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	113	16	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	113	17	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	113	18	effectively	effectively	RB
work_lqoc3fv36veffa62lsrtqpk4na	113	19	controlled	control	VBN
work_lqoc3fv36veffa62lsrtqpk4na	113	20	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	113	21	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	113	22	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	113	23	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	113	24	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	113	25	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	113	26	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	113	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	114	1	Figure	figure	NN
work_lqoc3fv36veffa62lsrtqpk4na	114	2	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	114	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	115	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	115	2	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	115	3	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	115	4	pathway	pathway	NN
work_lqoc3fv36veffa62lsrtqpk4na	115	5	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	115	6	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	115	7	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	115	8	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	115	9	pelletization	pelletization	NN
work_lqoc3fv36veffa62lsrtqpk4na	115	10	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	116	1	With	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	116	2	moderate	moderate	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	3	additional	additional	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	4	investment	investment	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	116	6	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	7	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	8	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	9	-	-	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	10	firing	firing	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	11	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	116	12	modern	modern	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	116	14	large	large	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	15	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	116	16	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	17	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	18	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	116	19	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	116	20	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	21	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	116	22	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	116	23	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	116	24	more	more	RBR
work_lqoc3fv36veffa62lsrtqpk4na	116	25	efficient	efficient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	26	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	116	27	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	116	28	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	116	29	effective	effective	JJ
work_lqoc3fv36veffa62lsrtqpk4na	116	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	117	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	117	2	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	117	3	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	117	4	firing	fire	VBG
work_lqoc3fv36veffa62lsrtqpk4na	117	5	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	117	6	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	117	7	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	117	8	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	117	9	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	117	10	North	North	NNP
work_lqoc3fv36veffa62lsrtqpk4na	117	11	Europe	Europe	NNP
work_lqoc3fv36veffa62lsrtqpk4na	117	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	117	14	United	United	NNP
work_lqoc3fv36veffa62lsrtqpk4na	117	15	States	States	NNP
work_lqoc3fv36veffa62lsrtqpk4na	117	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	17	Australia	Australia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	117	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	117	20	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	117	21	Asian	asian	JJ
work_lqoc3fv36veffa62lsrtqpk4na	117	22	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	117	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	24	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	117	25	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	117	26	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	117	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	28	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	117	29	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	117	30	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	117	31	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	117	32	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	117	33	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	117	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	35	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	117	36	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	117	37	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	117	38	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	117	39	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	117	40	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	117	41	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	117	42	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	117	43	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	117	44	32,35–37	32,35–37	CD
work_lqoc3fv36veffa62lsrtqpk4na	117	45	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	117	46	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	118	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	118	2	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	3	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	5	35%–45	35%–45	CD
work_lqoc3fv36veffa62lsrtqpk4na	118	6	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	8	large	large	JJ
work_lqoc3fv36veffa62lsrtqpk4na	118	9	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	118	10	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	11	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	118	12	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	118	13	higher	high	JJR
work_lqoc3fv36veffa62lsrtqpk4na	118	14	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	15	that	that	DT
work_lqoc3fv36veffa62lsrtqpk4na	118	16	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	17	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	118	18	direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	118	19	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	20	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	118	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	118	22	although	although	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	23	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	118	24	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	118	25	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	118	26	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	27	that	that	DT
work_lqoc3fv36veffa62lsrtqpk4na	118	28	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	118	29	pure	pure	JJ
work_lqoc3fv36veffa62lsrtqpk4na	118	30	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	118	31	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	118	32	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	118	33	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	118	34	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	118	35	38	38	CD
work_lqoc3fv36veffa62lsrtqpk4na	118	36	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	118	37	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	119	1	Generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	119	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	3	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	4	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	119	5	firing	fire	VBG
work_lqoc3fv36veffa62lsrtqpk4na	119	6	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	7	decreases	decrease	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	119	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	119	9	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	119	10	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	119	11	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	119	12	direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	119	13	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	15	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	119	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	17	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	119	18	depends	depend	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	119	19	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	119	20	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	119	21	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	119	22	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	119	23	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	119	24	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	119	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	26	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	119	27	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	119	28	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	119	29	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	30	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	119	31	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	119	32	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	33	characteristics	characteristic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	119	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	35	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	119	36	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	37	utility	utility	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	38	boiler	boiler	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	39	configuration	configuration	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	40	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	119	41	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	119	42	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	119	43	etc	etc	FW
work_lqoc3fv36veffa62lsrtqpk4na	119	44	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	120	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	120	3	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	4	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	6	biomass	biomass	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	7	conversion	conversion	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	8	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	9	syngas	syngas	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	10	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	120	11	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	120	12	either	either	CC
work_lqoc3fv36veffa62lsrtqpk4na	120	13	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	14	slow	slow	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	15	anaerobic	anaerobic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	16	fermentation	fermentation	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	17	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	120	18	fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	19	thermo	thermo	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	20	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	120	21	chemical	chemical	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	22	processes	process	NNS
work_lqoc3fv36veffa62lsrtqpk4na	120	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	24	e.g.	e.g.	RB
work_lqoc3fv36veffa62lsrtqpk4na	120	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	26	pyrolysis	pyrolysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	27	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	28	elevated	elevated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	29	temperatures	temperature	NNS
work_lqoc3fv36veffa62lsrtqpk4na	120	30	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	31	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	120	32	absence	absence	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	33	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	34	oxygen	oxygen	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	35	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	120	36	gasifying	gasify	VBG
work_lqoc3fv36veffa62lsrtqpk4na	120	37	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	38	common	common	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	39	agents	agent	NNS
work_lqoc3fv36veffa62lsrtqpk4na	120	40	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	41	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	120	42	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	120	43	air	air	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	44	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	45	oxygen	oxygen	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	46	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	120	47	and/or	and/or	CC
work_lqoc3fv36veffa62lsrtqpk4na	120	48	steam	steam	NN
work_lqoc3fv36veffa62lsrtqpk4na	120	49	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	120	50	21,39	21,39	CD
work_lqoc3fv36veffa62lsrtqpk4na	120	51	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	120	52	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	121	1	Slow	slow	JJ
work_lqoc3fv36veffa62lsrtqpk4na	121	2	anaerobic	anaerobic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	121	3	fermentation	fermentation	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	4	converts	convert	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	121	5	only	only	RB
work_lqoc3fv36veffa62lsrtqpk4na	121	6	50%–60	50%–60	CD
work_lqoc3fv36veffa62lsrtqpk4na	121	7	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	8	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	9	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	121	10	biogas	biogas	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	121	12	but	but	CC
work_lqoc3fv36veffa62lsrtqpk4na	121	13	produces	produce	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	121	14	soil	soil	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	15	conditioners	conditioner	NNS
work_lqoc3fv36veffa62lsrtqpk4na	121	16	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	121	17	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	121	18	byproduct	byproduct	NN
work_lqoc3fv36veffa62lsrtqpk4na	121	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	122	1	Fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	122	2	thermo	thermo	JJ
work_lqoc3fv36veffa62lsrtqpk4na	122	3	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	122	4	chemical	chemical	NN
work_lqoc3fv36veffa62lsrtqpk4na	122	5	processes	process	NNS
work_lqoc3fv36veffa62lsrtqpk4na	122	6	produce	produce	VBP
work_lqoc3fv36veffa62lsrtqpk4na	122	7	much	much	RB
work_lqoc3fv36veffa62lsrtqpk4na	122	8	more	more	JJR
work_lqoc3fv36veffa62lsrtqpk4na	122	9	biogas	biogas	NN
work_lqoc3fv36veffa62lsrtqpk4na	122	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	122	11	even	even	RB
work_lqoc3fv36veffa62lsrtqpk4na	122	12	leave	leave	VB
work_lqoc3fv36veffa62lsrtqpk4na	122	13	only	only	RB
work_lqoc3fv36veffa62lsrtqpk4na	122	14	2%–4	2%–4	CD
work_lqoc3fv36veffa62lsrtqpk4na	122	15	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	122	16	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	122	17	ash	ash	NN
work_lqoc3fv36veffa62lsrtqpk4na	122	18	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	122	19	pyrolysis	pyrolysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	122	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	123	1	Currently	currently	RB
work_lqoc3fv36veffa62lsrtqpk4na	123	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	123	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	123	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	5	integrated	integrated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	123	6	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	7	combined	combine	VBN
work_lqoc3fv36veffa62lsrtqpk4na	123	8	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	9	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	123	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	123	11	most	most	RBS
work_lqoc3fv36veffa62lsrtqpk4na	123	12	common	common	JJ
work_lqoc3fv36veffa62lsrtqpk4na	123	13	approach	approach	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	14	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	123	15	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	16	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	17	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	123	18	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	123	19	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	123	20	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	123	21	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	123	22	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	123	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	124	1	Gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	124	2	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	124	3	higher	high	JJR
work_lqoc3fv36veffa62lsrtqpk4na	124	4	efficiencies	efficiency	NNS
work_lqoc3fv36veffa62lsrtqpk4na	124	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	124	6	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	124	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	124	8	it	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	124	9	requires	require	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	124	10	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	124	11	significant	significant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	124	12	investment	investment	NN
work_lqoc3fv36veffa62lsrtqpk4na	124	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	124	14	operations	operation	NNS
work_lqoc3fv36veffa62lsrtqpk4na	124	15	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	124	16	elevated	elevated	JJ
work_lqoc3fv36veffa62lsrtqpk4na	124	17	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	124	18	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	124	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	124	20	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	124	21	12981	12981	CD
work_lqoc3fv36veffa62lsrtqpk4na	124	22	temperatures	temperature	NNS
work_lqoc3fv36veffa62lsrtqpk4na	124	23	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	124	24	extra	extra	JJ
work_lqoc3fv36veffa62lsrtqpk4na	124	25	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	124	26	consumption	consumption	NN
work_lqoc3fv36veffa62lsrtqpk4na	124	27	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	124	28	41,42	41,42	CD
work_lqoc3fv36veffa62lsrtqpk4na	124	29	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	124	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	125	1	Compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	125	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	125	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	125	4	previous	previous	JJ
work_lqoc3fv36veffa62lsrtqpk4na	125	5	two	two	CD
work_lqoc3fv36veffa62lsrtqpk4na	125	6	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	125	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	125	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	125	9	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	125	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	125	11	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	125	12	biogas	biogas	NN
work_lqoc3fv36veffa62lsrtqpk4na	125	13	obtained	obtain	VBN
work_lqoc3fv36veffa62lsrtqpk4na	125	14	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	125	15	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	125	16	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	125	17	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	125	18	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	125	19	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	125	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	125	21	lowest	low	JJS
work_lqoc3fv36veffa62lsrtqpk4na	125	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	126	1	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	126	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	127	1	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	2	Emission	Emission	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	3	Caused	cause	VBN
work_lqoc3fv36veffa62lsrtqpk4na	127	4	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	5	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	6	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	8	Lignocellulosic	Lignocellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	9	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	10	Most	Most	NNP
work_lqoc3fv36veffa62lsrtqpk4na	127	11	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	127	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	13	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	127	14	composed	compose	VBN
work_lqoc3fv36veffa62lsrtqpk4na	127	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	16	about	about	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	17	50	50	CD
work_lqoc3fv36veffa62lsrtqpk4na	127	18	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	19	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	127	21	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	127	22	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	23	oxygen	oxygen	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	127	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	127	26	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	127	27	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	28	hydrogen	hydrogen	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	29	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	30	weight	weight	NN
work_lqoc3fv36veffa62lsrtqpk4na	127	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	127	32	as	as	RB
work_lqoc3fv36veffa62lsrtqpk4na	127	33	well	well	RB
work_lqoc3fv36veffa62lsrtqpk4na	127	34	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	35	very	very	RB
work_lqoc3fv36veffa62lsrtqpk4na	127	36	small	small	JJ
work_lqoc3fv36veffa62lsrtqpk4na	127	37	amounts	amount	NNS
work_lqoc3fv36veffa62lsrtqpk4na	127	38	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	127	39	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	127	40	elements	element	NNS
work_lqoc3fv36veffa62lsrtqpk4na	127	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	128	1	Burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	128	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	128	3	results	result	NNS
work_lqoc3fv36veffa62lsrtqpk4na	128	4	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	128	5	various	various	JJ
work_lqoc3fv36veffa62lsrtqpk4na	128	6	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	128	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	128	8	most	most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	128	9	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	128	10	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	128	11	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	128	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	128	13	H2O	h2o	NN
work_lqoc3fv36veffa62lsrtqpk4na	128	14	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	128	15	0.3	0.3	CD
work_lqoc3fv36veffa62lsrtqpk4na	128	16	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	128	17	NOx	NOx	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	128	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	128	19	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	128	20	CO	CO	NNP
work_lqoc3fv36veffa62lsrtqpk4na	128	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	128	22	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	128	23	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	128	24	poorly	poorly	RB
work_lqoc3fv36veffa62lsrtqpk4na	128	25	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	128	26	maintained	maintain	VBN
work_lqoc3fv36veffa62lsrtqpk4na	128	27	equipment	equipment	NN
work_lqoc3fv36veffa62lsrtqpk4na	128	28	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	129	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	129	2	addition	addition	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	129	5	total	total	JJ
work_lqoc3fv36veffa62lsrtqpk4na	129	6	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	129	7	include	include	VBP
work_lqoc3fv36veffa62lsrtqpk4na	129	8	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	129	9	pollutants	pollutant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	129	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	129	11	0.1	0.1	CD
work_lqoc3fv36veffa62lsrtqpk4na	129	12	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	13	sulphur	sulphur	NNP
work_lqoc3fv36veffa62lsrtqpk4na	129	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	15	0.1	0.1	CD
work_lqoc3fv36veffa62lsrtqpk4na	129	16	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	17	chlorine	chlorine	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	129	20	trace	trace	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	21	quantities	quantity	NNS
work_lqoc3fv36veffa62lsrtqpk4na	129	22	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	129	23	inorganic	inorganic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	129	24	minerals	mineral	NNS
work_lqoc3fv36veffa62lsrtqpk4na	129	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	26	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	129	27	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	129	28	calcium	calcium	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	29	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	30	potassium	potassium	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	32	silicon	silicon	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	33	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	34	phosphorus	phosphorus	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	35	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	129	36	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	129	37	sodium	sodium	NN
work_lqoc3fv36veffa62lsrtqpk4na	129	38	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	129	39	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	129	40	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	129	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	130	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	130	2	compositions	composition	NNS
work_lqoc3fv36veffa62lsrtqpk4na	130	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	130	4	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	130	5	depend	depend	VBP
work_lqoc3fv36veffa62lsrtqpk4na	130	6	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	130	7	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	130	8	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	130	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	10	including	include	VBG
work_lqoc3fv36veffa62lsrtqpk4na	130	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	130	12	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	130	13	environment	environment	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	130	15	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	130	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	17	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	130	18	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	19	species	species	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	21	any	any	DT
work_lqoc3fv36veffa62lsrtqpk4na	130	22	contaminants	contaminant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	130	23	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	130	24	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	130	25	soil	soil	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	26	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	27	water	water	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	28	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	29	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	130	30	air	air	NN
work_lqoc3fv36veffa62lsrtqpk4na	130	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	130	32	etc	etc	FW
work_lqoc3fv36veffa62lsrtqpk4na	130	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	131	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	2	most	most	JJS
work_lqoc3fv36veffa62lsrtqpk4na	131	3	cases	case	NNS
work_lqoc3fv36veffa62lsrtqpk4na	131	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	131	5	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	8	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	9	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	10	produces	produce	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	131	11	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	12	net	net	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	13	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	14	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	131	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	131	16	mostly	mostly	RB
work_lqoc3fv36veffa62lsrtqpk4na	131	17	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	131	19	form	form	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	20	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	21	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	131	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	131	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	131	24	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	131	25	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	131	26	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	131	27	less	less	JJR
work_lqoc3fv36veffa62lsrtqpk4na	131	28	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	29	total	total	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	30	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	131	31	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	32	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	33	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	131	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	131	35	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	131	36	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	131	37	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	131	38	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	131	39	NOx	NOx	NNP
work_lqoc3fv36veffa62lsrtqpk4na	131	40	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	131	41	43,44	43,44	CD
work_lqoc3fv36veffa62lsrtqpk4na	131	42	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	131	43	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	132	1	Burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	132	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	132	3	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	132	4	avoids	avoid	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	132	5	anaerobic	anaerobic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	132	6	decomposition	decomposition	NN
