id	sid	tid	token	lemma	pos
work_4ncc75ijpnflvf7xsil7kyggcm	1	1	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	1	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	3	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	4	Intensity	Intensity	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	5	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	6	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	7	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	8	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	9	Curves	Curves	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	1	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	11	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	12	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	1	13	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	14	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	15	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	17	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	18	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	19	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	20	Theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	1	21	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	23	Engineering	Engineering	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	24	Practice	Practice	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	25	water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	1	26	Article	article	NN
work_4ncc75ijpnflvf7xsil7kyggcm	1	27	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	1	28	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	29	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	30	Intensity	Intensity	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	31	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	32	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	33	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	34	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	35	Curves	Curves	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	1	36	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	37	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	38	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	1	39	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	40	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	41	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	42	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	43	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	44	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	45	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	46	Theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	1	47	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	48	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	1	49	Engineering	Engineering	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	50	Practice	Practice	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	51	José	José	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	52	Nilson	Nilson	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	53	B.	B.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	54	Campos	Campos	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	55	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	56	Ticiana	Ticiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	57	Marinho	Marinho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	58	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	59	Carvalho	Carvalho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	60	Studart	Studart	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	61	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	1	62	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	63	Francisco	Francisco	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	64	de	de	IN
work_4ncc75ijpnflvf7xsil7kyggcm	1	65	Assis	Assis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	66	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	67	Souza	Souza	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	68	Filho	Filho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	69	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	70	Victor	Victor	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	71	Costa	Costa	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	72	Porto	Porto	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	73	Hydraulic	Hydraulic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	74	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	1	75	Environmental	Environmental	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	76	Engineering	Engineering	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	77	Department	Department	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	78	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	1	79	DEHA	DEHA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	80	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	1	81	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	82	Federal	Federal	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	83	University	University	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	84	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	1	85	Ceará	Ceará	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	1	86	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	87	60020	60020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	1	88	-	-	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	1	89	181	181	CD
work_4ncc75ijpnflvf7xsil7kyggcm	1	90	Fortaleza	Fortaleza	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	91	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	1	92	CE	CE	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	93	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	1	94	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	1	95	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	1	96	jnbcampos@gmail.com	jnbcampos@gmail.com	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	1	97	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	1	98	J.N.B.C.	J.N.B.C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	2	1	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	2	2	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	2	3	assis@ufc.br	assis@ufc.br	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	2	4	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	2	5	F.d	F.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	2	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	2	7	A.d	A.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	2	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	2	9	S.F.	S.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	3	1	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	3	2	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	3	3	victorcporto@gmail.com	victorcporto@gmail.com	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	3	4	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	3	5	V.C.P.	V.C.P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	3	6	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	4	1	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	4	2	Correspondence	correspondence	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	3	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	4	ticiana@ufc.br	ticiana@ufc.br	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	4	5	Received	receive	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	4	6	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	7	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	8	September	September	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	4	9	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	10	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	11	Accepted	accept	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	4	12	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	13	25	25	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	14	September	September	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	4	15	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	16	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	17	Published	publish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	4	18	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	19	30	30	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	20	September	September	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	4	21	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	4	22	�	�	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	4	23	�	�	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	4	24	�	�	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	4	25	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	26	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	27	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	28	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	29	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	30	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	31	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	32	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	33	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	34	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	35	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	36	�	�	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	37	�	�	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	4	38	�	�	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	4	39	Abstract	abstract	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	4	40	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	41	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	4	42	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	43	evaluates	evaluate	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	4	44	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	4	45	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	4	46	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	4	47	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	48	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	49	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	4	50	its	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	4	51	relationship	relationship	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	52	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	4	53	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	4	54	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	4	55	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	56	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	57	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	58	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	4	59	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	4	60	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	4	61	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	4	62	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	4	63	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	4	64	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	5	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	5	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	5	3	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	5	4	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	5	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	5	6	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	5	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	5	8	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	5	9	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	10	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	11	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	5	12	shorter	short	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	5	13	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	5	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	5	15	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	16	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	5	17	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	5	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	5	20	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	5	21	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	5	22	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	23	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	5	24	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	5	25	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	6	1	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	6	2	proved	prove	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	6	3	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	6	4	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	6	5	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	6	6	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	6	7	could	could	MD
work_4ncc75ijpnflvf7xsil7kyggcm	6	8	exist	exist	VB
work_4ncc75ijpnflvf7xsil7kyggcm	6	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	6	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	6	11	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	6	12	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	6	13	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	6	14	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	6	15	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	6	16	a/(b	a/(b	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	6	17	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	6	18	td	td	NN
work_4ncc75ijpnflvf7xsil7kyggcm	6	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	6	20	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	6	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	6	22	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	6	23	when	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	6	24	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	6	25	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	6	26	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	6	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	7	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	2	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	7	3	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	7	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	7	5	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	7	7	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	7	10	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	7	11	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	7	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	7	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	7	14	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	7	15	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	16	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	17	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	18	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	19	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	7	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	21	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	22	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	7	23	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	7	24	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	7	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	7	26	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	7	27	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	7	28	b/(c−1	b/(c−1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	7	29	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	7	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	8	1	Nevertheless	nevertheless	RB
work_4ncc75ijpnflvf7xsil7kyggcm	8	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	8	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	8	4	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	8	5	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	8	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	8	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	8	8	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	8	9	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	8	10	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	8	11	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	8	12	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	8	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	8	14	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	8	15	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	8	16	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	8	17	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	8	18	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	8	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	8	20	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	8	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	9	1	These	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	9	2	situations	situation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	9	3	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	9	4	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	9	5	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	9	6	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	9	7	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	9	8	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	9	9	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	9	10	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	9	11	discussed	discuss	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	9	12	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	9	13	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	9	14	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	9	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	10	1	Research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	10	2	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	10	3	done	do	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	10	4	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	10	5	look	look	VB
work_4ncc75ijpnflvf7xsil7kyggcm	10	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	10	7	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	10	8	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	10	9	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	10	10	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	10	11	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	10	12	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	10	13	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	10	14	hydrologic	hydrologic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	10	15	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	10	16	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	10	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	11	1	It	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	11	2	found	find	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	11	3	640	640	CD
work_4ncc75ijpnflvf7xsil7kyggcm	11	4	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	11	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	11	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	8	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	9	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	10	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	11	11	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	12	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	11	13	four	four	CD
work_4ncc75ijpnflvf7xsil7kyggcm	11	14	countries	country	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	11	15	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	16	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	18	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	20	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	11	23	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	24	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	26	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	11	27	means	mean	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	11	28	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	11	29	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	11	30	fundamental	fundamental	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	11	31	principle	principle	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	32	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	11	33	building	build	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	11	34	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	11	35	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	36	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	11	37	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	38	i.e.	i.e.	FW
work_4ncc75ijpnflvf7xsil7kyggcm	11	39	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	40	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	41	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	11	42	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	11	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	11	44	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	45	published	publish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	11	46	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	11	47	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	11	48	scientific	scientific	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	11	49	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	50	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	11	51	1998	1998	CD
work_4ncc75ijpnflvf7xsil7kyggcm	11	52	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	11	53	did	do	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	11	54	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	11	55	reach	reach	VB
work_4ncc75ijpnflvf7xsil7kyggcm	11	56	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	11	57	hydrologic	hydrologic	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	58	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	59	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	11	60	fully	fully	RB
work_4ncc75ijpnflvf7xsil7kyggcm	11	61	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	12	1	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	12	2	provided	provide	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	12	3	some	some	DT
work_4ncc75ijpnflvf7xsil7kyggcm	12	4	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	12	5	regarding	regard	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	12	6	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	12	7	gap	gap	NN
work_4ncc75ijpnflvf7xsil7kyggcm	12	8	between	between	IN
work_4ncc75ijpnflvf7xsil7kyggcm	12	9	theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	12	10	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	12	11	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	12	12	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	12	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	13	1	Keywords	keyword	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	13	2	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	13	3	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	13	4	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	5	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	6	;	;	,
work_4ncc75ijpnflvf7xsil7kyggcm	13	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	8	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	9	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	13	10	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	13	11	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	13	12	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	13	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	14	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	13	15	flood	flood	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	16	design	design	NN
work_4ncc75ijpnflvf7xsil7kyggcm	13	17	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	13	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	14	1	Introduction	introduction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	14	2	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	14	3	order	order	NN
work_4ncc75ijpnflvf7xsil7kyggcm	14	4	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	14	5	design	design	VB
work_4ncc75ijpnflvf7xsil7kyggcm	14	6	hydraulic	hydraulic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	14	7	structures	structure	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	14	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	14	9	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	14	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	14	11	necessary	necessary	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	14	12	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	14	13	know	know	VB