work_lqoc3fv36veffa62lsrtqpk4na	132	7	that	that	WDT
work_lqoc3fv36veffa62lsrtqpk4na	132	8	results	result	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	132	9	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	132	10	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	132	11	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	132	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	132	13	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	132	14	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	132	15	known	know	VBN
work_lqoc3fv36veffa62lsrtqpk4na	132	16	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	132	17	have	have	VB
work_lqoc3fv36veffa62lsrtqpk4na	132	18	21	21	CD
work_lqoc3fv36veffa62lsrtqpk4na	132	19	times	time	NNS
work_lqoc3fv36veffa62lsrtqpk4na	132	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	132	21	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	132	22	effects	effect	NNS
work_lqoc3fv36veffa62lsrtqpk4na	132	23	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	132	24	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	132	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	133	1	Generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	133	2	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	3	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	4	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	133	5	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	6	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	133	7	considered	consider	VBN
work_lqoc3fv36veffa62lsrtqpk4na	133	8	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	9	neutral	neutral	JJ
work_lqoc3fv36veffa62lsrtqpk4na	133	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	133	11	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	133	12	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	133	13	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	133	14	balanced	balance	VBN
work_lqoc3fv36veffa62lsrtqpk4na	133	15	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	133	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	133	17	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	18	capture	capture	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	19	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	133	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	133	21	next	next	JJ
work_lqoc3fv36veffa62lsrtqpk4na	133	22	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	133	23	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	133	24	45,46	45,46	CD
work_lqoc3fv36veffa62lsrtqpk4na	133	25	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	133	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	134	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	134	2	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	134	3	instances	instance	NNS
work_lqoc3fv36veffa62lsrtqpk4na	134	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	134	5	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	134	6	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	134	7	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	134	8	invasive	invasive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	134	9	farming	farming	NN
work_lqoc3fv36veffa62lsrtqpk4na	134	10	methods	method	NNS
work_lqoc3fv36veffa62lsrtqpk4na	134	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	134	12	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	134	13	researchers	researcher	NNS
work_lqoc3fv36veffa62lsrtqpk4na	134	14	even	even	RB
work_lqoc3fv36veffa62lsrtqpk4na	134	15	claimed	claim	VBD
work_lqoc3fv36veffa62lsrtqpk4na	134	16	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	134	17	negativity	negativity	NN
work_lqoc3fv36veffa62lsrtqpk4na	134	18	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	134	19	means	mean	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	134	20	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	134	21	less	less	JJR
work_lqoc3fv36veffa62lsrtqpk4na	134	22	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	134	23	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	134	24	emitted	emit	VBN
work_lqoc3fv36veffa62lsrtqpk4na	134	25	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	134	26	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	134	27	removed	remove	VBN
work_lqoc3fv36veffa62lsrtqpk4na	134	28	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	134	29	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	134	30	atmosphere	atmosphere	NN
work_lqoc3fv36veffa62lsrtqpk4na	134	31	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	134	32	47,48	47,48	CD
work_lqoc3fv36veffa62lsrtqpk4na	134	33	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	134	34	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	135	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	135	2	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	135	3	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	135	4	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	135	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	135	6	combustions	combustion	NNS
work_lqoc3fv36veffa62lsrtqpk4na	135	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	135	8	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	135	9	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	135	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	135	11	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	135	12	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	135	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	135	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	135	15	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	135	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	135	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	135	18	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	135	19	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	135	20	methods	method	NNS
work_lqoc3fv36veffa62lsrtqpk4na	135	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	136	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	2	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	136	3	lists	list	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	4	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	5	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	6	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	136	7	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	8	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	9	kilogram	kilogram	NNP
work_lqoc3fv36veffa62lsrtqpk4na	136	10	per	per	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	11	ton	ton	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	13	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	14	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	136	15	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	136	17	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	19	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	20	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	21	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	136	22	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	23	when	when	WRB
work_lqoc3fv36veffa62lsrtqpk4na	136	24	only	only	RB
work_lqoc3fv36veffa62lsrtqpk4na	136	25	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	136	26	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	27	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	136	28	considered	consider	VBN
work_lqoc3fv36veffa62lsrtqpk4na	136	29	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	30	neutral	neutral	JJ
work_lqoc3fv36veffa62lsrtqpk4na	136	31	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	136	32	32,49,50	32,49,50	NN
work_lqoc3fv36veffa62lsrtqpk4na	136	33	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	136	34	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	136	35	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	136	36	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	136	37	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	136	38	accounted	account	VBN
work_lqoc3fv36veffa62lsrtqpk4na	136	39	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	136	40	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	137	1	GHG	ghg	NN
work_lqoc3fv36veffa62lsrtqpk4na	137	2	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	137	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	137	4	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	137	5	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	137	6	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	137	7	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	137	8	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	137	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	137	10	but	but	CC
work_lqoc3fv36veffa62lsrtqpk4na	137	11	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	137	12	always	always	RB
work_lqoc3fv36veffa62lsrtqpk4na	137	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	137	14	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	137	15	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	137	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	137	17	combustions	combustion	NNS
work_lqoc3fv36veffa62lsrtqpk4na	137	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	137	19	fossil	fossil	JJ
work_lqoc3fv36veffa62lsrtqpk4na	137	20	fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	137	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	137	22	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	137	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	138	1	For	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	138	2	example	example	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	4	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	138	5	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	138	6	rotation	rotation	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	7	coppice	coppice	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	8	chips	chip	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	9	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	138	10	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	138	11	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	138	12	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	138	13	trees	tree	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	14	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	138	15	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	16	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	17	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	138	18	reduce	reduce	VB
work_lqoc3fv36veffa62lsrtqpk4na	138	19	15	15	CD
work_lqoc3fv36veffa62lsrtqpk4na	138	20	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	21	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	138	22	65	65	CD
work_lqoc3fv36veffa62lsrtqpk4na	138	23	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	24	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	25	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	138	26	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	138	27	combined	combined	JJ
work_lqoc3fv36veffa62lsrtqpk4na	138	28	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	29	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	30	turbine	turbine	NNP
work_lqoc3fv36veffa62lsrtqpk4na	138	31	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	32	station	station	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	33	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	34	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	138	35	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	36	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	138	37	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	38	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	138	39	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	138	40	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	41	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	42	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	43	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	44	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	45	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	46	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	138	47	corn	corn	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	48	stover	stover	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	49	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	138	50	reduces	reduce	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	138	51	35	35	CD
work_lqoc3fv36veffa62lsrtqpk4na	138	52	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	53	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	138	54	savings	saving	NNS
work_lqoc3fv36veffa62lsrtqpk4na	138	55	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	139	1	Transporting	transport	VBG
work_lqoc3fv36veffa62lsrtqpk4na	139	2	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	3	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	4	over	over	IN
work_lqoc3fv36veffa62lsrtqpk4na	139	5	long	long	JJ
work_lqoc3fv36veffa62lsrtqpk4na	139	6	distances	distance	NNS
work_lqoc3fv36veffa62lsrtqpk4na	139	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	139	8	excessive	excessive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	139	9	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	139	11	nitrogen	nitrogen	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	12	fertilizers	fertilizer	NNS
work_lqoc3fv36veffa62lsrtqpk4na	139	13	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	139	14	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	139	15	rotation	rotation	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	16	coppice	coppice	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	17	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	139	18	switch	switch	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	19	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	20	further	further	RB
work_lqoc3fv36veffa62lsrtqpk4na	139	21	reduce	reduce	VBP
work_lqoc3fv36veffa62lsrtqpk4na	139	22	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	139	23	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	139	24	savings	saving	NNS
work_lqoc3fv36veffa62lsrtqpk4na	139	25	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	139	26	15%–50	15%–50	CD
work_lqoc3fv36veffa62lsrtqpk4na	139	27	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	139	28	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	139	29	51	51	CD
work_lqoc3fv36veffa62lsrtqpk4na	139	30	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	139	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	140	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	140	2	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	140	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	141	1	Emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	141	2	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	141	3	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	141	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	141	5	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	141	6	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	141	7	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	141	8	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	141	9	forms	form	NNS
work_lqoc3fv36veffa62lsrtqpk4na	141	10	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	141	11	units	unit	NNS
work_lqoc3fv36veffa62lsrtqpk4na	141	12	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	141	13	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	141	14	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	141	15	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	141	16	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	141	17	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	141	18	32,49,50	32,49,50	NN
work_lqoc3fv36veffa62lsrtqpk4na	141	19	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	141	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	142	1	Emissions	Emissions	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	142	2	Forestry	Forestry	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	3	Wood	Wood	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	4	Pellet	Pellet	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	5	Forestry	Forestry	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	6	Wood	Wood	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	7	Chip	Chip	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	8	Agricultural	Agricultural	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	9	Residue	Residue	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	10	Pellet	Pellet	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	11	Agricultural	Agricultural	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	12	Residue	Residue	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	13	Bale	bale	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	14	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	15	0	0	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	16	0	0	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	17	0	0	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	18	0	0	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	19	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	20	0.00582	0.00582	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	21	0.113	0.113	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	22	0.0046	0.0046	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	23	0.0892	0.0892	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	24	N2O	n2o	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	25	0.0485	0.0485	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	26	0.0699	0.0699	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	27	0.0372	0.0372	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	28	0.0536	0.0536	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	29	CO	CO	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	30	1.26	1.26	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	31	3.23	3.23	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	32	4.18	4.18	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	33	10.07	10.07	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	34	VOC	VOC	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	35	0.0291	0.0291	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	36	0.0113	0.0113	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	37	0.0291	0.0291	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	38	0.0113	0.0113	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	39	NOx	NOx	NNS
work_lqoc3fv36veffa62lsrtqpk4na	142	40	1.44	1.44	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	41	1.38	1.38	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	42	1.67	1.67	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	43	1.60	1.60	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	44	SO2	SO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	45	0.0485	0.0485	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	46	0.134	0.134	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	47	0.839	0.839	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	48	2.31	2.31	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	49	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	142	50	daily	daily	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	51	criteria	criterion	NNS
work_lqoc3fv36veffa62lsrtqpk4na	142	52	pollutant	pollutant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	53	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	142	54	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	55	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	56	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	57	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	58	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	59	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	60	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	61	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	62	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	63	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	64	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	65	residue	residue	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	66	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	67	miscanthus	miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	68	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	69	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	70	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	71	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	72	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	73	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	142	74	switchgrass	switchgrass	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	75	were	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	142	76	evaluated	evaluate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	142	77	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	78	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	79	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	80	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	81	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	82	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	83	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	84	12982	12982	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	85	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	86	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	87	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	142	88	GREET.net	greet.net	JJ
work_lqoc3fv36veffa62lsrtqpk4na	142	89	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	90	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	142	91	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	142	92	Greenhouse	Greenhouse	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	93	Gases	Gases	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	142	94	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	95	Regulated	Regulated	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	96	Emissions	Emissions	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	142	97	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	98	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	142	99	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	100	Use	Use	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	101	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	142	102	Transportation	Transportation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	103	Model	Model	NNP
work_lqoc3fv36veffa62lsrtqpk4na	142	104	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	142	105	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	106	version	version	NN
work_lqoc3fv36veffa62lsrtqpk4na	142	107	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	142	108	[	[	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	142	109	52	52	CD
work_lqoc3fv36veffa62lsrtqpk4na	142	110	]	]	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	142	111	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	143	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	143	2	capacity	capacity	NN
work_lqoc3fv36veffa62lsrtqpk4na	143	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	143	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	143	5	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	143	6	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	143	7	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	143	8	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	143	9	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	143	10	MW	MW	NNP
work_lqoc3fv36veffa62lsrtqpk4na	143	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	143	12	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	143	13	falls	fall	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	143	14	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	143	15	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	143	16	small	small	JJ
work_lqoc3fv36veffa62lsrtqpk4na	143	17	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	143	18	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	143	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	144	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	144	2	mode	mode	NN
work_lqoc3fv36veffa62lsrtqpk4na	144	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	144	4	well	well	RB
work_lqoc3fv36veffa62lsrtqpk4na	144	5	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	144	6	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	144	7	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	144	8	pump	pump	NN
work_lqoc3fv36veffa62lsrtqpk4na	144	9	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	144	10	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	144	11	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	144	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	144	13	simulation	simulation	NN
work_lqoc3fv36veffa62lsrtqpk4na	144	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	145	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	145	2	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	145	3	shows	show	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	145	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	145	5	characteristics	characteristic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	145	6	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	145	7	farming	farm	VBG
work_lqoc3fv36veffa62lsrtqpk4na	145	8	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	145	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	145	10	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	145	11	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	145	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	145	13	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	145	14	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	145	15	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	145	16	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	145	17	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	145	18	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	145	19	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	145	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	145	21	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	145	22	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	145	23	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	145	24	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	146	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	146	2	unit	unit	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	3	kg	kg	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	4	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	146	5	t	t	NNP
work_lqoc3fv36veffa62lsrtqpk4na	146	6	refers	refer	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	146	7	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	146	9	usage	usage	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	11	fertilizers	fertilizer	NNS
work_lqoc3fv36veffa62lsrtqpk4na	146	12	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	146	13	herbicides	herbicide	NNS
work_lqoc3fv36veffa62lsrtqpk4na	146	14	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	15	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	146	16	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	17	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	146	18	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	146	19	ton	ton	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	20	output	output	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	22	dry	dry	JJ
work_lqoc3fv36veffa62lsrtqpk4na	146	23	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	24	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	146	25	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	146	26	pathway	pathway	NN
work_lqoc3fv36veffa62lsrtqpk4na	146	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	147	1	Here	here	RB
work_lqoc3fv36veffa62lsrtqpk4na	147	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	147	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	147	4	same	same	JJ
work_lqoc3fv36veffa62lsrtqpk4na	147	5	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	147	6	distance	distance	NN
work_lqoc3fv36veffa62lsrtqpk4na	147	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	147	8	50	50	CD
work_lqoc3fv36veffa62lsrtqpk4na	147	9	miles	mile	NNS
work_lqoc3fv36veffa62lsrtqpk4na	147	10	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	147	11	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	147	12	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	147	13	all	all	PDT
work_lqoc3fv36veffa62lsrtqpk4na	147	14	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	147	15	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	147	16	types	type	NNS
work_lqoc3fv36veffa62lsrtqpk4na	147	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	148	1	We	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	148	2	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	148	3	see	see	VB
work_lqoc3fv36veffa62lsrtqpk4na	148	4	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	148	5	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	148	6	pollutant	pollutant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	148	7	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	148	8	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	148	9	VOC	VOC	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	148	11	CO	CO	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	148	13	NOx	NOx	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	148	15	PM10	PM10	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	148	17	PM2.5	PM2.5	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	148	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	148	20	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	148	21	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	148	22	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	148	23	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	148	24	similar	similar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	148	25	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	148	26	all	all	PDT
work_lqoc3fv36veffa62lsrtqpk4na	148	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	148	28	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	148	29	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	149	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	149	2	SOx	SOx	NNS
work_lqoc3fv36veffa62lsrtqpk4na	149	3	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	149	4	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	149	5	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	149	6	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	149	7	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	149	8	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	149	9	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	149	10	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	149	11	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	149	12	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	149	13	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	149	14	residue	residue	NN