work_4ncc75ijpnflvf7xsil7kyggcm	14	14	both	both	CC
work_4ncc75ijpnflvf7xsil7kyggcm	14	15	peak	peak	NN
work_4ncc75ijpnflvf7xsil7kyggcm	14	16	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	14	17	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	14	18	Qp	Qp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	14	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	14	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	14	21	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	14	22	Hydrograph	Hydrograph	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	14	23	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	14	24	DH	DH	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	14	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	14	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	15	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	15	2	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	15	3	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	15	4	plays	play	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	15	5	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	15	6	important	important	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	15	7	role	role	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	8	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	15	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	15	10	DH	DH	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	15	11	estimation	estimation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	15	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	15	14	due	due	IN
work_4ncc75ijpnflvf7xsil7kyggcm	15	15	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	15	16	its	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	15	17	simplicity	simplicity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	15	19	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	15	20	been	be	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	15	21	extensively	extensively	RB
work_4ncc75ijpnflvf7xsil7kyggcm	15	22	applied	apply	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	15	23	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	15	24	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	25	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	26	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	15	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	15	28	mid-19th	mid-19th	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	15	29	century	century	NN
work_4ncc75ijpnflvf7xsil7kyggcm	15	30	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	15	31	when	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	15	32	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	15	33	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	15	34	first	first	RB
work_4ncc75ijpnflvf7xsil7kyggcm	15	35	introduced	introduce	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	15	36	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	15	37	proposed	propose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	15	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	16	1	Nevertheless	nevertheless	RB
work_4ncc75ijpnflvf7xsil7kyggcm	16	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	16	3	researches	research	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	16	4	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	16	5	recently	recently	RB
work_4ncc75ijpnflvf7xsil7kyggcm	16	6	been	be	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	16	7	questioning	question	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	16	8	basic	basic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	16	9	assumptions	assumption	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	16	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	12	hydrological	hydrological	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	16	13	theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	16	15	including	include	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	16	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	17	use	use	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	18	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	20	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	16	21	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	16	22	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	23	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	24	existing	exist	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	16	25	theoretical	theoretical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	16	26	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	27	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	28	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	16	29	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	16	31	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	32	concept	concept	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	33	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	34	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	35	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	36	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	37	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	38	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	39	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	16	40	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	41	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	16	42	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	16	43	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	16	44	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	45	basis	basis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	46	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	47	estimating	estimate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	16	48	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	49	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	16	50	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	51	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	16	52	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	16	53	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	16	54	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	16	55	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	16	56	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	16	57	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	17	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	17	2	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	3	deals	deal	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	17	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	17	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	17	6	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	17	7	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	17	8	’s	’s	POS
work_4ncc75ijpnflvf7xsil7kyggcm	17	9	assumptions	assumption	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	17	10	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	17	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	17	12	context	context	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	17	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	17	15	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	17	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	17	17	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	18	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	17	20	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	17	21	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	22	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	17	24	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	17	25	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	17	26	relationships	relationship	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	17	27	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	17	28	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	29	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	30	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	17	31	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	17	33	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	17	34	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	17	35	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	18	1	Usually	usually	RB
work_4ncc75ijpnflvf7xsil7kyggcm	18	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	18	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	18	4	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	18	5	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	18	6	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	18	7	applied	apply	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	18	8	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	18	9	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	18	10	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	18	11	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	18	12	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	18	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	14	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	18	15	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	16	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	18	17	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	18	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	18	19	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	18	20	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	18	21	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	18	22	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	23	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	18	24	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	25	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	26	3–10	3–10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	18	27	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	18	28	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	19	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	19	2	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	19	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	19	4	grounded	ground	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	19	5	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	19	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	19	7	assumption	assumption	NN
work_4ncc75ijpnflvf7xsil7kyggcm	19	8	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	19	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	19	10	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	19	11	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	19	12	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	19	13	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	19	14	does	do	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	19	15	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	19	16	exist	exist	VB
work_4ncc75ijpnflvf7xsil7kyggcm	19	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	20	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	20	2	most	most	RBS
work_4ncc75ijpnflvf7xsil7kyggcm	20	3	comprehensive	comprehensive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	20	4	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	5	published	publish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	20	6	recently	recently	RB