work_lqoc3fv36veffa62lsrtqpk4na	149	15	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	149	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	149	17	greatest	great	JJS
work_lqoc3fv36veffa62lsrtqpk4na	149	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	149	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	149	20	those	those	DT
work_lqoc3fv36veffa62lsrtqpk4na	149	21	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	149	22	Poplar	Poplar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	149	23	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	149	24	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	149	25	smallest	small	JJS
work_lqoc3fv36veffa62lsrtqpk4na	149	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	150	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	150	2	N2O	n2o	NN
work_lqoc3fv36veffa62lsrtqpk4na	150	3	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	150	4	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	150	5	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	150	6	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	150	7	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	150	8	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	150	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	150	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	150	11	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	150	12	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	150	13	switchgrass	switchgrass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	150	14	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	150	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	150	16	greatest	great	JJS
work_lqoc3fv36veffa62lsrtqpk4na	150	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	151	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	151	2	daily	daily	JJ
work_lqoc3fv36veffa62lsrtqpk4na	151	3	net	net	JJ
work_lqoc3fv36veffa62lsrtqpk4na	151	4	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	151	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	151	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	151	7	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	151	8	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	151	9	CO2-equivalent	co2-equivalent	NN
work_lqoc3fv36veffa62lsrtqpk4na	151	10	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	151	11	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	151	12	all	all	PDT
work_lqoc3fv36veffa62lsrtqpk4na	151	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	151	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	151	15	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	151	16	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	151	17	much	much	RB
work_lqoc3fv36veffa62lsrtqpk4na	151	18	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	151	19	than	than	IN
work_lqoc3fv36veffa62lsrtqpk4na	151	20	those	those	DT
work_lqoc3fv36veffa62lsrtqpk4na	151	21	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	151	22	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	151	23	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	151	24	site	site	NN
work_lqoc3fv36veffa62lsrtqpk4na	151	25	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	151	26	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	151	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	152	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	152	2	lowest	low	JJS
work_lqoc3fv36veffa62lsrtqpk4na	152	3	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	152	4	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	152	5	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	152	6	achieved	achieve	VBN
work_lqoc3fv36veffa62lsrtqpk4na	152	7	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	152	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	152	9	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	152	10	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	152	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	153	1	Table	table	NN
work_lqoc3fv36veffa62lsrtqpk4na	153	2	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	153	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	154	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	154	2	characteristics	characteristic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	154	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	154	4	farming	farm	VBG
work_lqoc3fv36veffa62lsrtqpk4na	154	5	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	154	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	154	7	daily	daily	JJ
work_lqoc3fv36veffa62lsrtqpk4na	154	8	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	154	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	154	10	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	154	11	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	154	12	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	154	13	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	154	14	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	154	15	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	154	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	155	1	Farming	Farming	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	2	Unit	Unit	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	3	Forest	Forest	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	4	Residue	Residue	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	5	Miscanthus	Miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	6	Willow	Willow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	7	Poplar	Poplar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	8	Switchgrass	Switchgrass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	9	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	10	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	155	11	fertilizer	fertilizer	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	12	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	13	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	14	t	t	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	15	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	16	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	17	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	18	4.407	4.407	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	19	0.436	0.436	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	20	3.014	3.014	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	21	9.147	9.147	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	22	P	p	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	23	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	155	24	fertilizer	fertilizer	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	25	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	26	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	27	t	t	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	28	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	29	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	30	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	31	1.539	1.539	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	32	N	n	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	33	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	34	A	a	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	35	1.008	1.008	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	36	0.125	0.125	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	37	K	k	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	38	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	155	39	fertilizer	fertilizer	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	40	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	41	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	42	t	t	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	43	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	44	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	45	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	46	6.275	6.275	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	47	N	n	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	48	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	49	A	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	155	50	2.015	2.015	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	51	0.251	0.251	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	52	Herbicides	Herbicides	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	53	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	54	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	55	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	56	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	57	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	58	A	a	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	59	0.035	0.035	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	60	0.005	0.005	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	61	0.150	0.150	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	62	0.035	0.035	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	63	Calcium	Calcium	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	64	carbonate	carbonate	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	65	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	66	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	67	t	t	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	68	N	N	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	69	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	70	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	71	N	n	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	72	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	73	A	a	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	74	N	n	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	75	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	76	A	a	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	77	2.380	2.380	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	78	N	n	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	79	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	155	80	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	81	VOC	voc	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	82	kg	kg	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	83	3.722	3.722	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	84	4.5336	4.5336	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	85	4.120	4.120	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	86	4.279	4.279	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	87	5.102	5.102	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	88	CO	CO	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	89	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	90	116.194	116.194	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	91	117.130	117.130	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	92	116.638	116.638	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	93	117.250	117.250	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	94	117.900	117.900	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	95	NOx	NOx	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	96	kg	kg	CC
work_lqoc3fv36veffa62lsrtqpk4na	155	97	27.295	27.295	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	98	29.894	29.894	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	99	28.942	28.942	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	100	29.964	29.964	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	101	32.323	32.323	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	102	PM10	PM10	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	103	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	104	67.908	67.908	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	105	68.191	68.191	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	106	68.006	68.006	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	107	68.162	68.162	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	108	68.290	68.290	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	109	PM2.5	PM2.5	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	110	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	111	47.755	47.755	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	112	47.976	47.976	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	113	47.837	47.837	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	114	47.964	47.964	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	115	48.065	48.065	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	116	SOx	SOx	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	117	g	g	NN
work_lqoc3fv36veffa62lsrtqpk4na	155	118	232.855	232.855	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	119	40.807	40.807	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	120	23.340	23.340	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	121	2.825	2.825	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	122	55.872	55.872	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	123	CH4	CH4	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	124	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	125	13.075	13.075	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	126	14.728	14.728	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	127	13.735	13.735	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	128	14.138	14.138	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	129	15.319	15.319	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	130	N2O	N2O	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	131	kg	kg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	132	1.582	1.582	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	133	4.574	4.574	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	134	3.418	3.418	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	135	3.384	3.384	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	136	7.922	7.922	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	137	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	155	138	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	139	49,121.520	49,121.520	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	140	39,718.480	39,718.480	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	141	40,165.730	40,165.730	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	142	40,178.184	40,178.184	JJ
work_lqoc3fv36veffa62lsrtqpk4na	155	143	41,554.522	41,554.522	JJ
work_lqoc3fv36veffa62lsrtqpk4na	155	144	GHGs	ghg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	145	kg	kg	NNS
work_lqoc3fv36veffa62lsrtqpk4na	155	146	6507.813	6507.813	PRP
work_lqoc3fv36veffa62lsrtqpk4na	155	147	3110.010	3110.010	IN
work_lqoc3fv36veffa62lsrtqpk4na	155	148	2461.972	2461.972	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	149	2746.449	2746.449	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	150	4355.243	4355.243	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	151	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	155	152	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	156	1	Uncertainty	uncertainty	NN
work_lqoc3fv36veffa62lsrtqpk4na	156	2	Analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	156	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	156	4	Electricity	Electricity	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	5	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	6	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	156	7	Lignocellulosic	Lignocellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	8	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	9	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	156	10	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	156	11	analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	156	12	described	describe	VBD
work_lqoc3fv36veffa62lsrtqpk4na	156	13	herein	herein	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	14	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	156	15	limited	limit	VBN
work_lqoc3fv36veffa62lsrtqpk4na	156	16	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	156	17	parameters	parameter	NNS
work_lqoc3fv36veffa62lsrtqpk4na	156	18	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	156	19	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	156	20	data	datum	NNS
work_lqoc3fv36veffa62lsrtqpk4na	156	21	were	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	156	22	readily	readily	RB
work_lqoc3fv36veffa62lsrtqpk4na	156	23	available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	156	24	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	156	25	GREET.net	GREET.net	NNP
work_lqoc3fv36veffa62lsrtqpk4na	156	26	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	156	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	157	1	Within	within	IN
work_lqoc3fv36veffa62lsrtqpk4na	157	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	157	3	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	157	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	157	5	differences	difference	NNS
work_lqoc3fv36veffa62lsrtqpk4na	157	6	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	157	7	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	157	8	chemical	chemical	NN
work_lqoc3fv36veffa62lsrtqpk4na	157	9	usage	usage	NN
work_lqoc3fv36veffa62lsrtqpk4na	157	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	157	11	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	157	12	distances	distance	NNS
work_lqoc3fv36veffa62lsrtqpk4na	157	13	usually	usually	RB
work_lqoc3fv36veffa62lsrtqpk4na	157	14	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	157	15	between	between	IN
work_lqoc3fv36veffa62lsrtqpk4na	157	16	scenarios	scenario	NNS
work_lqoc3fv36veffa62lsrtqpk4na	157	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	158	1	This	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	158	2	analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	3	does	do	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	158	4	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	158	5	consider	consider	VB
work_lqoc3fv36veffa62lsrtqpk4na	158	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	158	7	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	158	8	impacts	impact	NNS
work_lqoc3fv36veffa62lsrtqpk4na	158	9	driven	drive	VBN
work_lqoc3fv36veffa62lsrtqpk4na	158	10	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	158	11	land	land	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	12	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	158	13	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	14	change	change	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	158	16	either	either	CC
work_lqoc3fv36veffa62lsrtqpk4na	158	17	direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	158	18	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	158	19	indirect	indirect	JJ
work_lqoc3fv36veffa62lsrtqpk4na	158	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	158	21	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	158	22	impacts	impact	NNS
work_lqoc3fv36veffa62lsrtqpk4na	158	23	resulting	result	VBG
work_lqoc3fv36veffa62lsrtqpk4na	158	24	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	158	25	establishing	establish	VBG
work_lqoc3fv36veffa62lsrtqpk4na	158	26	new	new	JJ
work_lqoc3fv36veffa62lsrtqpk4na	158	27	infrastructure	infrastructure	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	28	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	158	29	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	158	30	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	158	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	159	1	However	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	159	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	159	3	increasing	increase	VBG
work_lqoc3fv36veffa62lsrtqpk4na	159	4	demand	demand	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	5	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	159	6	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	7	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	8	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	159	9	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	159	10	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	11	may	may	MD
work_lqoc3fv36veffa62lsrtqpk4na	159	12	significantly	significantly	RB
work_lqoc3fv36veffa62lsrtqpk4na	159	13	change	change	VB
work_lqoc3fv36veffa62lsrtqpk4na	159	14	land	land	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	15	use	use	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	16	patterns	pattern	NNS
work_lqoc3fv36veffa62lsrtqpk4na	159	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	159	18	stimulate	stimulate	VB
work_lqoc3fv36veffa62lsrtqpk4na	159	19	infrastructure	infrastructure	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	20	construction	construction	NN
work_lqoc3fv36veffa62lsrtqpk4na	159	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	160	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	160	2	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	160	3	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	160	5	each	each	DT
work_lqoc3fv36veffa62lsrtqpk4na	160	6	pathway	pathway	NN
work_lqoc3fv36veffa62lsrtqpk4na	160	7	should	should	MD
work_lqoc3fv36veffa62lsrtqpk4na	160	8	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	160	9	determined	determine	VBN
work_lqoc3fv36veffa62lsrtqpk4na	160	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	160	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	160	12	characteristics	characteristic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	160	14	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	160	15	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	160	17	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	160	18	details	detail	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	19	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	160	20	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	160	21	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	22	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	160	23	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	160	24	generations	generation	NNS
work_lqoc3fv36veffa62lsrtqpk4na	160	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	160	26	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	160	27	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	160	28	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	160	29	scales	scale	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	160	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	161	1	For	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	161	2	examples	example	NNS
work_lqoc3fv36veffa62lsrtqpk4na	161	3	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	161	4	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	161	5	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	161	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	161	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	161	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	161	9	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	161	10	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	161	11	rely	rely	VBP
work_lqoc3fv36veffa62lsrtqpk4na	161	12	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	161	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	161	14	details	detail	NNS
work_lqoc3fv36veffa62lsrtqpk4na	161	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	161	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	161	17	boilers	boiler	NNS
work_lqoc3fv36veffa62lsrtqpk4na	161	18	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	161	19	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	161	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	161	21	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	161	22	12983	12983	CD
work_lqoc3fv36veffa62lsrtqpk4na	161	23	installed	instal	VBN
work_lqoc3fv36veffa62lsrtqpk4na	161	24	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	161	25	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	161	26	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	161	27	scales	scale	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	161	28	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	162	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	162	2	achievement	achievement	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	162	4	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	5	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	162	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	7	increases	increase	NNS
work_lqoc3fv36veffa62lsrtqpk4na	162	8	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	162	9	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	10	depends	depend	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	162	11	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	162	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	13	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	14	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	15	capacity	capacity	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	16	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	162	17	regional	regional	JJ
work_lqoc3fv36veffa62lsrtqpk4na	162	18	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	162	19	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	162	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	163	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	163	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	163	3	sensitivity	sensitivity	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	4	study	study	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	163	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	163	7	above	above	RB
work_lqoc3fv36veffa62lsrtqpk4na	163	8	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	163	9	mentioned	mention	VBN
work_lqoc3fv36veffa62lsrtqpk4na	163	10	case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	163	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	163	13	results	result	NNS
work_lqoc3fv36veffa62lsrtqpk4na	163	14	show	show	VBP
work_lqoc3fv36veffa62lsrtqpk4na	163	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	163	16	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	17	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	18	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	163	19	obviously	obviously	RB
work_lqoc3fv36veffa62lsrtqpk4na	163	20	affects	affect	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	163	21	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	163	22	pollutant	pollutant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	163	23	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	163	24	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	164	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	2	detail	detail	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	164	4	there	there	EX
work_lqoc3fv36veffa62lsrtqpk4na	164	5	exists	exist	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	164	6	about	about	RB
work_lqoc3fv36veffa62lsrtqpk4na	164	7	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	8	4.8	4.8	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	9	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	10	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	164	11	7.4	7.4	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	12	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	13	increase	increase	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	14	when	when	WRB
work_lqoc3fv36veffa62lsrtqpk4na	164	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	16	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	17	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	18	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	19	decreases	decrease	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	164	20	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	21	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	22	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	23	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	164	24	1.5	1.5	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	25	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	26	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	28	base	base	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	29	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	30	21.9	21.9	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	31	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	32	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	164	33	which	which	WDT
work_lqoc3fv36veffa62lsrtqpk4na	164	34	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	164	35	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	164	36	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	37	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	38	GREET.net	greet.net	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	39	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	40	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	164	41	however	however	RB
work_lqoc3fv36veffa62lsrtqpk4na	164	42	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	164	43	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	44	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	164	45	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	164	46	reduced	reduce	VBN
work_lqoc3fv36veffa62lsrtqpk4na	164	47	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	48	about	about	RB
work_lqoc3fv36veffa62lsrtqpk4na	164	49	4.4	4.4	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	50	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	51	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	164	52	6.4	6.4	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	53	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	54	when	when	WRB
work_lqoc3fv36veffa62lsrtqpk4na	164	55	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	164	56	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	57	increases	increase	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	164	58	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	164	59	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	60	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	61	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	164	62	1.5	1.5	CD
work_lqoc3fv36veffa62lsrtqpk4na	164	63	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	164	64	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	165	1	7	7	LS
work_lqoc3fv36veffa62lsrtqpk4na	165	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	166	1	Conclusions	conclusion	NNS
work_lqoc3fv36veffa62lsrtqpk4na	166	2	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	166	3	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	166	4	crisis	crisis	NN
work_lqoc3fv36veffa62lsrtqpk4na	166	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	166	6	reduction	reduction	NN
work_lqoc3fv36veffa62lsrtqpk4na	166	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	166	8	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	166	9	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	166	10	critical	critical	JJ
work_lqoc3fv36veffa62lsrtqpk4na	166	11	issues	issue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	166	12	that	that	WDT
work_lqoc3fv36veffa62lsrtqpk4na	166	13	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	166	14	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	166	15	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	166	16	solved	solve	VBN
work_lqoc3fv36veffa62lsrtqpk4na	166	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	167	1	Renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	167	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	167	4	especially	especially	RB
work_lqoc3fv36veffa62lsrtqpk4na	167	5	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	6	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	167	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	167	8	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	167	9	abundant	abundant	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	167	11	complementary	complementary	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	12	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	167	13	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	14	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	15	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	167	16	fossil	fossil	NN
work_lqoc3fv36veffa62lsrtqpk4na	167	17	resources	resource	NNS
work_lqoc3fv36veffa62lsrtqpk4na	167	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	168	1	Many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	168	2	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	168	3	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	168	4	developed	develop	VBN
work_lqoc3fv36veffa62lsrtqpk4na	168	5	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	168	6	derive	derive	VB
work_lqoc3fv36veffa62lsrtqpk4na	168	7	biodiesel	biodiesel	NN
work_lqoc3fv36veffa62lsrtqpk4na	168	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	168	9	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	168	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	168	11	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	168	12	generate	generate	VB
work_lqoc3fv36veffa62lsrtqpk4na	168	13	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	168	14	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	168	15	non	non	JJ
work_lqoc3fv36veffa62lsrtqpk4na	168	16	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	168	17	food	food	JJ
work_lqoc3fv36veffa62lsrtqpk4na	168	18	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	168	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	169	1	Currently	currently	RB
work_lqoc3fv36veffa62lsrtqpk4na	169	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	169	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	169	4	derivation	derivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	169	5	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	169	6	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	169	7	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	169	8	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	169	9	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	169	10	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	169	11	not	not	RB
work_lqoc3fv36veffa62lsrtqpk4na	169	12	mature	mature	JJ
work_lqoc3fv36veffa62lsrtqpk4na	169	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	169	14	although	although	IN
work_lqoc3fv36veffa62lsrtqpk4na	169	15	they	-PRON-	PRP
work_lqoc3fv36veffa62lsrtqpk4na	169	16	have	have	VBP
work_lqoc3fv36veffa62lsrtqpk4na	169	17	started	start	VBN
work_lqoc3fv36veffa62lsrtqpk4na	169	18	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	169	19	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	169	20	pioneer	pioneer	NN
work_lqoc3fv36veffa62lsrtqpk4na	169	21	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	169	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	170	1	Biomass	biomass	JJ
work_lqoc3fv36veffa62lsrtqpk4na	170	2	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	170	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	170	4	relatively	relatively	RB
work_lqoc3fv36veffa62lsrtqpk4na	170	5	easy	easy	JJ
work_lqoc3fv36veffa62lsrtqpk4na	170	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	170	7	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	170	8	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	170	9	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	170	10	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	170	11	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	170	12	countries	country	NNS
work_lqoc3fv36veffa62lsrtqpk4na	170	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	171	1	Many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	171	2	case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	171	3	studies	study	NNS
work_lqoc3fv36veffa62lsrtqpk4na	171	4	illustrated	illustrate	VBD
work_lqoc3fv36veffa62lsrtqpk4na	171	5	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	171	6	LCA	LCA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	171	7	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	171	8	effective	effective	JJ
work_lqoc3fv36veffa62lsrtqpk4na	171	9	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	171	10	quantify	quantify	VB
work_lqoc3fv36veffa62lsrtqpk4na	171	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	171	12	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	171	13	impacts	impact	NNS
work_lqoc3fv36veffa62lsrtqpk4na	171	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	171	15	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	171	16	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	171	17	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	171	18	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	171	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	172	1	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	2	includes	include	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	172	3	all	all	PDT
work_lqoc3fv36veffa62lsrtqpk4na	172	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	172	5	stages	stage	NNS
work_lqoc3fv36veffa62lsrtqpk4na	172	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	172	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	8	cradle	cradle	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	9	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	172	10	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	11	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	172	12	grave	grave	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	172	14	along	along	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	172	16	whole	whole	JJ
work_lqoc3fv36veffa62lsrtqpk4na	172	17	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	172	19	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	20	planting	plant	VBG
work_lqoc3fv36veffa62lsrtqpk4na	172	21	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	172	22	collecting	collect	VBG
work_lqoc3fv36veffa62lsrtqpk4na	172	23	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	172	24	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	25	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	26	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	27	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	28	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	172	29	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	30	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	172	31	only	only	RB
work_lqoc3fv36veffa62lsrtqpk4na	172	32	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	172	33	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	172	34	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	172	35	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	172	36	firing	firing	JJ
work_lqoc3fv36veffa62lsrtqpk4na	172	37	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	172	38	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	173	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	173	2	evaluations	evaluation	NNS
work_lqoc3fv36veffa62lsrtqpk4na	173	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	173	4	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	173	5	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	173	6	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	173	7	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	173	8	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	173	9	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	173	10	complicated	complicate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	173	11	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	173	12	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	173	13	options	option	NNS
work_lqoc3fv36veffa62lsrtqpk4na	173	14	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	173	15	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	173	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	174	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	174	2	analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	174	3	results	result	NNS
work_lqoc3fv36veffa62lsrtqpk4na	174	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	174	5	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	174	6	vary	vary	VBP
work_lqoc3fv36veffa62lsrtqpk4na	174	7	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	174	8	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	174	9	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	174	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	174	11	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	174	12	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	174	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	174	14	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	174	15	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	174	16	applied	apply	VBN
work_lqoc3fv36veffa62lsrtqpk4na	174	17	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	174	18	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	174	19	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	174	20	scales	scale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	174	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	174	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	174	23	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	174	24	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	174	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	175	1	Although	although	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	2	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	3	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	4	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	5	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	6	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	7	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	175	8	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	175	9	general	general	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	10	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	11	neutralization	neutralization	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	12	process	process	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	175	14	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	175	15	overall	overall	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	16	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	17	footprint	footprint	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	18	depends	depend	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	175	19	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	20	many	many	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	21	factors	factor	NNS
work_lqoc3fv36veffa62lsrtqpk4na	175	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	175	23	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	24	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	25	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	26	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	175	27	related	relate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	175	28	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	29	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	175	30	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	175	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	175	32	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	33	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	175	35	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	175	36	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	175	37	methods	method	NNS
work_lqoc3fv36veffa62lsrtqpk4na	175	38	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	175	39	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	40	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	175	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	176	1	Due	due	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	3	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	176	4	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	5	density	density	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	176	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	176	8	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	9	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	10	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	11	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	176	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	13	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	176	14	more	more	RBR
work_lqoc3fv36veffa62lsrtqpk4na	176	15	sensitive	sensitive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	176	16	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	17	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	176	18	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	19	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	20	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	21	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	22	location	location	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	176	24	scales	scale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	176	25	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	26	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	27	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	176	28	shown	show	VBN
work_lqoc3fv36veffa62lsrtqpk4na	176	29	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	176	30	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	176	31	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	176	32	studies	study	NNS
work_lqoc3fv36veffa62lsrtqpk4na	176	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	177	1	LCA	lca	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	2	has	have	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	177	3	also	also	RB
work_lqoc3fv36veffa62lsrtqpk4na	177	4	been	be	VBN
work_lqoc3fv36veffa62lsrtqpk4na	177	5	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	177	6	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	177	7	quantify	quantify	VB
work_lqoc3fv36veffa62lsrtqpk4na	177	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	177	9	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	177	10	emission	emission	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	11	savings	saving	NNS
work_lqoc3fv36veffa62lsrtqpk4na	177	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	177	13	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	14	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	15	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	177	16	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	17	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	177	18	comparing	compare	VBG
work_lqoc3fv36veffa62lsrtqpk4na	177	19	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	177	20	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	177	21	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	177	22	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	177	23	reference	reference	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	24	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	25	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	26	system	system	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	27	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	177	28	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	29	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	177	30	fossil	fossil	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	31	fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	32	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	177	33	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	177	34	natural	natural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	177	35	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	177	36	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	178	1	Overall	overall	RB
work_lqoc3fv36veffa62lsrtqpk4na	178	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	178	3	7.5	7.5	CD
work_lqoc3fv36veffa62lsrtqpk4na	178	4	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	178	5	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	178	6	65	65	CD
work_lqoc3fv36veffa62lsrtqpk4na	178	7	%	%	NN
work_lqoc3fv36veffa62lsrtqpk4na	178	8	savings	saving	NNS
work_lqoc3fv36veffa62lsrtqpk4na	178	9	can	can	MD
work_lqoc3fv36veffa62lsrtqpk4na	178	10	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	178	11	achieved	achieve	VBN
work_lqoc3fv36veffa62lsrtqpk4na	178	12	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	178	13	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	178	14	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	178	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	178	16	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	178	17	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	178	18	agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	178	19	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	178	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	178	21	grass	grass	NN
work_lqoc3fv36veffa62lsrtqpk4na	178	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	178	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	178	24	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	178	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	179	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	179	2	results	result	NNS
work_lqoc3fv36veffa62lsrtqpk4na	179	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	179	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	179	5	case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	6	study	study	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	8	fed	feed	VBN
work_lqoc3fv36veffa62lsrtqpk4na	179	9	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	179	10	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	179	11	lignocellulosic	lignocellulosic	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	14	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	179	15	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	179	16	forestry	forestry	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	17	residue	residue	NNP
work_lqoc3fv36veffa62lsrtqpk4na	179	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	19	miscanthus	miscanthus	NNP
work_lqoc3fv36veffa62lsrtqpk4na	179	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	21	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	23	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	179	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	25	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	179	26	switchgrass	switchgrass	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	179	28	show	show	VBP
work_lqoc3fv36veffa62lsrtqpk4na	179	29	that	that	IN
work_lqoc3fv36veffa62lsrtqpk4na	179	30	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	179	31	lowest	low	JJS
work_lqoc3fv36veffa62lsrtqpk4na	179	32	GHG	GHG	NNP
work_lqoc3fv36veffa62lsrtqpk4na	179	33	reductions	reduction	NNS
work_lqoc3fv36veffa62lsrtqpk4na	179	34	were	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	179	35	achieved	achieve	VBN
work_lqoc3fv36veffa62lsrtqpk4na	179	36	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	179	37	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	179	38	willow	willow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	179	39	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	40	plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	179	41	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	180	1	Compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	180	2	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	180	3	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	4	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	5	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	180	6	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	7	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	180	8	fossil	fossil	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	9	fuels	fuel	NNS
work_lqoc3fv36veffa62lsrtqpk4na	180	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	180	11	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	180	12	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	180	13	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	180	15	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	180	16	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	180	17	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	180	18	generally	generally	RB
work_lqoc3fv36veffa62lsrtqpk4na	180	19	lower	low	JJR
work_lqoc3fv36veffa62lsrtqpk4na	180	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	181	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	181	2	total	total	JJ
work_lqoc3fv36veffa62lsrtqpk4na	181	3	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	181	5	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	6	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	181	8	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	181	9	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	181	10	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	181	11	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	181	13	varies	vary	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	181	14	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	181	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	181	16	inputs	input	NNS
work_lqoc3fv36veffa62lsrtqpk4na	181	17	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	181	18	feedstocks	feedstock	NNS
work_lqoc3fv36veffa62lsrtqpk4na	181	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	181	20	transportation	transportation	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	21	distance	distance	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	181	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	181	24	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	181	25	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	181	26	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	181	27	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	181	28	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	181	29	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	182	1	Direct	direct	JJ
work_lqoc3fv36veffa62lsrtqpk4na	182	2	burning	burning	NN
work_lqoc3fv36veffa62lsrtqpk4na	182	3	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	182	4	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	182	5	mature	mature	JJ
work_lqoc3fv36veffa62lsrtqpk4na	182	6	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	182	7	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	182	8	globally	globally	RB
work_lqoc3fv36veffa62lsrtqpk4na	182	9	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	182	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	182	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	182	12	some	some	DT
work_lqoc3fv36veffa62lsrtqpk4na	182	13	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	182	14	methods	method	NNS
work_lqoc3fv36veffa62lsrtqpk4na	182	15	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	182	16	being	be	VBG
work_lqoc3fv36veffa62lsrtqpk4na	182	17	demonstrated	demonstrate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	182	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	182	19	developed	develop	VBN
work_lqoc3fv36veffa62lsrtqpk4na	182	20	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	183	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	183	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	183	3	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	183	4	term	term	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	183	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	183	7	barriers	barrier	NNS
work_lqoc3fv36veffa62lsrtqpk4na	183	8	to	to	TO
work_lqoc3fv36veffa62lsrtqpk4na	183	9	widely	widely	RB
work_lqoc3fv36veffa62lsrtqpk4na	183	10	use	use	VB
work_lqoc3fv36veffa62lsrtqpk4na	183	11	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	12	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	183	13	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	14	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	15	are	be	VBP
work_lqoc3fv36veffa62lsrtqpk4na	183	16	cost	cost	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	183	18	low	low	JJ
work_lqoc3fv36veffa62lsrtqpk4na	183	19	conversion	conversion	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	20	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	183	22	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	183	23	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	24	availability	availability	NN
work_lqoc3fv36veffa62lsrtqpk4na	183	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	184	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	2	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	184	3	long	long	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	4	term	term	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	184	7	future	future	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	8	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	9	bio	bio	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	10	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	11	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	12	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	13	will	will	MD
work_lqoc3fv36veffa62lsrtqpk4na	184	14	depend	depend	VB
work_lqoc3fv36veffa62lsrtqpk4na	184	15	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	184	17	urgency	urgency	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	19	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	20	effects	effect	NNS
work_lqoc3fv36veffa62lsrtqpk4na	184	21	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	184	22	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	23	crisis	crisis	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	25	advanced	advanced	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	26	technology	technology	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	27	development	development	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	28	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	29	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	30	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	31	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	32	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	184	33	efficient	efficient	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	34	burning	burn	VBG
work_lqoc3fv36veffa62lsrtqpk4na	184	35	methods	method	NNS
work_lqoc3fv36veffa62lsrtqpk4na	184	36	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	37	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	38	capture	capture	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	39	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	40	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	184	41	storage	storage	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	42	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	43	as	as	RB
work_lqoc3fv36veffa62lsrtqpk4na	184	44	well	well	RB
work_lqoc3fv36veffa62lsrtqpk4na	184	45	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	46	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	184	47	competition	competition	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	48	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	49	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	184	50	conversion	conversion	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	51	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	52	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	53	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	54	into	into	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	55	biofuel	biofuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	56	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	184	57	such	such	JJ
work_lqoc3fv36veffa62lsrtqpk4na	184	58	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	184	59	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	60	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	184	61	biodiesel	biodiesel	NN
work_lqoc3fv36veffa62lsrtqpk4na	184	62	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	185	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	185	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	185	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	185	5	12984	12984	CD
work_lqoc3fv36veffa62lsrtqpk4na	185	6	Acknowledgments	acknowledgment	NNS
work_lqoc3fv36veffa62lsrtqpk4na	185	7	This	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	185	8	work	work	NN
work_lqoc3fv36veffa62lsrtqpk4na	185	9	was	be	VBD
work_lqoc3fv36veffa62lsrtqpk4na	185	10	supported	support	VBN
work_lqoc3fv36veffa62lsrtqpk4na	185	11	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	185	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	185	13	US	US	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	14	National	National	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	15	Science	Science	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	16	Foundation	Foundation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	17	through	through	IN
work_lqoc3fv36veffa62lsrtqpk4na	185	18	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	185	19	CREST	CREST	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	20	Center	Center	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	21	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	185	22	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	185	24	Environmental	Environmental	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	25	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	26	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	185	27	CEES	CEES	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	28	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	185	29	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	185	30	Prairie	Prairie	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	31	View	View	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	32	A&M	A&M	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	33	University	University	NNP
work_lqoc3fv36veffa62lsrtqpk4na	185	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	185	35	award	award	NN
work_lqoc3fv36veffa62lsrtqpk4na	185	36	number	number	NN
work_lqoc3fv36veffa62lsrtqpk4na	185	37	1036593	1036593	CD