work_4ncc75ijpnflvf7xsil7kyggcm	20	7	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	20	8	deals	deal	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	20	9	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	20	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	20	11	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	20	12	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	20	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	14	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	15	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	20	16	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	20	17	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	18	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	19	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	20	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	20	21	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	20	22	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	20	23	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	20	24	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	20	25	due	due	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	20	26	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	20	27	Wong	Wong	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	20	28	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	20	29	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	20	30	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	20	31	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	21	1	He	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	21	2	analyzed	analyze	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	21	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	21	4	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	5	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	21	7	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	8	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	21	9	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	21	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	21	12	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	21	13	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	21	14	a/(td	a/(td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	15	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	16	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	17	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	21	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	21	19	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	21	20	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	21	21	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	21	22	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	23	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	21	25	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	26	denotes	denote	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	21	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	21	28	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	29	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	30	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	21	31	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	21	32	a	a	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	33	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	21	34	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	21	35	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	21	36	equation´s	equation´s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	21	37	parameters	parameter	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	21	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	22	1	Wong	Wong	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	22	2	proved	prove	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	22	3	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	22	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	22	5	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	22	6	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	22	7	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	22	9	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	22	10	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	22	12	there	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	22	13	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	22	14	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	22	15	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	22	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	22	17	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	18	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	22	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	22	21	design	design	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	22	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	23	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	22	24	governed	govern	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	22	25	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	22	26	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	22	27	full	full	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	22	28	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	22	29	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	30	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	22	31	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	23	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	23	2	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	23	3	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	4	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	6	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	8	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	9	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	23	10	doi:10.3390	doi:10.3390	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	11	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	23	12	w12102730	w12102730	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	13	www.mdpi.com/journal/water	www.mdpi.com/journal/water	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	23	14	http://www.mdpi.com/journal/water	http://www.mdpi.com/journal/water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	15	http://www.mdpi.com	http://www.mdpi.com	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	23	16	https://orcid.org/0000-0001-6321-1284	https://orcid.org/0000-0001-6321-1284	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	23	17	https://orcid.org/0000-0001-9317-3645	https://orcid.org/0000-0001-9317-3645	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	23	18	https://orcid.org/0000-0002-6724-9033	https://orcid.org/0000-0002-6724-9033	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	19	http://www.mdpi.com/2073-4441/12/10/2730?type=check_update&version=1	http://www.mdpi.com/2073-4441/12/10/2730?type=check_update&version=1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	20	http://dx.doi.org/10.3390/w12102730	http://dx.doi.org/10.3390/w12102730	VB
work_4ncc75ijpnflvf7xsil7kyggcm	23	21	http://www.mdpi.com/journal/water	http://www.mdpi.com/journal/water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	22	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	23	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	25	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	27	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	28	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	29	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	23	30	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	23	31	words	word	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	23	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	33	his	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	23	34	results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	23	35	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	23	36	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	23	37	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	23	38	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	39	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	23	40	’s	’s	POS
work_4ncc75ijpnflvf7xsil7kyggcm	23	41	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	42	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	43	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	23	44	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	23	45	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	23	46	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	23	47	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	48	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	49	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	23	50	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	23	51	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	23	52	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	23	53	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	54	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	23	55	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	23	56	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	24	1	Wong	Wong	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	24	2	’s	’s	POS
work_4ncc75ijpnflvf7xsil7kyggcm	24	3	conclusions	conclusion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	24	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	24	5	however	however	RB
work_4ncc75ijpnflvf7xsil7kyggcm	24	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	24	7	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	24	8	based	base	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	24	9	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	24	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	24	11	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	24	12	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	24	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	24	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	24	15	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	24	16	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	24	17	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	24	18	a/(td	a/(td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	24	19	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	24	20	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	24	21	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	24	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	24	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	24	24	therefore	therefore	RB
work_4ncc75ijpnflvf7xsil7kyggcm	24	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	24	26	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	24	27	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	24	28	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	24	29	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	24	30	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	24	31	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	24	32	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	24	33	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	24	34	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	24	35	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	24	36	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	25	1	To	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	25	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	25	3	best	good	JJS
work_4ncc75ijpnflvf7xsil7kyggcm	25	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	25	5	our	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	25	6	knowledge	knowledge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	25	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	25	8	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	25	9	article	article	NN
work_4ncc75ijpnflvf7xsil7kyggcm	25	10	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	25	11	2005	2005	CD
work_4ncc75ijpnflvf7xsil7kyggcm	25	12	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	25	13	expanded	expand	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	25	14	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	25	15	limited	limited	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	25	16	Wong´s	wong´s	NN
work_4ncc75ijpnflvf7xsil7kyggcm	25	17	conclusions	conclusion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	25	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	26	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	26	2	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	26	3	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	26	4	evaluates	evaluate	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	26	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	26	6	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	26	7	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	26	8	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	26	9	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	26	10	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	26	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	26	12	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	13	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	26	14	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	26	15	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	26	16	a/(td	a/(td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	17	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	18	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	26	20	c.	c.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	26	21	Koutsoyiannis	Koutsoyiannis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	22	et	et	FW