work_lqoc3fv36veffa62lsrtqpk4na	185	38	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	186	1	Author	author	NN
work_lqoc3fv36veffa62lsrtqpk4na	186	2	Contributions	Contributions	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	3	Xinhua	Xinhua	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	4	Shen	Shen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	5	primarily	primarily	RB
work_lqoc3fv36veffa62lsrtqpk4na	186	6	worked	work	VBD
work_lqoc3fv36veffa62lsrtqpk4na	186	7	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	186	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	186	9	project	project	NN
work_lqoc3fv36veffa62lsrtqpk4na	186	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	186	11	prepared	prepare	VBD
work_lqoc3fv36veffa62lsrtqpk4na	186	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	186	13	initial	initial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	186	14	draft	draft	NN
work_lqoc3fv36veffa62lsrtqpk4na	186	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	186	16	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	186	17	manuscript	manuscript	NN
work_lqoc3fv36veffa62lsrtqpk4na	186	18	under	under	IN
work_lqoc3fv36veffa62lsrtqpk4na	186	19	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	186	20	guidance	guidance	NN
work_lqoc3fv36veffa62lsrtqpk4na	186	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	186	22	Raghava	Raghava	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	23	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	24	Kommalapati	Kommalapati	NNP
work_lqoc3fv36veffa62lsrtqpk4na	186	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	187	1	Ziaul	Ziaul	NNP
work_lqoc3fv36veffa62lsrtqpk4na	187	2	Huque	Huque	NNP
work_lqoc3fv36veffa62lsrtqpk4na	187	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	187	4	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	187	5	collaborator	collaborator	NN
work_lqoc3fv36veffa62lsrtqpk4na	187	6	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	187	7	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	187	8	project	project	NN
work_lqoc3fv36veffa62lsrtqpk4na	187	9	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	188	1	Both	both	DT
work_lqoc3fv36veffa62lsrtqpk4na	188	2	Kommalapati	Kommalapati	NNP
work_lqoc3fv36veffa62lsrtqpk4na	188	3	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	188	4	Huque	Huque	NNP
work_lqoc3fv36veffa62lsrtqpk4na	188	5	contributed	contribute	VBD
work_lqoc3fv36veffa62lsrtqpk4na	188	6	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	188	7	revising	revise	VBG
work_lqoc3fv36veffa62lsrtqpk4na	188	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	188	9	preparing	prepare	VBG
work_lqoc3fv36veffa62lsrtqpk4na	188	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	188	11	final	final	JJ
work_lqoc3fv36veffa62lsrtqpk4na	188	12	draft	draft	NN
work_lqoc3fv36veffa62lsrtqpk4na	188	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	188	14	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	188	15	manuscript	manuscript	NN
work_lqoc3fv36veffa62lsrtqpk4na	188	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	189	1	Conflicts	conflict	NNS
work_lqoc3fv36veffa62lsrtqpk4na	189	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	189	3	Interest	interest	NN
work_lqoc3fv36veffa62lsrtqpk4na	189	4	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	189	5	authors	author	NNS
work_lqoc3fv36veffa62lsrtqpk4na	189	6	declare	declare	VBP
work_lqoc3fv36veffa62lsrtqpk4na	189	7	no	no	DT
work_lqoc3fv36veffa62lsrtqpk4na	189	8	conflict	conflict	NN
work_lqoc3fv36veffa62lsrtqpk4na	189	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	189	10	interest	interest	NN
work_lqoc3fv36veffa62lsrtqpk4na	189	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	190	1	References	reference	NNS
work_lqoc3fv36veffa62lsrtqpk4na	190	2	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	190	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	191	1	Keshwani	Keshwani	NNP
work_lqoc3fv36veffa62lsrtqpk4na	191	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	191	3	D.R.	D.R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	192	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	192	2	Cheng	Cheng	NNP
work_lqoc3fv36veffa62lsrtqpk4na	192	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	192	4	J.J.	J.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	192	5	Switchgrass	Switchgrass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	192	6	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	192	7	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	192	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	192	9	other	other	JJ
work_lqoc3fv36veffa62lsrtqpk4na	192	10	value	value	NN
work_lqoc3fv36veffa62lsrtqpk4na	192	11	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	192	12	added	add	VBN
work_lqoc3fv36veffa62lsrtqpk4na	192	13	applications	application	NNS
work_lqoc3fv36veffa62lsrtqpk4na	192	14	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	192	15	A	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	192	16	review	review	NN
work_lqoc3fv36veffa62lsrtqpk4na	192	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	193	1	Bioresource	Bioresource	NNP
work_lqoc3fv36veffa62lsrtqpk4na	193	2	Technol	Technol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	193	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	194	1	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	194	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	194	3	100	100	CD
work_lqoc3fv36veffa62lsrtqpk4na	194	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	194	5	1515–1523	1515–1523	CD
work_lqoc3fv36veffa62lsrtqpk4na	194	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	195	1	2	2	LS
work_lqoc3fv36veffa62lsrtqpk4na	195	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	196	1	De	De	NNP
work_lqoc3fv36veffa62lsrtqpk4na	196	2	Paula	Paula	NNP
work_lqoc3fv36veffa62lsrtqpk4na	196	3	Gomes	Gomes	NNP
work_lqoc3fv36veffa62lsrtqpk4na	196	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	196	5	M.S.	M.S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	197	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	197	2	Muylaert	Muylaert	NNP
work_lqoc3fv36veffa62lsrtqpk4na	197	3	de	de	NNP
work_lqoc3fv36veffa62lsrtqpk4na	197	4	Araujo	Araujo	NNP
work_lqoc3fv36veffa62lsrtqpk4na	197	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	197	6	M.S.	M.S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	198	1	Bio	Bio	NNP
work_lqoc3fv36veffa62lsrtqpk4na	198	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	198	3	fuels	fuel	NNS
work_lqoc3fv36veffa62lsrtqpk4na	198	4	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	198	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	198	6	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	198	7	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	198	8	indicators	indicator	NNS
work_lqoc3fv36veffa62lsrtqpk4na	198	9	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	199	1	Renew	renew	VB
work_lqoc3fv36veffa62lsrtqpk4na	199	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	200	1	Sust	Sust	NNP
work_lqoc3fv36veffa62lsrtqpk4na	200	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	201	1	Energ	Energ	NNP
work_lqoc3fv36veffa62lsrtqpk4na	201	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	202	1	Rev.	Rev.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	203	1	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	203	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	203	3	13	13	CD
work_lqoc3fv36veffa62lsrtqpk4na	203	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	203	5	2201–2204	2201–2204	CD
work_lqoc3fv36veffa62lsrtqpk4na	203	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	204	1	3	3	LS
work_lqoc3fv36veffa62lsrtqpk4na	204	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	205	1	Ramirez	Ramirez	NNP
work_lqoc3fv36veffa62lsrtqpk4na	205	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	205	3	J.A.	J.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	206	2	Brown	Brown	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	206	4	R.J.	R.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	206	6	Rainey	Rainey	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	206	8	T.J.	T.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	9	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	10	Review	Review	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	11	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	206	12	Hydrothermal	Hydrothermal	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	13	Liquefaction	Liquefaction	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	14	Bio	Bio	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	15	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	206	16	Crude	Crude	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	17	Properties	Properties	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	206	18	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	206	19	Prospects	Prospects	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	206	20	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	206	21	Upgrading	upgrade	VBG
work_lqoc3fv36veffa62lsrtqpk4na	206	22	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	206	23	Transportation	Transportation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	206	24	Fuels	Fuels	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	206	25	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	207	1	Energies	energy	NNS
work_lqoc3fv36veffa62lsrtqpk4na	207	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	207	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	207	4	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	207	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	207	6	6765–6794	6765–6794	CD
work_lqoc3fv36veffa62lsrtqpk4na	207	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	208	1	4	4	LS
work_lqoc3fv36veffa62lsrtqpk4na	208	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	209	1	Vassilev	Vassilev	NNP
work_lqoc3fv36veffa62lsrtqpk4na	209	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	209	3	S.V.	S.V.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	210	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	210	2	Baxter	Baxter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	210	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	210	4	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	210	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	210	6	Andersen	Andersen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	210	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	210	8	L.K.	L.K.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	211	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	211	2	Vassileva	Vassileva	NNP
work_lqoc3fv36veffa62lsrtqpk4na	211	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	211	4	C.G.	C.G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	212	1	An	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	212	2	overview	overview	NN
work_lqoc3fv36veffa62lsrtqpk4na	212	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	212	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	212	5	composition	composition	NN
work_lqoc3fv36veffa62lsrtqpk4na	212	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	212	7	application	application	NN
work_lqoc3fv36veffa62lsrtqpk4na	212	8	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	212	9	biomass	biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	212	10	ash	ash	NN
work_lqoc3fv36veffa62lsrtqpk4na	212	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	213	1	Part	part	NN
work_lqoc3fv36veffa62lsrtqpk4na	213	2	1	1	CD
work_lqoc3fv36veffa62lsrtqpk4na	213	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	214	1	Phase	phase	NN
work_lqoc3fv36veffa62lsrtqpk4na	214	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	214	3	mineral	mineral	NN
work_lqoc3fv36veffa62lsrtqpk4na	214	4	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	214	5	chemical	chemical	NN
work_lqoc3fv36veffa62lsrtqpk4na	214	6	composition	composition	NN
work_lqoc3fv36veffa62lsrtqpk4na	214	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	214	8	classification	classification	NN
work_lqoc3fv36veffa62lsrtqpk4na	214	9	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	215	1	Fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	215	2	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	215	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	215	4	105	105	CD
work_lqoc3fv36veffa62lsrtqpk4na	215	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	215	6	40–76	40–76	CD
work_lqoc3fv36veffa62lsrtqpk4na	215	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	216	1	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	216	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	217	1	Vassilev	Vassilev	NNP
work_lqoc3fv36veffa62lsrtqpk4na	217	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	217	3	S.V.	S.V.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	218	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	218	2	Baxter	Baxter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	218	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	218	4	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	218	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	218	6	Andersen	Andersen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	218	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	218	8	L.K.	L.K.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	219	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	219	2	Vassileva	Vassileva	NNP
work_lqoc3fv36veffa62lsrtqpk4na	219	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	219	4	C.G.	C.G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	220	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	220	2	Morgan	Morgan	NNP
work_lqoc3fv36veffa62lsrtqpk4na	220	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	220	4	T.J.	T.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	220	5	An	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	220	6	overview	overview	NN
work_lqoc3fv36veffa62lsrtqpk4na	220	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	220	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	220	9	organic	organic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	220	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	220	11	inorganic	inorganic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	220	12	phase	phase	NN
work_lqoc3fv36veffa62lsrtqpk4na	220	13	composition	composition	NN
work_lqoc3fv36veffa62lsrtqpk4na	220	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	220	15	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	220	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	221	1	Fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	221	2	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	221	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	221	4	94	94	CD
work_lqoc3fv36veffa62lsrtqpk4na	221	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	221	6	1–33	1–33	CD
work_lqoc3fv36veffa62lsrtqpk4na	221	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	222	1	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	222	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	223	1	Jeswani	Jeswani	NNP
work_lqoc3fv36veffa62lsrtqpk4na	223	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	223	3	H.K.	H.K.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	224	2	Gujba	Gujba	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	224	4	H.	H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	224	6	Azapagic	Azapagic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	224	8	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	224	9	Assessing	Assessing	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	10	Options	Options	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	224	11	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	224	12	Electricity	Electricity	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	13	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	14	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	224	15	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	16	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	224	17	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	224	18	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	19	Cycle	Cycle	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	20	Basis	basis	NN
work_lqoc3fv36veffa62lsrtqpk4na	224	21	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	224	22	Environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	224	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	224	24	Economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	224	25	Evaluation	Evaluation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	224	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	225	1	Waste	Waste	NNP
work_lqoc3fv36veffa62lsrtqpk4na	225	2	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	225	3	Valorization	Valorization	NNP
work_lqoc3fv36veffa62lsrtqpk4na	225	4	2011	2011	CD
work_lqoc3fv36veffa62lsrtqpk4na	225	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	225	6	2	2	CD
work_lqoc3fv36veffa62lsrtqpk4na	225	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	225	8	33–42	33–42	CD
work_lqoc3fv36veffa62lsrtqpk4na	225	9	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	226	1	7	7	LS
work_lqoc3fv36veffa62lsrtqpk4na	226	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	227	1	Butnar	Butnar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	227	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	227	3	I.	I.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	227	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	227	5	Rodrigo	Rodrigo	NNP
work_lqoc3fv36veffa62lsrtqpk4na	227	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	227	7	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	227	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	227	9	Gasol	Gasol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	227	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	227	11	C.M.	C.M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	228	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	228	2	Castells	Castells	NNP
work_lqoc3fv36veffa62lsrtqpk4na	228	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	228	4	F.	F.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	228	5	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	228	6	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	228	7	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	228	8	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	228	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	228	10	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	228	11	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	228	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	228	13	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	228	14	Case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	228	15	studies	study	NNS
work_lqoc3fv36veffa62lsrtqpk4na	228	16	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	228	17	two	two	CD
work_lqoc3fv36veffa62lsrtqpk4na	228	18	biocrops	biocrop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	228	19	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	228	20	Spain	Spain	NNP
work_lqoc3fv36veffa62lsrtqpk4na	228	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	229	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	229	2	Bioenerg	Bioenerg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	229	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	230	1	2010	2010	CD
work_lqoc3fv36veffa62lsrtqpk4na	230	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	230	3	34	34	CD
work_lqoc3fv36veffa62lsrtqpk4na	230	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	230	5	1780–1788	1780–1788	CD
work_lqoc3fv36veffa62lsrtqpk4na	230	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	231	1	8	8	LS
work_lqoc3fv36veffa62lsrtqpk4na	231	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	232	1	Perilhon	Perilhon	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	232	3	C.	C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	232	5	Alkadee	Alkadee	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	232	7	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	232	9	Descombes	Descombes	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	232	11	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	12	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	232	13	Lacour	Lacour	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	232	15	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	16	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	232	17	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	232	18	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	232	19	applied	apply	VBD
work_lqoc3fv36veffa62lsrtqpk4na	232	20	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	232	21	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	232	22	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	232	23	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	232	24	renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	232	25	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	232	26	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	233	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	233	2	Procedia	Procedia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	233	3	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	233	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	233	5	18	18	CD
work_lqoc3fv36veffa62lsrtqpk4na	233	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	233	7	165–176	165–176	CD
work_lqoc3fv36veffa62lsrtqpk4na	233	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	234	1	9	9	CD
work_lqoc3fv36veffa62lsrtqpk4na	234	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	235	1	Qin	Qin	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	235	3	X.	X.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	235	5	Mohan	Mohan	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	235	7	T.	t.	NN
work_lqoc3fv36veffa62lsrtqpk4na	235	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	235	9	Ei	Ei	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	10	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	235	11	Halwagi	Halwagi	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	235	13	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	14	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	235	15	Cornforth	Cornforth	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	235	17	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	18	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	235	19	McCarl	McCarl	NNP
work_lqoc3fv36veffa62lsrtqpk4na	235	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	235	21	B.A.	B.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	236	1	Switchgrass	Switchgrass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	236	2	as	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	236	3	an	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	236	4	alternate	alternate	JJ
work_lqoc3fv36veffa62lsrtqpk4na	236	5	feedstock	feedstock	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	6	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	236	7	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	8	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	9	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	236	10	An	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	236	11	integrated	integrate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	236	12	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	236	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	236	14	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	15	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	236	16	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	236	17	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	18	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	236	19	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	20	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	236	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	237	1	Clean	Clean	NNP
work_lqoc3fv36veffa62lsrtqpk4na	237	2	Technol	Technol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	237	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	238	1	Environ	Environ	NNP
work_lqoc3fv36veffa62lsrtqpk4na	238	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	239	1	2006	2006	CD
work_lqoc3fv36veffa62lsrtqpk4na	239	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	239	3	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	239	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	239	5	233–249	233–249	CD
work_lqoc3fv36veffa62lsrtqpk4na	239	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	240	1	10	10	CD
work_lqoc3fv36veffa62lsrtqpk4na	240	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	241	1	Radhakrishnan	Radhakrishnan	NNP
work_lqoc3fv36veffa62lsrtqpk4na	241	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	241	3	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	241	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	241	5	Paz	Paz	NNP
work_lqoc3fv36veffa62lsrtqpk4na	241	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	241	7	J.O.	J.O.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	242	2	Fei	Fei	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	242	4	Y.	Y.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	242	6	Eksioglu	Eksioglu	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	242	8	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	242	10	Grebner	Grebner	NNP
work_lqoc3fv36veffa62lsrtqpk4na	242	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	242	12	D.L.	D.L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	1	Assessment	Assessment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	243	3	Potential	Potential	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	4	Capacity	Capacity	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	5	Increases	Increases	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	243	6	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	243	7	Combined	Combined	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	8	Heat	Heat	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	243	10	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	11	Facilities	Facilities	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	243	12	Based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	243	13	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	243	14	Available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	243	15	Corn	Corn	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	16	Stover	Stover	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	243	18	Forest	Forest	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	19	Logging	Logging	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	20	Residues	Residues	NNP
work_lqoc3fv36veffa62lsrtqpk4na	243	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	244	1	Energies	energy	NNS
work_lqoc3fv36veffa62lsrtqpk4na	244	2	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	244	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	244	4	6	6	CD
work_lqoc3fv36veffa62lsrtqpk4na	244	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	244	6	4418–4428	4418–4428	CD
work_lqoc3fv36veffa62lsrtqpk4na	244	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	245	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	245	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	245	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	245	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	245	5	12985	12985	CD
work_lqoc3fv36veffa62lsrtqpk4na	245	6	11	11	CD
work_lqoc3fv36veffa62lsrtqpk4na	245	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	246	1	Perlack	Perlack	NNP
work_lqoc3fv36veffa62lsrtqpk4na	246	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	246	3	R.D.	R.D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	247	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	247	2	Wright	Wright	NNP
work_lqoc3fv36veffa62lsrtqpk4na	247	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	247	4	L.L.	L.L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	248	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	248	2	Turhollow	Turhollow	NNP
work_lqoc3fv36veffa62lsrtqpk4na	248	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	248	4	A.F.	A.F.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	249	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	249	2	Graham	Graham	NNP
work_lqoc3fv36veffa62lsrtqpk4na	249	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	249	4	R.L.	R.L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	250	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	250	2	Stokes	Stokes	NNP
work_lqoc3fv36veffa62lsrtqpk4na	250	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	250	4	B.J.	B.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	251	2	Erbach	Erbach	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	251	4	D.C.	D.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	5	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	6	As	as	IN
work_lqoc3fv36veffa62lsrtqpk4na	251	7	Feedstock	Feedstock	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	8	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	251	9	A	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	251	10	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	251	12	Bioproducts	bioproduct	NNS
work_lqoc3fv36veffa62lsrtqpk4na	251	13	Industry	industry	NN
work_lqoc3fv36veffa62lsrtqpk4na	251	14	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	251	15	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	251	16	Technical	Technical	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	17	Feasibility	Feasibility	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	251	19	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	20	Billion	billion	CD
work_lqoc3fv36veffa62lsrtqpk4na	251	21	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	251	22	Ton	Ton	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	23	Annual	Annual	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	24	Supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	251	25	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	251	26	Vol	Vol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	251	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	252	1	Oak	Oak	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	2	Ridge	Ridge	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	3	National	National	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	4	Laboratory	Laboratory	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	5	Report	Report	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	6	ORNL	ORNL	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	7	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	252	8	TM-2005/66	TM-2005/66	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	252	10	U.S.	U.S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	11	Department	Department	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	252	13	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	14	Office	Office	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	252	16	Scientific	Scientific	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	17	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	252	18	Technical	Technical	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	19	Information	Information	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	20	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	252	21	Oak	Oak	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	22	Ridge	Ridge	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	252	24	TN	TN	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	252	26	USA	USA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	252	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	252	28	2005	2005	CD