work_4ncc75ijpnflvf7xsil7kyggcm	26	23	al	al	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	26	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	27	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	27	2	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	27	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	27	4	considered	consider	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	27	5	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	27	6	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	7	≤	≤	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	8	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	27	9	under	under	IN
work_4ncc75ijpnflvf7xsil7kyggcm	27	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	27	11	constraint	constraint	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	12	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	27	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	27	14	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	27	15	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	27	16	depth	depth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	17	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	18	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	27	20	must	must	MD
work_4ncc75ijpnflvf7xsil7kyggcm	27	21	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	27	22	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	27	23	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	27	24	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	25	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	27	26	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	27	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	28	1	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	28	2	special	special	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	28	3	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	28	4	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	28	5	dedicated	dedicate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	28	6	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	28	7	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	28	8	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	28	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	29	1	Research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	2	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	29	3	been	be	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	29	4	done	do	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	29	5	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	29	6	look	look	VB
work_4ncc75ijpnflvf7xsil7kyggcm	29	7	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	29	8	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	29	9	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	29	10	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	29	11	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	29	12	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	29	13	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	29	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	29	15	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	29	16	there	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	29	17	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	29	18	numerous	numerous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	29	19	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	20	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	21	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	29	22	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	29	23	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	29	24	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	29	25	hydrologic	hydrologic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	29	26	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	27	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	28	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	29	29	world	world	NN
work_4ncc75ijpnflvf7xsil7kyggcm	29	30	over	over	RP
work_4ncc75ijpnflvf7xsil7kyggcm	29	31	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	30	1	However	however	RB
work_4ncc75ijpnflvf7xsil7kyggcm	30	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	30	3	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	30	4	suggests	suggest	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	30	5	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	6	despite	despite	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	30	8	recommendation	recommendation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	30	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	10	building	build	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	30	11	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	30	12	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	30	13	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	30	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	30	15	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	30	16	≤	≤	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	30	17	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	30	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	30	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	30	20	published	publish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	30	21	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	30	23	scientific	scientific	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	30	24	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	30	25	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	26	1998	1998	CD
work_4ncc75ijpnflvf7xsil7kyggcm	30	27	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	30	28	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	30	29	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	30	30	fully	fully	RB
work_4ncc75ijpnflvf7xsil7kyggcm	30	31	become	become	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	30	32	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	30	33	integral	integral	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	30	34	part	part	NN
work_4ncc75ijpnflvf7xsil7kyggcm	30	35	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	30	36	hydrologic	hydrologic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	30	37	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	30	38	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	30	39	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	31	1	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	31	2	provide	provide	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	31	3	some	some	DT
work_4ncc75ijpnflvf7xsil7kyggcm	31	4	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	31	5	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	31	6	explain	explain	VB
work_4ncc75ijpnflvf7xsil7kyggcm	31	7	why	why	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	31	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	31	9	gap	gap	NN
work_4ncc75ijpnflvf7xsil7kyggcm	31	10	between	between	IN
work_4ncc75ijpnflvf7xsil7kyggcm	31	11	theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	31	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	31	13	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	31	14	persists	persist	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	31	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	32	1	2	2	LS
work_4ncc75ijpnflvf7xsil7kyggcm	32	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	33	1	Methods	method	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	33	2	2.1	2.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	33	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	34	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	34	2	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	34	3	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	34	4	Many	many	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	34	5	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	34	6	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	34	7	13–16	13–16	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	8	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	34	9	credit	credit	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	34	11	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	34	12	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	34	13	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	34	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	34	15	work	work	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	16	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	34	17	Mulvany	Mulvany	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	34	18	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	34	19	17	17	CD
work_4ncc75ijpnflvf7xsil7kyggcm	34	20	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	34	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	34	22	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	34	23	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	34	24	regarded	regard	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	34	25	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	34	26	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	34	27	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	34	28	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	29	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	34	30	runoff	runoff	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	31	model	model	NN
work_4ncc75ijpnflvf7xsil7kyggcm	34	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	35	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	35	2	his	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	35	3	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	35	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	35	5	Koutsoyiannis	Koutsoyiannis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	35	6	et	et	FW
work_4ncc75ijpnflvf7xsil7kyggcm	35	7	al	al	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	35	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	36	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	2	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	36	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	4	explains	explain	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	36	5	how	how	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	36	6	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	36	7	estimate	estimate	VB
work_4ncc75ijpnflvf7xsil7kyggcm	36	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	36	9	peak	peak	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	10	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	11	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	12	Qp	Qp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	36	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	36	15	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	36	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	36	17	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	18	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	36	19	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	36	20	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	36	22	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	36	23	observed	observed	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	36	24	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	25	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	27	i	i	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	29	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	36	30	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	36	31	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	36	32	catchment	catchment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	33	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	34	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	35	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	36	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	36	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	38	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	36	39	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	36	40	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	36	41	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	36	42	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	36	43	factor	factor	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	44	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	45	C	C	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	36	46	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	36	47	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	36	48	depends	depend	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	36	49	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	36	50	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	51	soil	soil	NN
work_4ncc75ijpnflvf7xsil7kyggcm	36	52	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	37	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	37	2	fact	fact	NN
work_4ncc75ijpnflvf7xsil7kyggcm	37	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	37	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	37	5	his	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	37	6	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	37	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	37	8	Mulvany	Mulvany	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	37	9	did	do	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	37	10	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	37	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	37	12	explicitly	explicitly	RB
work_4ncc75ijpnflvf7xsil7kyggcm	37	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	37	14	write	write	VB
work_4ncc75ijpnflvf7xsil7kyggcm	37	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	37	16	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	37	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	37	18	but	but	CC
work_4ncc75ijpnflvf7xsil7kyggcm	37	19	his	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	37	20	words	word	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	37	21	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	37	22	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	37	23	translated	translate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	37	24	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	37	25	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	37	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	37	27	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	37	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	37	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	38	1	Qp	Qp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	38	2	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	38	3	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	4	×	×	UH
work_4ncc75ijpnflvf7xsil7kyggcm	38	5	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	38	6	×	×	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	38	7	A	a	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	8	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	38	9	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	38	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	38	11	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	38	12	Qp	Qp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	38	13	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	38	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	38	15	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	38	16	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	17	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	38	18	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	19	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	38	21	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	38	22	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	38	23	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	38	24	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	38	25	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	38	27	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	38	28	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	38	29	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	38	30	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	38	31	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	32	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	38	33	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	39	1	Mulvany	Mulvany	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	39	2	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	39	3	17	17	CD
work_4ncc75ijpnflvf7xsil7kyggcm	39	4	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	39	5	understood	understand	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	39	6	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	7	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	39	8	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	39	9	necessary	necessary	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	10	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	39	11	put	put	VB
work_4ncc75ijpnflvf7xsil7kyggcm	39	12	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	39	13	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	15	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	16	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	18	method	method	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	19	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	39	20	stated	state	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	39	21	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	22	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	23	result	result	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	39	25	although	although	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	26	arrived	arrive	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	39	27	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	28	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	29	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	30	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	31	manner	manner	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	39	33	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	39	34	found	find	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	39	35	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	39	36	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	39	37	tolerably	tolerably	RB
work_4ncc75ijpnflvf7xsil7kyggcm	39	38	near	near	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	39	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	40	truth	truth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	41	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	42	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	43	catchment	catchment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	44	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	45	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	46	average	average	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	47	character	character	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	48	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	39	49	neither	neither	CC
work_4ncc75ijpnflvf7xsil7kyggcm	39	50	mountainy	mountainy	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	51	nor	nor	CC
work_4ncc75ijpnflvf7xsil7kyggcm	39	52	very	very	RB
work_4ncc75ijpnflvf7xsil7kyggcm	39	53	flat	flat	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	54	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	39	55	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	39	56	within	within	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	57	certain	certain	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	39	58	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	39	59	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	60	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	39	61	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	39	62	extent	extent	NN
work_4ncc75ijpnflvf7xsil7kyggcm	39	63	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	40	1	Many	many	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	40	2	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	40	3	researchers	researcher	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	40	4	throughout	throughout	IN
work_4ncc75ijpnflvf7xsil7kyggcm	40	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	40	6	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	40	7	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	40	8	also	also	RB
work_4ncc75ijpnflvf7xsil7kyggcm	40	9	devoted	devote	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	40	10	efforts	effort	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	40	11	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	40	12	building	build	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	40	13	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	40	14	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	40	15	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	40	16	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	40	17	establishes	establish	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	40	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	40	19	boundaries	boundary	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	40	20	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	40	21	applying	apply	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	40	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	40	23	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	40	24	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	40	25	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	40	26	diverse	diverse	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	40	27	situations	situation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	40	28	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	41	1	Ponce	ponce	NN
work_4ncc75ijpnflvf7xsil7kyggcm	41	2	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	41	3	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	41	4	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	41	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	41	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	41	7	example	example	NN
work_4ncc75ijpnflvf7xsil7kyggcm	41	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	41	9	suggests	suggest	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	41	10	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	41	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	41	12	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	41	13	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	41	14	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	41	15	based	base	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	41	16	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	41	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	41	18	principle	principle	NN
work_4ncc75ijpnflvf7xsil7kyggcm	41	19	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	41	20	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	41	21	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	41	22	diffusion	diffusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	41	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	42	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	3	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	5	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	6	without	without	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	7	diffusion	diffusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	42	9	uniform	uniform	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	42	10	precipitation	precipitation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	11	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	13	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	15	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	16	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	42	17	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	19	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	20	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	21	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	22	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	42	23	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	42	24	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	42	25	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	42	26	design	design	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	27	storm	storm	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	42	29	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	42	30	make	make	VB