work_lqoc3fv36veffa62lsrtqpk4na	252	29	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	253	1	12	12	CD
work_lqoc3fv36veffa62lsrtqpk4na	253	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	254	1	Keoleian	Keoleian	NNP
work_lqoc3fv36veffa62lsrtqpk4na	254	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	254	3	G.A.	G.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	255	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	255	2	Volk	Volk	NNP
work_lqoc3fv36veffa62lsrtqpk4na	255	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	255	4	T.A.	T.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	256	1	Renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	256	2	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	3	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	256	4	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	5	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	6	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	256	7	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	256	8	Life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	9	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	10	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	256	12	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	256	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	256	14	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	256	15	performance	performance	NN
work_lqoc3fv36veffa62lsrtqpk4na	256	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	257	1	Crit	Crit	NNP
work_lqoc3fv36veffa62lsrtqpk4na	257	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	258	1	Rev.	Rev.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	259	1	Plant	plant	NN
work_lqoc3fv36veffa62lsrtqpk4na	259	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	260	1	Sci	Sci	NNP
work_lqoc3fv36veffa62lsrtqpk4na	260	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	261	1	2005	2005	CD
work_lqoc3fv36veffa62lsrtqpk4na	261	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	261	3	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	261	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	261	5	385–406	385–406	CD
work_lqoc3fv36veffa62lsrtqpk4na	261	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	262	1	13	13	CD
work_lqoc3fv36veffa62lsrtqpk4na	262	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	263	1	Heller	Heller	NNP
work_lqoc3fv36veffa62lsrtqpk4na	263	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	263	3	M.C.	M.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	264	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	264	2	Keoleian	Keoleian	NNP
work_lqoc3fv36veffa62lsrtqpk4na	264	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	264	4	G.A.	G.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	265	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	265	2	Mann	Mann	NNP
work_lqoc3fv36veffa62lsrtqpk4na	265	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	265	4	M.K.	M.K.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	266	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	266	2	Volk	Volk	NNP
work_lqoc3fv36veffa62lsrtqpk4na	266	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	266	4	T.A.	T.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	267	1	Life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	2	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	3	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	4	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	267	5	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	267	6	benefits	benefit	NNS
work_lqoc3fv36veffa62lsrtqpk4na	267	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	267	8	generating	generate	VBG
work_lqoc3fv36veffa62lsrtqpk4na	267	9	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	10	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	267	11	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	12	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	267	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	268	1	Renew	renew	VB
work_lqoc3fv36veffa62lsrtqpk4na	268	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	269	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	269	2	2004	2004	CD
work_lqoc3fv36veffa62lsrtqpk4na	269	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	269	4	29	29	CD
work_lqoc3fv36veffa62lsrtqpk4na	269	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	269	6	1023–1042	1023–1042	CD
work_lqoc3fv36veffa62lsrtqpk4na	269	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	270	1	14	14	CD
work_lqoc3fv36veffa62lsrtqpk4na	270	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	271	1	Heller	Heller	NNP
work_lqoc3fv36veffa62lsrtqpk4na	271	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	271	3	M.C.	M.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	272	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	272	2	Keoleian	Keoleian	NNP
work_lqoc3fv36veffa62lsrtqpk4na	272	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	272	4	G.A.	G.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	273	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	273	2	Volk	Volk	NNP
work_lqoc3fv36veffa62lsrtqpk4na	273	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	273	4	T.A.	T.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	274	1	Life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	2	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	3	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	274	5	a	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	274	6	willow	willow	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	7	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	8	cropping	cropping	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	9	system	system	NN
work_lqoc3fv36veffa62lsrtqpk4na	274	10	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	275	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	275	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	275	3	2003	2003	CD
work_lqoc3fv36veffa62lsrtqpk4na	275	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	275	5	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	275	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	275	7	147–165	147–165	CD
work_lqoc3fv36veffa62lsrtqpk4na	275	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	276	1	15	15	CD
work_lqoc3fv36veffa62lsrtqpk4na	276	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	277	1	Gonzalez	Gonzalez	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	277	3	Garcia	Garcia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	277	5	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	6	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	277	7	Teresa	Teresa	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	8	Moreira	Moreira	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	277	10	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	11	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	277	12	Feijoo	Feijoo	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	13	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	277	14	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	15	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	277	16	Murphy	Murphy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	277	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	277	18	R.J.	R.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	278	1	Comparative	comparative	JJ
work_lqoc3fv36veffa62lsrtqpk4na	278	2	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	3	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	4	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	278	6	ethanol	ethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	7	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	8	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	278	9	fast	fast	RB
work_lqoc3fv36veffa62lsrtqpk4na	278	10	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	278	11	growing	grow	VBG
work_lqoc3fv36veffa62lsrtqpk4na	278	12	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	13	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	278	14	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	278	15	black	black	JJ
work_lqoc3fv36veffa62lsrtqpk4na	278	16	locust	locust	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	17	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	278	18	eucalyptus	eucalyptus	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	278	20	poplar	poplar	NN
work_lqoc3fv36veffa62lsrtqpk4na	278	21	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	278	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	279	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	279	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	279	3	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	279	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	279	5	39	39	CD
work_lqoc3fv36veffa62lsrtqpk4na	279	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	279	7	378–388	378–388	CD
work_lqoc3fv36veffa62lsrtqpk4na	279	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	280	1	16	16	CD
work_lqoc3fv36veffa62lsrtqpk4na	280	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	281	1	Rafaschieri	rafaschieri	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	281	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	281	5	Rapaccini	Rapaccini	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	281	7	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	281	9	Manfrida	Manfrida	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	281	11	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	12	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	13	Cycle	Cycle	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	14	Assessment	Assessment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	281	15	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	281	16	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	17	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	18	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	281	19	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	281	20	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	21	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	281	22	compared	compare	VBN
work_lqoc3fv36veffa62lsrtqpk4na	281	23	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	281	24	conventional	conventional	JJ
work_lqoc3fv36veffa62lsrtqpk4na	281	25	fossil	fossil	NN
work_lqoc3fv36veffa62lsrtqpk4na	281	26	fuels	fuel	NNS
work_lqoc3fv36veffa62lsrtqpk4na	281	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	282	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	282	2	Convers	Convers	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	282	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	283	1	Manag	Manag	NNP
work_lqoc3fv36veffa62lsrtqpk4na	283	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	284	1	1999	1999	CD
work_lqoc3fv36veffa62lsrtqpk4na	284	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	284	3	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	284	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	284	5	1477–1493	1477–1493	CD
work_lqoc3fv36veffa62lsrtqpk4na	284	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	285	1	17	17	CD
work_lqoc3fv36veffa62lsrtqpk4na	285	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	286	1	Djomo	Djomo	NNP
work_lqoc3fv36veffa62lsrtqpk4na	286	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	286	3	S.N.	S.N.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	2	Ac	Ac	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	4	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	6	Zenone	Zenone	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	8	T.	t.	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	10	de	de	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	11	Groote	Groote	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	13	T.	T.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	14	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	15	Bergante	Bergante	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	17	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	18	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	19	Facciotto	Facciotto	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	21	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	22	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	23	Sixto	Sixto	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	24	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	25	H.	H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	26	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	27	Ciria	Ciria	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	28	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	29	P.	P.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	30	C.	C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	31	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	32	Weger	Weger	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	33	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	34	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	35	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	287	36	Ceulemans	Ceulemans	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	287	37	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	287	38	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	39	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	40	performances	performance	NNS
work_lqoc3fv36veffa62lsrtqpk4na	287	41	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	287	42	intensive	intensive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	287	43	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	287	44	extensive	extensive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	287	45	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	287	46	rotation	rotation	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	47	cropping	crop	VBG
work_lqoc3fv36veffa62lsrtqpk4na	287	48	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	287	49	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	287	50	woody	woody	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	51	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	52	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	287	53	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	287	54	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	287	55	EU	EU	NNP
work_lqoc3fv36veffa62lsrtqpk4na	287	56	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	288	1	Renew	renew	VB
work_lqoc3fv36veffa62lsrtqpk4na	288	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	289	1	Sustain	sustain	NN
work_lqoc3fv36veffa62lsrtqpk4na	289	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	290	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	290	2	Rev.	Rev.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	291	1	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	291	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	291	3	41	41	CD
work_lqoc3fv36veffa62lsrtqpk4na	291	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	291	5	845–854	845–854	CD
work_lqoc3fv36veffa62lsrtqpk4na	291	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	292	1	18	18	CD
work_lqoc3fv36veffa62lsrtqpk4na	292	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	293	1	Manzone	Manzone	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	293	3	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	293	5	Bergante	Bergante	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	293	7	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	293	9	Facciotto	Facciotto	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	293	11	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	12	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	13	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	293	14	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	293	15	sustainability	sustainability	NN
work_lqoc3fv36veffa62lsrtqpk4na	293	16	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	293	17	woodchip	woodchip	NN
work_lqoc3fv36veffa62lsrtqpk4na	293	18	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	293	19	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	293	20	black	black	JJ
work_lqoc3fv36veffa62lsrtqpk4na	293	21	locust	locust	NN
work_lqoc3fv36veffa62lsrtqpk4na	293	22	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	293	23	Robinia	Robinia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	24	pseudoacacia	pseudoacacia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	25	L.	L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	26	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	293	27	plantations	plantation	NNS
work_lqoc3fv36veffa62lsrtqpk4na	293	28	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	293	29	Italy	Italy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	293	30	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	294	1	Fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	294	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	294	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	294	4	140	140	CD
work_lqoc3fv36veffa62lsrtqpk4na	294	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	294	6	555–560	555–560	CD
work_lqoc3fv36veffa62lsrtqpk4na	294	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	295	1	19	19	CD
work_lqoc3fv36veffa62lsrtqpk4na	295	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	296	1	Gonzalez	Gonzalez	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	296	3	Garcia	Garcia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	296	5	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	6	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	296	7	Bacenetti	Bacenetti	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	296	9	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	10	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	296	11	Murphy	Murphy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	296	13	R.J.	R.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	14	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	296	15	Fiala	Fiala	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	296	17	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	18	Present	Present	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	296	20	future	future	JJ
work_lqoc3fv36veffa62lsrtqpk4na	296	21	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	296	22	impact	impact	NN
work_lqoc3fv36veffa62lsrtqpk4na	296	23	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	296	24	poplar	poplar	JJ
work_lqoc3fv36veffa62lsrtqpk4na	296	25	cultivation	cultivation	NN
work_lqoc3fv36veffa62lsrtqpk4na	296	26	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	296	27	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	296	28	Po	Po	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	29	Valley	Valley	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	30	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	296	31	Italy	Italy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	296	32	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	296	33	under	under	IN
work_lqoc3fv36veffa62lsrtqpk4na	296	34	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	296	35	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	296	36	management	management	NN
work_lqoc3fv36veffa62lsrtqpk4na	296	37	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	296	38	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	297	1	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	298	1	Clean	clean	JJ
work_lqoc3fv36veffa62lsrtqpk4na	298	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	299	1	Prod	Prod	NNP
work_lqoc3fv36veffa62lsrtqpk4na	299	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	300	1	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	300	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	300	3	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	300	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	300	5	56–66	56–66	CD
work_lqoc3fv36veffa62lsrtqpk4na	300	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	301	1	20	20	CD
work_lqoc3fv36veffa62lsrtqpk4na	301	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	302	1	Tome	Tome	NNP
work_lqoc3fv36veffa62lsrtqpk4na	302	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	302	3	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	302	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	302	5	Verwijst	Verwijst	NNP
work_lqoc3fv36veffa62lsrtqpk4na	302	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	302	7	T.	T.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	302	8	Modelling	Modelling	NNP
work_lqoc3fv36veffa62lsrtqpk4na	302	9	competition	competition	NN
work_lqoc3fv36veffa62lsrtqpk4na	302	10	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	302	11	short	short	JJ
work_lqoc3fv36veffa62lsrtqpk4na	302	12	rotation	rotation	NN
work_lqoc3fv36veffa62lsrtqpk4na	302	13	forests	forest	NNS
work_lqoc3fv36veffa62lsrtqpk4na	302	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	303	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	303	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	303	3	1996	1996	CD
work_lqoc3fv36veffa62lsrtqpk4na	303	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	303	5	11	11	CD
work_lqoc3fv36veffa62lsrtqpk4na	303	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	303	7	177–187	177–187	CD
work_lqoc3fv36veffa62lsrtqpk4na	303	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	304	1	21	21	CD
work_lqoc3fv36veffa62lsrtqpk4na	304	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	305	1	Gonzalez	Gonzalez	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	305	3	Garcia	Garcia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	305	5	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	6	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	305	7	Iribarren	Iribarren	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	305	9	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	10	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	305	11	Susmozas	Susmozas	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	305	13	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	305	14	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	305	15	Dufour	Dufour	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	16	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	305	17	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	18	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	305	19	Murphy	Murphy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	20	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	305	21	R.J.	R.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	22	Life	Life	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	23	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	305	24	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	305	25	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	305	26	two	two	CD
work_lqoc3fv36veffa62lsrtqpk4na	305	27	alternative	alternative	JJ
work_lqoc3fv36veffa62lsrtqpk4na	305	28	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	305	29	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	305	30	involving	involve	VBG
work_lqoc3fv36veffa62lsrtqpk4na	305	31	Salix	Salix	NNP
work_lqoc3fv36veffa62lsrtqpk4na	305	32	spp	spp	NN
work_lqoc3fv36veffa62lsrtqpk4na	305	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	306	1	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	306	2	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	306	3	Bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	306	4	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	306	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	306	6	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	306	7	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	306	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	307	1	Appl	Appl	NNP
work_lqoc3fv36veffa62lsrtqpk4na	307	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	308	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	308	2	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	308	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	308	4	95	95	CD
work_lqoc3fv36veffa62lsrtqpk4na	308	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	308	6	111–122	111–122	CD
work_lqoc3fv36veffa62lsrtqpk4na	308	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	309	1	22	22	CD
work_lqoc3fv36veffa62lsrtqpk4na	309	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	310	1	Hamelinck	Hamelinck	NNP
work_lqoc3fv36veffa62lsrtqpk4na	310	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	310	3	C.N.	C.N.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	311	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	311	2	van	van	NNP
work_lqoc3fv36veffa62lsrtqpk4na	311	3	Hooijdonk	Hooijdonk	NNP
work_lqoc3fv36veffa62lsrtqpk4na	311	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	311	5	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	311	6	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	311	7	Faaij	Faaij	NNP
work_lqoc3fv36veffa62lsrtqpk4na	311	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	311	9	A.P.C.	A.P.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	312	1	Ethanol	ethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	312	2	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	312	3	lignocellulosic	lignocellulosic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	312	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	312	5	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	312	6	Techno	Techno	NNP
work_lqoc3fv36veffa62lsrtqpk4na	312	7	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	312	8	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	312	9	performance	performance	NN
work_lqoc3fv36veffa62lsrtqpk4na	312	10	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	312	11	short-	short-	NNP
work_lqoc3fv36veffa62lsrtqpk4na	312	12	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	312	13	middle-	middle-	NNP
work_lqoc3fv36veffa62lsrtqpk4na	312	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	312	15	long	long	JJ
work_lqoc3fv36veffa62lsrtqpk4na	312	16	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	312	17	term	term	NN
work_lqoc3fv36veffa62lsrtqpk4na	312	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	313	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	313	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	313	3	2005	2005	CD
work_lqoc3fv36veffa62lsrtqpk4na	313	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	313	5	28	28	CD
work_lqoc3fv36veffa62lsrtqpk4na	313	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	313	7	384–410	384–410	CD
work_lqoc3fv36veffa62lsrtqpk4na	313	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	314	1	23	23	CD
work_lqoc3fv36veffa62lsrtqpk4na	314	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	315	1	Kim	Kim	NNP
work_lqoc3fv36veffa62lsrtqpk4na	315	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	315	3	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	315	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	315	5	Dale	Dale	NNP
work_lqoc3fv36veffa62lsrtqpk4na	315	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	315	7	B.E.	B.E.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	316	1	Global	global	JJ
work_lqoc3fv36veffa62lsrtqpk4na	316	2	potential	potential	JJ
work_lqoc3fv36veffa62lsrtqpk4na	316	3	bioethanol	bioethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	316	4	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	316	5	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	316	6	wasted	waste	VBN
work_lqoc3fv36veffa62lsrtqpk4na	316	7	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	316	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	316	9	crop	crop	NN
work_lqoc3fv36veffa62lsrtqpk4na	316	10	residues	residue	NNS
work_lqoc3fv36veffa62lsrtqpk4na	316	11	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	317	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	317	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	317	3	2004	2004	CD
work_lqoc3fv36veffa62lsrtqpk4na	317	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	317	5	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	317	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	317	7	361–375	361–375	CD
work_lqoc3fv36veffa62lsrtqpk4na	317	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	318	1	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	318	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	319	1	Fazio	Fazio	NNP
work_lqoc3fv36veffa62lsrtqpk4na	319	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	319	3	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	319	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	319	5	Monti	Monti	NNP
work_lqoc3fv36veffa62lsrtqpk4na	319	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	319	7	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	1	Life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	2	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	3	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	320	5	different	different	JJ
work_lqoc3fv36veffa62lsrtqpk4na	320	6	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	7	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	320	8	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	320	9	including	include	VBG
work_lqoc3fv36veffa62lsrtqpk4na	320	10	perennial	perennial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	320	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	320	12	annual	annual	JJ
work_lqoc3fv36veffa62lsrtqpk4na	320	13	crops	crop	NNS
work_lqoc3fv36veffa62lsrtqpk4na	320	14	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	321	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	321	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	321	3	2011	2011	CD
work_lqoc3fv36veffa62lsrtqpk4na	321	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	321	5	35	35	CD
work_lqoc3fv36veffa62lsrtqpk4na	321	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	321	7	4868–4878	4868–4878	CD
work_lqoc3fv36veffa62lsrtqpk4na	321	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	322	1	25	25	CD
work_lqoc3fv36veffa62lsrtqpk4na	322	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	323	1	EUROSAT	EUROSAT	NNP
work_lqoc3fv36veffa62lsrtqpk4na	323	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	323	3	Agriculture	Agriculture	NNP
work_lqoc3fv36veffa62lsrtqpk4na	323	4	Database	Database	NNP
work_lqoc3fv36veffa62lsrtqpk4na	323	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	323	6	Your	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	323	7	key	key	NN
work_lqoc3fv36veffa62lsrtqpk4na	323	8	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	323	9	European	european	JJ
work_lqoc3fv36veffa62lsrtqpk4na	323	10	statistics	statistic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	323	11	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	323	12	Eurostat	Eurostat	NNP
work_lqoc3fv36veffa62lsrtqpk4na	323	13	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	323	14	Luxembourg	Luxembourg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	323	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	323	16	2011	2011	CD
work_lqoc3fv36veffa62lsrtqpk4na	323	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	324	1	26	26	CD
work_lqoc3fv36veffa62lsrtqpk4na	324	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	325	1	Giuntoli	Giuntoli	NNP
work_lqoc3fv36veffa62lsrtqpk4na	325	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	325	3	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	325	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	325	5	Boulamanti	Boulamanti	NNP
work_lqoc3fv36veffa62lsrtqpk4na	325	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	325	7	A.K.	A.K.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	326	2	Corrado	Corrado	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	326	4	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	326	6	Motegh	Motegh	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	326	8	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	326	10	Agostini	Agostini	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	326	12	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	13	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	326	14	Baxter	Baxter	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	15	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	326	16	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	17	Environmental	Environmental	NNP
work_lqoc3fv36veffa62lsrtqpk4na	326	18	impacts	impact	NNS
work_lqoc3fv36veffa62lsrtqpk4na	326	19	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	326	20	future	future	JJ
work_lqoc3fv36veffa62lsrtqpk4na	326	21	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	22	pathways	pathway	NNS
work_lqoc3fv36veffa62lsrtqpk4na	326	23	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	326	24	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	326	25	case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	26	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	326	27	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	28	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	326	29	wheat	wheat	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	30	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	326	31	bales	bale	NNS
work_lqoc3fv36veffa62lsrtqpk4na	326	32	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	326	33	pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	326	34	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	327	1	Glob	Glob	NNP
work_lqoc3fv36veffa62lsrtqpk4na	327	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	328	1	Chang	Chang	NNP
work_lqoc3fv36veffa62lsrtqpk4na	328	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	329	1	Biol	Biol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	329	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	330	1	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	330	2	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	330	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	330	4	5	5	CD
work_lqoc3fv36veffa62lsrtqpk4na	330	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	330	6	497–512	497–512	CD
work_lqoc3fv36veffa62lsrtqpk4na	330	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	331	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	331	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	331	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	331	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	331	5	12986	12986	CD
work_lqoc3fv36veffa62lsrtqpk4na	331	6	27	27	CD
work_lqoc3fv36veffa62lsrtqpk4na	331	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	332	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	332	2	Use	Use	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	332	4	Plant	Plant	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	5	Protection	Protection	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	6	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	332	7	European	European	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	8	Union	Union	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	332	10	Data	Data	NNP
work_lqoc3fv36veffa62lsrtqpk4na	332	11	1992–2003	1992–2003	CD
work_lqoc3fv36veffa62lsrtqpk4na	332	12	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	333	1	Available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	333	2	online	online	NN
work_lqoc3fv36veffa62lsrtqpk4na	333	3	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	333	4	http://ec.europa.eu/eurostat/documents/3217494/5611788/KS-76-06-669-EN.PDF/36c156f1-9fa9-	http://ec.europa.eu/eurostat/documents/3217494/5611788/ks-76-06-669-en.pdf/36c156f1-9fa9-	$
work_lqoc3fv36veffa62lsrtqpk4na	333	5	4243	4243	CD
work_lqoc3fv36veffa62lsrtqpk4na	333	6	-	-	SYM
work_lqoc3fv36veffa62lsrtqpk4na	333	7	9bd3-f4c7c3c8286a?version=1.0	9bd3-f4c7c3c8286a?version=1.0	NNS
work_lqoc3fv36veffa62lsrtqpk4na	333	8	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	333	9	accessed	access	VBN
work_lqoc3fv36veffa62lsrtqpk4na	333	10	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	333	11	18	18	CD
work_lqoc3fv36veffa62lsrtqpk4na	333	12	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	333	13	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	333	14	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	333	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	334	1	28	28	CD
work_lqoc3fv36veffa62lsrtqpk4na	334	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	335	1	Lugar	Lugar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	335	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	335	3	R.G.	R.G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	336	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	336	2	Woolsey	Woolsey	NNP
work_lqoc3fv36veffa62lsrtqpk4na	336	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	336	4	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	336	5	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	337	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	337	2	new	new	JJ
work_lqoc3fv36veffa62lsrtqpk4na	337	3	petroleum	petroleum	NN
work_lqoc3fv36veffa62lsrtqpk4na	337	4	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	338	1	Foreign	Foreign	NNP
work_lqoc3fv36veffa62lsrtqpk4na	338	2	Aff	Aff	NNP
work_lqoc3fv36veffa62lsrtqpk4na	338	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	339	1	1999	1999	CD
work_lqoc3fv36veffa62lsrtqpk4na	339	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	339	3	78	78	CD
work_lqoc3fv36veffa62lsrtqpk4na	339	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	339	5	88–102	88–102	CD
work_lqoc3fv36veffa62lsrtqpk4na	339	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	340	1	29	29	CD
work_lqoc3fv36veffa62lsrtqpk4na	340	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	340	3	International	International	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	4	Renewable	Renewable	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	5	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	6	Agency	Agency	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	7	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	340	8	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	340	9	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	340	10	Report	report	NN
work_lqoc3fv36veffa62lsrtqpk4na	340	11	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	340	12	Renewable	renewable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	340	13	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	14	Technologies	Technologies	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	340	15	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	340	16	Cost	Cost	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	17	Analysis	Analysis	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	18	Series	Series	NNP
work_lqoc3fv36veffa62lsrtqpk4na	340	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	341	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	341	2	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	341	3	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	341	4	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	341	5	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	342	1	Available	available	JJ
work_lqoc3fv36veffa62lsrtqpk4na	342	2	online	online	NN
work_lqoc3fv36veffa62lsrtqpk4na	342	3	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	342	4	http://www.irena.org/	http://www.irena.org/	NN
work_lqoc3fv36veffa62lsrtqpk4na	342	5	Publications	Publications	NNP
work_lqoc3fv36veffa62lsrtqpk4na	342	6	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	342	7	accessed	access	VBN
work_lqoc3fv36veffa62lsrtqpk4na	342	8	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	342	9	18	18	CD
work_lqoc3fv36veffa62lsrtqpk4na	342	10	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	342	11	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	342	12	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	342	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	343	1	30	30	CD
work_lqoc3fv36veffa62lsrtqpk4na	343	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	344	1	Brechbill	brechbill	NN
work_lqoc3fv36veffa62lsrtqpk4na	344	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	344	3	S.C.	South Carolina	NNP
work_lqoc3fv36veffa62lsrtqpk4na	344	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	344	5	Tyner	Tyner	NNP
work_lqoc3fv36veffa62lsrtqpk4na	344	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	344	7	W.E.	W.E.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	345	2	Economics	Economics	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	3	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	345	4	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	5	Collection	Collection	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	345	7	Transportation	Transportation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	8	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	345	9	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	345	10	Supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	345	11	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	345	12	Indiana	Indiana	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	13	Cellulosic	Cellulosic	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	14	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	345	15	Electric	Electric	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	16	Utility	Utility	NNP
work_lqoc3fv36veffa62lsrtqpk4na	345	17	Facilities	Facilities	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	345	18	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	346	1	Aaviable	aaviable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	346	2	online	online	NN
work_lqoc3fv36veffa62lsrtqpk4na	346	3	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	346	4	http://ageconsearch.umn.edu/	http://ageconsearch.umn.edu/	NN
work_lqoc3fv36veffa62lsrtqpk4na	346	5	bitstream/6148/2	bitstream/6148/2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	346	6	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	346	7	wp080003.pdf	wp080003.pdf	NNP
work_lqoc3fv36veffa62lsrtqpk4na	346	8	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	346	9	accessd	accessd	RB
work_lqoc3fv36veffa62lsrtqpk4na	346	10	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	346	11	17	17	CD
work_lqoc3fv36veffa62lsrtqpk4na	346	12	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	346	13	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	346	14	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	346	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	347	1	31	31	CD
work_lqoc3fv36veffa62lsrtqpk4na	347	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	348	1	Uslu	Uslu	NNP
work_lqoc3fv36veffa62lsrtqpk4na	348	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	348	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	348	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	348	5	Faaij	Faaij	NNP
work_lqoc3fv36veffa62lsrtqpk4na	348	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	348	7	A.P.C.	A.P.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	349	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	349	2	Bergman	Bergman	NNP
work_lqoc3fv36veffa62lsrtqpk4na	349	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	349	4	P.C.A.	P.C.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	350	1	Pre	pre	JJ
work_lqoc3fv36veffa62lsrtqpk4na	350	2	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	350	3	treatment	treatment	JJ
work_lqoc3fv36veffa62lsrtqpk4na	350	4	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	350	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	350	6	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	350	7	their	-PRON-	PRP$
work_lqoc3fv36veffa62lsrtqpk4na	350	8	effect	effect	NN
work_lqoc3fv36veffa62lsrtqpk4na	350	9	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	350	10	international	international	JJ
work_lqoc3fv36veffa62lsrtqpk4na	350	11	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	350	12	supply	supply	NN
work_lqoc3fv36veffa62lsrtqpk4na	350	13	chain	chain	NN
work_lqoc3fv36veffa62lsrtqpk4na	350	14	logistics	logistic	NNS
work_lqoc3fv36veffa62lsrtqpk4na	350	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	351	1	Techno	Techno	NNP
work_lqoc3fv36veffa62lsrtqpk4na	351	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	351	3	economic	economic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	351	4	evaluation	evaluation	NN
work_lqoc3fv36veffa62lsrtqpk4na	351	5	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	351	6	torrefaction	torrefaction	NN
work_lqoc3fv36veffa62lsrtqpk4na	351	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	351	8	fast	fast	JJ
work_lqoc3fv36veffa62lsrtqpk4na	351	9	pyrolysis	pyrolysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	351	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	351	11	pelletisation	pelletisation	NN
work_lqoc3fv36veffa62lsrtqpk4na	351	12	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	352	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	352	2	2008	2008	CD
work_lqoc3fv36veffa62lsrtqpk4na	352	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	352	4	33	33	CD
work_lqoc3fv36veffa62lsrtqpk4na	352	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	352	6	1206–1223	1206–1223	CD
work_lqoc3fv36veffa62lsrtqpk4na	352	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	353	1	32	32	CD
work_lqoc3fv36veffa62lsrtqpk4na	353	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	354	1	Kabir	Kabir	NNP
work_lqoc3fv36veffa62lsrtqpk4na	354	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	354	3	M.R.	M.R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	355	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	355	2	Kumar	Kumar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	355	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	355	4	A.	A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	356	1	Comparison	comparison	NN
work_lqoc3fv36veffa62lsrtqpk4na	356	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	356	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	356	4	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	356	5	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	356	6	environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	356	7	performances	performance	NNS
work_lqoc3fv36veffa62lsrtqpk4na	356	8	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	356	9	nine	nine	CD
work_lqoc3fv36veffa62lsrtqpk4na	356	10	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	356	11	/	/	SYM
work_lqoc3fv36veffa62lsrtqpk4na	356	12	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	356	13	co	co	JJ
work_lqoc3fv36veffa62lsrtqpk4na	356	14	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	356	15	firing	firing	JJ
work_lqoc3fv36veffa62lsrtqpk4na	356	16	pathways	pathway	NNS
work_lqoc3fv36veffa62lsrtqpk4na	356	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	357	1	Bioresour	bioresour	UH
work_lqoc3fv36veffa62lsrtqpk4na	357	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	358	1	Technol	Technol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	358	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	359	1	2012	2012	CD
work_lqoc3fv36veffa62lsrtqpk4na	359	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	359	3	124	124	CD
work_lqoc3fv36veffa62lsrtqpk4na	359	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	359	5	394–405	394–405	CD
work_lqoc3fv36veffa62lsrtqpk4na	359	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	360	1	33	33	CD
work_lqoc3fv36veffa62lsrtqpk4na	360	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	361	1	Berndes	bernde	NNS
work_lqoc3fv36veffa62lsrtqpk4na	361	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	361	3	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	361	5	Azar	Azar	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	361	7	C.	C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	361	9	Kaberger	Kaberger	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	361	11	T.	T.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	12	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	361	13	Abrahamson	Abrahamson	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	361	15	D.	D.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	361	16	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	361	17	feasibility	feasibility	NN
work_lqoc3fv36veffa62lsrtqpk4na	361	18	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	361	19	large	large	JJ
work_lqoc3fv36veffa62lsrtqpk4na	361	20	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	361	21	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	361	22	lignocellulose	lignocellulose	NN
work_lqoc3fv36veffa62lsrtqpk4na	361	23	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	361	24	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	361	25	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	361	26	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	361	27	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	362	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	362	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	362	3	2001	2001	CD
work_lqoc3fv36veffa62lsrtqpk4na	362	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	362	5	20	20	CD
work_lqoc3fv36veffa62lsrtqpk4na	362	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	362	7	371–383	371–383	CD
work_lqoc3fv36veffa62lsrtqpk4na	362	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	363	1	34	34	CD
work_lqoc3fv36veffa62lsrtqpk4na	363	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	364	1	Anderson	Anderson	NNP
work_lqoc3fv36veffa62lsrtqpk4na	364	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	364	3	J.O.	J.O.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	365	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	365	2	Toffolo	Toffolo	NNP
work_lqoc3fv36veffa62lsrtqpk4na	365	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	365	4	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	1	Improving	improve	VBG
work_lqoc3fv36veffa62lsrtqpk4na	366	2	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	3	efficiency	efficiency	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	4	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	366	5	sawmill	sawmill	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	6	industrial	industrial	JJ
work_lqoc3fv36veffa62lsrtqpk4na	366	7	sites	site	NNS
work_lqoc3fv36veffa62lsrtqpk4na	366	8	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	366	9	integration	integration	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	366	11	pellet	pellet	NN
work_lqoc3fv36veffa62lsrtqpk4na	366	12	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	366	13	CHP	CHP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	366	14	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	366	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	367	1	Appl	Appl	NNP
work_lqoc3fv36veffa62lsrtqpk4na	367	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	368	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	368	2	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	368	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	368	4	111	111	CD
work_lqoc3fv36veffa62lsrtqpk4na	368	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	368	6	791–800	791–800	CD
work_lqoc3fv36veffa62lsrtqpk4na	368	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	369	1	35	35	CD
work_lqoc3fv36veffa62lsrtqpk4na	369	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	370	1	Hu	Hu	NNP
work_lqoc3fv36veffa62lsrtqpk4na	370	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	370	3	M.C.	M.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	371	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	371	2	Huang	Huang	NNP
work_lqoc3fv36veffa62lsrtqpk4na	371	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	371	4	A.L.	A.L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	372	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	372	2	Wen	Wen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	372	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	372	4	T.H.	T.H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	373	1	GIS	GIS	NNP
work_lqoc3fv36veffa62lsrtqpk4na	373	2	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	373	3	based	base	VBN
work_lqoc3fv36veffa62lsrtqpk4na	373	4	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	5	resource	resource	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	6	utilization	utilization	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	7	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	373	8	rice	rice	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	9	straw	straw	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	10	cofiring	cofire	VBG
work_lqoc3fv36veffa62lsrtqpk4na	373	11	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	373	12	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	373	13	Taiwanese	taiwanese	JJ
work_lqoc3fv36veffa62lsrtqpk4na	373	14	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	15	market	market	NN
work_lqoc3fv36veffa62lsrtqpk4na	373	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	374	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	374	2	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	374	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	374	4	55	55	CD
work_lqoc3fv36veffa62lsrtqpk4na	374	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	374	6	354–360	354–360	CD
work_lqoc3fv36veffa62lsrtqpk4na	374	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	375	1	36	36	CD
work_lqoc3fv36veffa62lsrtqpk4na	375	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	376	1	Rahman	Rahman	NNP
work_lqoc3fv36veffa62lsrtqpk4na	376	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	376	3	A.A.	A.A.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	376	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	376	5	Shamsuddin	Shamsuddin	NNP
work_lqoc3fv36veffa62lsrtqpk4na	376	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	376	7	A.H.	A.H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	376	8	Cofiring	cofire	VBG
work_lqoc3fv36veffa62lsrtqpk4na	376	9	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	376	10	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	376	11	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	376	12	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	376	13	Opportunities	opportunity	NNS
work_lqoc3fv36veffa62lsrtqpk4na	376	14	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	376	15	Malaysia	Malaysia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	376	16	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	377	1	In	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	377	2	IOP	IOP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	3	Conference	Conference	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	4	Series	Series	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	5	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	377	6	Earth	Earth	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	7	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	377	8	Environmental	Environmental	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	9	Science	Science	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	377	11	Proceedings	Proceedings	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	377	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	377	13	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	377	14	4th	4th	JJ
work_lqoc3fv36veffa62lsrtqpk4na	377	15	International	International	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	16	Conference	Conference	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	17	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	377	18	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	19	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	377	20	Environment	Environment	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	377	22	Putrajaya	Putrajaya	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	23	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	377	24	Malaysia	Malaysia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	377	26	5–6	5–6	CD
work_lqoc3fv36veffa62lsrtqpk4na	377	27	March	March	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	28	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	377	29	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	377	30	IOP	IOP	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	31	Publishing	Publishing	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	32	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	377	33	Bristol	Bristol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	34	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	377	35	UK	UK	NNP
work_lqoc3fv36veffa62lsrtqpk4na	377	36	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	378	1	37	37	CD
work_lqoc3fv36veffa62lsrtqpk4na	378	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	379	1	Hansson	Hansson	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	379	3	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	379	5	Berndes	Berndes	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	379	7	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	379	9	Johnsson	Johnsson	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	379	11	F.	F.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	12	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	379	13	Kjarstad	Kjarstad	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	379	15	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	16	Co	Co	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	17	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	379	18	firing	fire	VBG
work_lqoc3fv36veffa62lsrtqpk4na	379	19	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	20	with	with	IN
work_lqoc3fv36veffa62lsrtqpk4na	379	21	coal	coal	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	22	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	379	23	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	24	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	25	-	-	.
work_lqoc3fv36veffa62lsrtqpk4na	379	26	An	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	379	27	assessment	assessment	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	28	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	379	29	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	379	30	potential	potential	NN
work_lqoc3fv36veffa62lsrtqpk4na	379	31	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	379	32	EU27	EU27	NNP
work_lqoc3fv36veffa62lsrtqpk4na	379	33	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	380	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	380	2	Policy	Policy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	380	3	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	380	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	380	5	37	37	CD
work_lqoc3fv36veffa62lsrtqpk4na	380	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	380	7	1444–1455	1444–1455	CD
work_lqoc3fv36veffa62lsrtqpk4na	380	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	381	1	38	38	CD
work_lqoc3fv36veffa62lsrtqpk4na	381	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	382	1	Gustavsson	Gustavsson	NNP
work_lqoc3fv36veffa62lsrtqpk4na	382	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	382	3	L.	L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	382	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	382	5	Madlener	Madlener	NNP
work_lqoc3fv36veffa62lsrtqpk4na	382	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	382	7	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	382	8	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	382	9	mitigation	mitigation	NN
work_lqoc3fv36veffa62lsrtqpk4na	382	10	costs	cost	NNS
work_lqoc3fv36veffa62lsrtqpk4na	382	11	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	382	12	large	large	JJ
work_lqoc3fv36veffa62lsrtqpk4na	382	13	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	382	14	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	382	15	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	382	16	technologies	technology	NNS
work_lqoc3fv36veffa62lsrtqpk4na	382	17	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	382	18	competitive	competitive	JJ
work_lqoc3fv36veffa62lsrtqpk4na	382	19	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	382	20	markets	market	NNS
work_lqoc3fv36veffa62lsrtqpk4na	382	21	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	383	1	Energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	383	2	2003	2003	CD
work_lqoc3fv36veffa62lsrtqpk4na	383	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	383	4	28	28	CD
work_lqoc3fv36veffa62lsrtqpk4na	383	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	383	6	1405–1425	1405–1425	CD
work_lqoc3fv36veffa62lsrtqpk4na	383	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	384	1	39	39	CD
work_lqoc3fv36veffa62lsrtqpk4na	384	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	385	1	Corradetti	Corradetti	NNP
work_lqoc3fv36veffa62lsrtqpk4na	385	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	385	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	385	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	385	5	Desideri	Desideri	NNP
work_lqoc3fv36veffa62lsrtqpk4na	385	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	385	7	U.	U.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	386	1	Should	Should	MD
work_lqoc3fv36veffa62lsrtqpk4na	386	2	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	386	3	be	be	VB
work_lqoc3fv36veffa62lsrtqpk4na	386	4	used	use	VBN
work_lqoc3fv36veffa62lsrtqpk4na	386	5	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	386	6	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	386	7	generation	generation	NN
work_lqoc3fv36veffa62lsrtqpk4na	386	8	or	or	CC
work_lqoc3fv36veffa62lsrtqpk4na	386	9	hydrogen	hydrogen	NN
work_lqoc3fv36veffa62lsrtqpk4na	386	10	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	386	11	?	?	.
work_lqoc3fv36veffa62lsrtqpk4na	387	1	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	387	2	Eng	Eng	NNP