work_4ncc75ijpnflvf7xsil7kyggcm	42	31	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	32	design	design	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	33	hydrograph	hydrograph	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	42	34	have	have	VB
work_4ncc75ijpnflvf7xsil7kyggcm	42	35	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	36	isosceles	isoscele	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	42	37	triangle	triangle	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	38	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	42	39	trapezius	trapezius	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	40	shape	shape	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	41	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	42	42	depending	depend	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	42	43	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	42	44	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	42	45	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	46	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	42	47	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	43	1	It	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	43	2	must	must	MD
work_4ncc75ijpnflvf7xsil7kyggcm	43	3	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	43	4	observed	observe	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	43	5	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	43	6	Ponce	Ponce	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	43	7	’s	’s	POS
work_4ncc75ijpnflvf7xsil7kyggcm	43	8	conceptualization	conceptualization	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	43	10	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	43	11	hydrograph	hydrograph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	12	comes	come	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	43	13	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	43	14	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	43	15	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	16	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	43	17	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	43	19	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	43	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	43	21	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	22	flows	flow	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	43	23	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	43	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	43	25	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	26	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	43	27	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	43	28	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	43	29	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	43	30	velocity	velocity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	43	31	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	44	1	These	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	44	2	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	44	3	examples	example	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	44	4	highlight	highlight	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	44	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	44	6	importance	importance	NN
work_4ncc75ijpnflvf7xsil7kyggcm	44	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	44	8	understanding	understand	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	44	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	44	10	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	44	11	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	44	12	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	44	13	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	44	14	used	use	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	44	15	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	44	16	cases	case	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	44	17	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	44	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	44	19	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	44	20	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	44	21	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	44	22	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	44	23	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	44	24	dominant	dominant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	44	25	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	45	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	45	2	following	follow	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	45	3	sections	section	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	45	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	45	5	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	45	6	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	45	7	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	45	8	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	45	9	devoted	devoted	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	45	10	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	45	11	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	45	12	task	task	NN
work_4ncc75ijpnflvf7xsil7kyggcm	45	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	46	1	2.2	2.2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	46	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	47	1	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	2	Intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	3	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	47	4	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	5	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	47	6	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	7	Relationship	Relationship	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	8	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	47	9	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	11	Intensity	Intensity	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	12	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	13	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	47	15	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	47	17	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	18	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	47	19	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	47	20	key	key	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	47	21	point	point	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	22	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	23	estimating	estimate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	47	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	47	25	DH	DH	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	26	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	27	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	47	28	urban	urban	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	47	29	drainage	drainage	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	30	structure	structure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	31	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	32	small	small	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	47	33	basins	basin	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	47	34	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	47	35	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	47	36	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	47	37	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	47	38	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	39	applicability	applicability	NN
work_4ncc75ijpnflvf7xsil7kyggcm	47	40	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	47	41	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	42	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	47	43	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	48	1	There	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	48	2	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	48	3	many	many	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	48	4	types	type	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	48	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	48	6	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	48	7	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	48	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	49	1	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	49	2	common	common	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	49	3	characteristic	characteristic	NN
work_4ncc75ijpnflvf7xsil7kyggcm	49	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	49	5	all	all	DT
work_4ncc75ijpnflvf7xsil7kyggcm	49	6	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	49	7	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	49	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	49	9	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	49	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	49	11	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	49	12	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	49	13	varies	vary	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	49	14	inversely	inversely	RB
work_4ncc75ijpnflvf7xsil7kyggcm	49	15	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	49	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	49	17	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	49	18	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	49	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	50	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	50	2	most	most	RBS
work_4ncc75ijpnflvf7xsil7kyggcm	50	3	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	50	4	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	50	5	found	find	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	50	6	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	50	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	50	8	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	9	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	50	10	synthesized	synthesize	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	50	11	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	50	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	50	13	form	form	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	14	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	50	15	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	17	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	19	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	20	7,18	7,18	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	21	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	22	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	50	23	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	50	24	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	50	25	K	k	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	26	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	50	27	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	28	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	29	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	30	n	n	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	31	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	32	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	33	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	34	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	35	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	36	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	37	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	38	2	2	LS