work_lqoc3fv36veffa62lsrtqpk4na	387	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	388	1	Gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	388	2	Turbines	Turbines	NNP
work_lqoc3fv36veffa62lsrtqpk4na	388	3	Power	Power	NNP
work_lqoc3fv36veffa62lsrtqpk4na	388	4	2007	2007	CD
work_lqoc3fv36veffa62lsrtqpk4na	388	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	388	6	129	129	CD
work_lqoc3fv36veffa62lsrtqpk4na	388	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	388	8	629–636	629–636	CD
work_lqoc3fv36veffa62lsrtqpk4na	388	9	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	389	1	40	40	CD
work_lqoc3fv36veffa62lsrtqpk4na	389	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	390	1	De	De	NNP
work_lqoc3fv36veffa62lsrtqpk4na	390	2	Kam	Kam	NNP
work_lqoc3fv36veffa62lsrtqpk4na	390	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	390	4	M.J.	M.J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	390	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	390	6	Morey	Morey	NNP
work_lqoc3fv36veffa62lsrtqpk4na	390	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	390	8	R.V.	R.V.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	391	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	391	2	Tiffany	Tiffany	NNP
work_lqoc3fv36veffa62lsrtqpk4na	391	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	391	4	D.G.	D.G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	2	Integrated	Integrated	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	3	Gasification	Gasification	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	4	Combined	Combined	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	5	Cycle	Cycle	NNP
work_lqoc3fv36veffa62lsrtqpk4na	392	6	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	392	7	heat	heat	NN
work_lqoc3fv36veffa62lsrtqpk4na	392	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	392	9	power	power	NN
work_lqoc3fv36veffa62lsrtqpk4na	392	10	at	at	IN
work_lqoc3fv36veffa62lsrtqpk4na	392	11	ethanol	ethanol	NN
work_lqoc3fv36veffa62lsrtqpk4na	392	12	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	392	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	393	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	393	2	Convers	Convers	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	393	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	394	1	Manag	Manag	NNP
work_lqoc3fv36veffa62lsrtqpk4na	394	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	395	1	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	395	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	395	3	50	50	CD
work_lqoc3fv36veffa62lsrtqpk4na	395	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	395	5	1682–1690	1682–1690	CD
work_lqoc3fv36veffa62lsrtqpk4na	395	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	396	1	41	41	CD
work_lqoc3fv36veffa62lsrtqpk4na	396	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	397	1	Shen	Shen	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	397	3	L.	L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	397	5	Gao	Gao	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	397	7	Y.	Y.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	397	9	Xiao	Xiao	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	397	11	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	12	Simulation	Simulation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	397	13	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	397	14	hydrogen	hydrogen	NN
work_lqoc3fv36veffa62lsrtqpk4na	397	15	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	397	16	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	397	17	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	397	18	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	397	19	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	397	20	interconnected	interconnected	JJ
work_lqoc3fv36veffa62lsrtqpk4na	397	21	fluidized	fluidized	JJ
work_lqoc3fv36veffa62lsrtqpk4na	397	22	beds	bed	NNS
work_lqoc3fv36veffa62lsrtqpk4na	397	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	398	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	398	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	398	3	2008	2008	CD
work_lqoc3fv36veffa62lsrtqpk4na	398	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	398	5	32	32	CD
work_lqoc3fv36veffa62lsrtqpk4na	398	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	398	7	120–127	120–127	CD
work_lqoc3fv36veffa62lsrtqpk4na	398	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	399	1	42	42	CD
work_lqoc3fv36veffa62lsrtqpk4na	399	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	400	1	Tremel	Tremel	NNP
work_lqoc3fv36veffa62lsrtqpk4na	400	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	400	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	400	5	Gaderer	Gaderer	NNP
work_lqoc3fv36veffa62lsrtqpk4na	400	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	400	7	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	400	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	400	9	Spliethoff	Spliethoff	NNP
work_lqoc3fv36veffa62lsrtqpk4na	400	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	400	11	H.	H.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	400	12	Small	small	JJ
work_lqoc3fv36veffa62lsrtqpk4na	400	13	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	400	14	scale	scale	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	15	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	16	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	400	17	synthetic	synthetic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	400	18	natural	natural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	400	19	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	20	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	400	21	allothermal	allothermal	JJ
work_lqoc3fv36veffa62lsrtqpk4na	400	22	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	23	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	400	24	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	401	1	Int	Int	NNP
work_lqoc3fv36veffa62lsrtqpk4na	401	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	402	1	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	403	1	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	403	2	Res	Res	NNP
work_lqoc3fv36veffa62lsrtqpk4na	403	3	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	404	1	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	404	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	404	3	37	37	CD
work_lqoc3fv36veffa62lsrtqpk4na	404	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	404	5	1318–1330	1318–1330	CD
work_lqoc3fv36veffa62lsrtqpk4na	404	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	405	1	43	43	CD
work_lqoc3fv36veffa62lsrtqpk4na	405	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	406	1	Wihersaari	Wihersaari	NNP
work_lqoc3fv36veffa62lsrtqpk4na	406	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	406	3	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	406	4	Greenhouse	Greenhouse	NNP
work_lqoc3fv36veffa62lsrtqpk4na	406	5	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	406	6	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	406	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	406	8	final	final	JJ
work_lqoc3fv36veffa62lsrtqpk4na	406	9	harvest	harvest	NN
work_lqoc3fv36veffa62lsrtqpk4na	406	10	fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	406	11	chip	chip	NN
work_lqoc3fv36veffa62lsrtqpk4na	406	12	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	406	13	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	406	14	Finland	Finland	NNP
work_lqoc3fv36veffa62lsrtqpk4na	406	15	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	407	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	407	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	407	3	2005	2005	CD
work_lqoc3fv36veffa62lsrtqpk4na	407	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	407	5	28	28	CD
work_lqoc3fv36veffa62lsrtqpk4na	407	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	407	7	435–443	435–443	CD
work_lqoc3fv36veffa62lsrtqpk4na	407	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	408	1	44	44	CD
work_lqoc3fv36veffa62lsrtqpk4na	408	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	409	1	Caserini	Caserini	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	409	3	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	409	5	Livio	Livio	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	409	7	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	409	9	Giugliano	Giugliano	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	409	11	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	12	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	409	13	Grosso	Grosso	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	409	15	M.	M.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	16	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	409	17	Rigamonti	Rigamonti	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	409	19	L.	L.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	20	LCA	LCA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	21	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	409	22	domestic	domestic	JJ
work_lqoc3fv36veffa62lsrtqpk4na	409	23	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	409	24	centralized	centralized	JJ
work_lqoc3fv36veffa62lsrtqpk4na	409	25	biomass	biomass	NN
work_lqoc3fv36veffa62lsrtqpk4na	409	26	combustion	combustion	NN
work_lqoc3fv36veffa62lsrtqpk4na	409	27	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	409	28	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	409	29	case	case	NN
work_lqoc3fv36veffa62lsrtqpk4na	409	30	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	409	31	Lombardy	Lombardy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	32	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	409	33	Italy	Italy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	409	34	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	409	35	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	410	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	410	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	410	3	2010	2010	CD
work_lqoc3fv36veffa62lsrtqpk4na	410	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	410	5	34	34	CD
work_lqoc3fv36veffa62lsrtqpk4na	410	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	410	7	474–482	474–482	CD
work_lqoc3fv36veffa62lsrtqpk4na	410	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	411	1	Sustainability	Sustainability	NNP
work_lqoc3fv36veffa62lsrtqpk4na	411	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	411	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	411	4	7	7	CD
work_lqoc3fv36veffa62lsrtqpk4na	411	5	12987	12987	CD
work_lqoc3fv36veffa62lsrtqpk4na	411	6	45	45	CD
work_lqoc3fv36veffa62lsrtqpk4na	411	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	412	1	Lettens	Lettens	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	3	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	412	5	Muys	Muys	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	7	B.	B.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	412	9	Ceulemans	Ceulemans	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	412	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	11	R.	R.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	12	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	412	13	Moons	Moons	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	14	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	15	E.	E.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	16	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	412	17	Garcia	Garcia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	18	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	19	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	20	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	412	21	Coppin	Coppin	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	22	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	412	23	P.	P.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	24	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	412	25	budget	budget	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	26	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	412	27	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	28	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	29	balance	balance	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	30	evaluation	evaluation	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	31	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	412	32	sustainable	sustainable	JJ
work_lqoc3fv36veffa62lsrtqpk4na	412	33	coppice	coppice	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	34	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	412	35	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	412	36	electricity	electricity	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	37	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	412	38	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	413	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	413	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	413	3	2003	2003	CD
work_lqoc3fv36veffa62lsrtqpk4na	413	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	413	5	24	24	CD
work_lqoc3fv36veffa62lsrtqpk4na	413	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	413	7	179–197	179–197	CD
work_lqoc3fv36veffa62lsrtqpk4na	413	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	414	1	46	46	CD
work_lqoc3fv36veffa62lsrtqpk4na	414	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	415	1	Matthews	Matthews	NNP
work_lqoc3fv36veffa62lsrtqpk4na	415	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	415	3	R.W.	R.W.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	416	1	Modelling	model	VBG
work_lqoc3fv36veffa62lsrtqpk4na	416	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	416	3	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	416	4	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	416	5	carbon	carbon	NN
work_lqoc3fv36veffa62lsrtqpk4na	416	6	budgets	budget	NNS
work_lqoc3fv36veffa62lsrtqpk4na	416	7	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	416	8	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	416	9	fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	416	10	coppice	coppice	NN
work_lqoc3fv36veffa62lsrtqpk4na	416	11	systems	system	NNS
work_lqoc3fv36veffa62lsrtqpk4na	416	12	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	417	1	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	417	2	Bioenergy	Bioenergy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	417	3	2001	2001	CD
work_lqoc3fv36veffa62lsrtqpk4na	417	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	417	5	21	21	CD
work_lqoc3fv36veffa62lsrtqpk4na	417	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	417	7	1–19	1–19	CD
work_lqoc3fv36veffa62lsrtqpk4na	417	8	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	418	1	47	47	CD
work_lqoc3fv36veffa62lsrtqpk4na	418	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	419	1	Campbell	Campbell	NNP
work_lqoc3fv36veffa62lsrtqpk4na	419	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	419	3	J.E.	J.E.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	420	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	420	2	Lobell	Lobell	NNP
work_lqoc3fv36veffa62lsrtqpk4na	420	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	420	4	D.B.	D.B.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	421	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	421	2	Genova	Genova	NNP
work_lqoc3fv36veffa62lsrtqpk4na	421	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	421	4	R.C.	R.C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	422	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	422	2	Zumkehr	Zumkehr	NNP
work_lqoc3fv36veffa62lsrtqpk4na	422	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	422	4	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	422	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	422	6	Field	Field	NNP
work_lqoc3fv36veffa62lsrtqpk4na	422	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	422	8	C.B.	C.B.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	423	1	Seasonal	seasonal	JJ
work_lqoc3fv36veffa62lsrtqpk4na	423	2	energy	energy	NN
work_lqoc3fv36veffa62lsrtqpk4na	423	3	storage	storage	NN
work_lqoc3fv36veffa62lsrtqpk4na	423	4	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	423	5	bioenergy	bioenergy	NN
work_lqoc3fv36veffa62lsrtqpk4na	423	6	production	production	NN
work_lqoc3fv36veffa62lsrtqpk4na	423	7	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	423	8	abandoned	abandon	VBN
work_lqoc3fv36veffa62lsrtqpk4na	423	9	croplands	cropland	NNS
work_lqoc3fv36veffa62lsrtqpk4na	423	10	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	424	1	Environ	Environ	NNP
work_lqoc3fv36veffa62lsrtqpk4na	424	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	425	1	Res	Res	NNP
work_lqoc3fv36veffa62lsrtqpk4na	425	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	426	1	Lett	Lett	NNP
work_lqoc3fv36veffa62lsrtqpk4na	426	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	427	1	2013	2013	CD
work_lqoc3fv36veffa62lsrtqpk4na	427	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	427	3	8	8	CD
work_lqoc3fv36veffa62lsrtqpk4na	427	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	427	5	1–7	1–7	CD
work_lqoc3fv36veffa62lsrtqpk4na	427	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	428	1	48	48	CD
work_lqoc3fv36veffa62lsrtqpk4na	428	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	429	1	Sarvaramini	Sarvaramini	NNP
work_lqoc3fv36veffa62lsrtqpk4na	429	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	429	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	429	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	429	5	Assima	Assima	NNP
work_lqoc3fv36veffa62lsrtqpk4na	429	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	429	7	G.P.	G.P.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	430	2	Beaudoin	Beaudoin	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	430	4	G.	G.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	5	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	430	6	Larachi	Larachi	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	430	8	F.	F.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	9	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	10	torrefaction	torrefaction	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	11	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	430	12	CO2	CO2	NNP
work_lqoc3fv36veffa62lsrtqpk4na	430	13	capture	capture	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	14	using	use	VBG
work_lqoc3fv36veffa62lsrtqpk4na	430	15	mining	mining	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	16	wastes	waste	NNS
work_lqoc3fv36veffa62lsrtqpk4na	430	17	—	—	:
work_lqoc3fv36veffa62lsrtqpk4na	430	18	A	a	DT
work_lqoc3fv36veffa62lsrtqpk4na	430	19	new	new	JJ
work_lqoc3fv36veffa62lsrtqpk4na	430	20	approach	approach	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	21	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	430	22	reducing	reduce	VBG
work_lqoc3fv36veffa62lsrtqpk4na	430	23	greenhouse	greenhouse	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	24	gas	gas	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	25	emissions	emission	NNS
work_lqoc3fv36veffa62lsrtqpk4na	430	26	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	430	27	co	co	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	28	-	-	JJ
work_lqoc3fv36veffa62lsrtqpk4na	430	29	firing	firing	NN
work_lqoc3fv36veffa62lsrtqpk4na	430	30	plants	plant	NNS
work_lqoc3fv36veffa62lsrtqpk4na	430	31	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	431	1	Fuel	fuel	NN
work_lqoc3fv36veffa62lsrtqpk4na	431	2	2014	2014	CD
work_lqoc3fv36veffa62lsrtqpk4na	431	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	431	4	115	115	CD
work_lqoc3fv36veffa62lsrtqpk4na	431	5	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	431	6	749–757	749–757	CD
work_lqoc3fv36veffa62lsrtqpk4na	431	7	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	432	1	49	49	CD
work_lqoc3fv36veffa62lsrtqpk4na	432	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	433	1	Pa	Pa	NNP
work_lqoc3fv36veffa62lsrtqpk4na	433	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	433	3	A.	a.	NN
work_lqoc3fv36veffa62lsrtqpk4na	433	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	433	5	Bi	Bi	NNP
work_lqoc3fv36veffa62lsrtqpk4na	433	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	433	7	X.T.	X.T.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	1	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	434	2	Sokhansanj	Sokhansanj	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	3	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	434	4	S.	S.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	5	A	A	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	6	life	life	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	7	cycle	cycle	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	8	evaluation	evaluation	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	9	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	434	10	wood	wood	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	11	pellet	pellet	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	12	gasification	gasification	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	13	for	for	IN
work_lqoc3fv36veffa62lsrtqpk4na	434	14	district	district	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	15	heating	heating	NN
work_lqoc3fv36veffa62lsrtqpk4na	434	16	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	434	17	British	British	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	18	Columbia	Columbia	NNP
work_lqoc3fv36veffa62lsrtqpk4na	434	19	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	435	1	Bioresour	bioresour	UH
work_lqoc3fv36veffa62lsrtqpk4na	435	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	436	1	Technol	Technol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	436	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	437	1	2011	2011	CD
work_lqoc3fv36veffa62lsrtqpk4na	437	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	437	3	102	102	CD
work_lqoc3fv36veffa62lsrtqpk4na	437	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	437	5	6167–6177	6167–6177	ADD
work_lqoc3fv36veffa62lsrtqpk4na	437	6	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	438	1	50	50	CD
work_lqoc3fv36veffa62lsrtqpk4na	438	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	439	1	Pastre	Pastre	NNP
work_lqoc3fv36veffa62lsrtqpk4na	439	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	439	3	O.	O.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	1	Analysis	analysis	NN
work_lqoc3fv36veffa62lsrtqpk4na	440	2	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	440	3	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	440	4	Technical	Technical	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	5	Obstacles	Obstacles	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	440	6	Related	relate	VBN
work_lqoc3fv36veffa62lsrtqpk4na	440	7	to	to	IN
work_lqoc3fv36veffa62lsrtqpk4na	440	8	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	440	9	Production	Production	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	10	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	440	11	Utilisation	Utilisation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	12	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	440	13	Fuel	Fuel	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	14	Pellets	pellet	NNS
work_lqoc3fv36veffa62lsrtqpk4na	440	15	Made	make	VBN
work_lqoc3fv36veffa62lsrtqpk4na	440	16	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	440	17	Agricultural	agricultural	JJ
work_lqoc3fv36veffa62lsrtqpk4na	440	18	Residues	Residues	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	440	19	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	440	20	Report	Report	NNP
work_lqoc3fv36veffa62lsrtqpk4na	440	21	No	no	UH
work_lqoc3fv36veffa62lsrtqpk4na	440	22	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	441	1	ALTENER	ALTENER	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	2	2002	2002	CD
work_lqoc3fv36veffa62lsrtqpk4na	441	3	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	441	4	012	012	CD
work_lqoc3fv36veffa62lsrtqpk4na	441	5	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	441	6	137	137	CD
work_lqoc3fv36veffa62lsrtqpk4na	441	7	-	-	HYPH
work_lqoc3fv36veffa62lsrtqpk4na	441	8	16051	16051	CD
work_lqoc3fv36veffa62lsrtqpk4na	441	9	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	441	10	European	European	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	11	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	12	Industry	Industry	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	13	Association	Association	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	14	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	441	15	EUBIA	EUBIA	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	16	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	441	17	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	441	18	Brussels	Brussels	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	19	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	441	20	Belgium	Belgium	NNP
work_lqoc3fv36veffa62lsrtqpk4na	441	21	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	441	22	2002	2002	CD
work_lqoc3fv36veffa62lsrtqpk4na	441	23	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	442	1	51	51	CD
work_lqoc3fv36veffa62lsrtqpk4na	442	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	443	1	Bates	Bates	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	2	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	443	3	J.	J.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	4	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	443	5	Edberg	Edberg	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	6	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	443	7	O.	O.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	8	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	443	9	Nuttall	Nuttall	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	10	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	443	11	C.	C.	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	12	Minimising	Minimising	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	13	Greenhouse	Greenhouse	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	14	Gas	Gas	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	15	Emissions	Emissions	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	443	16	from	from	IN
work_lqoc3fv36veffa62lsrtqpk4na	443	17	Biomass	Biomass	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	18	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	19	Generation	Generation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	20	;	;	,
work_lqoc3fv36veffa62lsrtqpk4na	443	21	Environmental	environmental	JJ
work_lqoc3fv36veffa62lsrtqpk4na	443	22	Agency	Agency	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	23	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	443	24	Bristol	Bristol	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	25	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	443	26	UK	UK	NNP
work_lqoc3fv36veffa62lsrtqpk4na	443	27	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	443	28	2009	2009	CD
work_lqoc3fv36veffa62lsrtqpk4na	443	29	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	444	1	52	52	CD
work_lqoc3fv36veffa62lsrtqpk4na	444	2	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	445	1	The	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	445	2	Greenhouse	Greenhouse	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	3	Gases	Gases	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	445	4	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	445	5	Regulated	Regulated	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	6	Emissions	Emissions	NNPS
work_lqoc3fv36veffa62lsrtqpk4na	445	7	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	445	8	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	445	9	Energy	Energy	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	10	Use	Use	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	11	in	in	IN
work_lqoc3fv36veffa62lsrtqpk4na	445	12	Transportation	Transportation	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	13	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	445	14	GREET	GREET	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	15	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	445	16	Model	Model	NNP
work_lqoc3fv36veffa62lsrtqpk4na	445	17	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	446	1	Avaialble	avaialble	JJ
work_lqoc3fv36veffa62lsrtqpk4na	446	2	online	online	RB
work_lqoc3fv36veffa62lsrtqpk4na	446	3	:	:	:
work_lqoc3fv36veffa62lsrtqpk4na	446	4	https://greet.es.anl.gov/	https://greet.es.anl.gov/	NNP
work_lqoc3fv36veffa62lsrtqpk4na	446	5	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	446	6	accessed	access	VBN
work_lqoc3fv36veffa62lsrtqpk4na	446	7	on	on	IN
work_lqoc3fv36veffa62lsrtqpk4na	446	8	17	17	CD
work_lqoc3fv36veffa62lsrtqpk4na	446	9	September	September	NNP
work_lqoc3fv36veffa62lsrtqpk4na	446	10	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	446	11	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	446	12	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	447	1	©	©	LS
work_lqoc3fv36veffa62lsrtqpk4na	447	2	2015	2015	CD
work_lqoc3fv36veffa62lsrtqpk4na	447	3	by	by	IN
work_lqoc3fv36veffa62lsrtqpk4na	447	4	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	447	5	authors	author	NNS
work_lqoc3fv36veffa62lsrtqpk4na	447	6	;	;	:
work_lqoc3fv36veffa62lsrtqpk4na	447	7	licensee	licensee	NNP
work_lqoc3fv36veffa62lsrtqpk4na	447	8	MDPI	MDPI	NNP
work_lqoc3fv36veffa62lsrtqpk4na	447	9	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	447	10	Basel	Basel	NNP
work_lqoc3fv36veffa62lsrtqpk4na	447	11	,	,	,
work_lqoc3fv36veffa62lsrtqpk4na	447	12	Switzerland	Switzerland	NNP
work_lqoc3fv36veffa62lsrtqpk4na	447	13	.	.	.
work_lqoc3fv36veffa62lsrtqpk4na	448	1	This	this	DT
work_lqoc3fv36veffa62lsrtqpk4na	448	2	article	article	NN
work_lqoc3fv36veffa62lsrtqpk4na	448	3	is	be	VBZ
work_lqoc3fv36veffa62lsrtqpk4na	448	4	an	an	DT
work_lqoc3fv36veffa62lsrtqpk4na	448	5	open	open	JJ
work_lqoc3fv36veffa62lsrtqpk4na	448	6	access	access	NN
work_lqoc3fv36veffa62lsrtqpk4na	448	7	article	article	NN
work_lqoc3fv36veffa62lsrtqpk4na	448	8	distributed	distribute	VBN
work_lqoc3fv36veffa62lsrtqpk4na	448	9	under	under	IN
work_lqoc3fv36veffa62lsrtqpk4na	448	10	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	448	11	terms	term	NNS
work_lqoc3fv36veffa62lsrtqpk4na	448	12	and	and	CC
work_lqoc3fv36veffa62lsrtqpk4na	448	13	conditions	condition	NNS
work_lqoc3fv36veffa62lsrtqpk4na	448	14	of	of	IN
work_lqoc3fv36veffa62lsrtqpk4na	448	15	the	the	DT
work_lqoc3fv36veffa62lsrtqpk4na	448	16	Creative	Creative	NNP
work_lqoc3fv36veffa62lsrtqpk4na	448	17	Commons	Commons	NNP
work_lqoc3fv36veffa62lsrtqpk4na	448	18	Attribution	Attribution	NNP
work_lqoc3fv36veffa62lsrtqpk4na	448	19	license	license	NN
work_lqoc3fv36veffa62lsrtqpk4na	448	20	(	(	-LRB-
work_lqoc3fv36veffa62lsrtqpk4na	448	21	http://creativecommons.org/licenses/by/4.0/	http://creativecommons.org/licenses/by/4.0/	ADD
work_lqoc3fv36veffa62lsrtqpk4na	448	22	)	)	-RRB-
work_lqoc3fv36veffa62lsrtqpk4na	448	23	.	.	.