work_4ncc75ijpnflvf7xsil7kyggcm	50	39	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	50	40	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	41	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	42	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	43	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	44	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	45	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	46	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	47	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	50	48	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	50	49	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	50	50	K	K	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	51	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	52	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	53	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	54	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	55	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	56	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	50	57	n	n	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	58	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	50	59	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	60	parameters	parameter	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	50	61	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	62	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	63	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	50	64	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	50	65	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	66	return	return	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	67	period	period	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	68	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	50	69	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	50	70	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	50	71	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	50	72	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	50	73	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	50	74	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	51	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	51	2	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	51	3	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	51	4	return	return	NN
work_4ncc75ijpnflvf7xsil7kyggcm	51	5	period	period	NN
work_4ncc75ijpnflvf7xsil7kyggcm	51	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	51	7	assuming	assume	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	51	8	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	51	9	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	51	10	K(Tr	K(Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	11	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	12	n	n	RB
work_4ncc75ijpnflvf7xsil7kyggcm	51	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	51	14	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	51	15	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	51	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	51	17	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	18	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	51	19	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	51	20	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	51	21	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	22	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	23	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	24	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	25	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	51	26	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	27	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	28	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	51	29	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	51	30	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	51	31	a	a	FW
work_4ncc75ijpnflvf7xsil7kyggcm	51	32	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	33	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	34	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	35	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	51	36	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	37	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	51	38	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	39	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	51	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	51	41	2.3	2.3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	51	42	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	52	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	52	2	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	52	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	52	4	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	52	5	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	52	6	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	52	7	watershed	watershed	NN
work_4ncc75ijpnflvf7xsil7kyggcm	52	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	52	9	governed	govern	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	52	10	either	either	CC
work_4ncc75ijpnflvf7xsil7kyggcm	52	11	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	52	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	52	13	full	full	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	52	14	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	52	15	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	52	16	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	52	17	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	52	18	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	52	19	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	52	20	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	52	21	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	52	22	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	52	23	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	52	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	53	1	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	2	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	53	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	53	4	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	5	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	6	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	53	7	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	53	8	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	53	9	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	53	10	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	11	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	12	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	53	13	emerges	emerge	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	53	14	when	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	53	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	16	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	53	17	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	18	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	53	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	20	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	21	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	22	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	53	23	before	before	IN
work_4ncc75ijpnflvf7xsil7kyggcm	53	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	25	whole	whole	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	53	26	watershed	watershed	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	27	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	53	28	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	53	29	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	53	30	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	53	31	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	32	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	53	33	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	54	1	Otherwise	otherwise	RB
work_4ncc75ijpnflvf7xsil7kyggcm	54	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	54	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	54	4	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	54	5	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	54	6	governed	govern	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	54	7	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	54	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	54	9	full	full	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	54	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	54	11	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	54	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	55	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	55	2	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	55	4	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	55	5	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	55	7	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	8	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	9	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	10	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	11	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	12	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	13	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	55	14	studied	study	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	55	15	based	base	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	55	16	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	55	17	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	55	18	parameters	parameter	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	55	19	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	55	20	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	55	21	1	1	LS
work_4ncc75ijpnflvf7xsil7kyggcm	55	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	55	23	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	55	24	assumption	assumption	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	25	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	55	26	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	27	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	55	28	either	either	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	29	homogeneous	homogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	30	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	31	heterogeneous	heterogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	32	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	55	33	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	34	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	55	35	2	2	LS
work_4ncc75ijpnflvf7xsil7kyggcm	55	36	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	55	37	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	55	38	assumption	assumption	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	39	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	55	40	losses	loss	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	55	41	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	55	42	either	either	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	43	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	44	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	55	45	proportional	proportional	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	55	46	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	55	47	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	55	48	precipitation	precipitation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	55	49	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	56	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	56	2	heterogeneous	heterogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	56	3	basins	basin	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	56	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	56	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	56	6	scientific	scientific	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	56	7	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	56	8	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	9	20–23	20–23	CD
work_4ncc75ijpnflvf7xsil7kyggcm	56	10	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	11	unambiguously	unambiguously	RB
work_4ncc75ijpnflvf7xsil7kyggcm	56	12	demonstrates	demonstrate	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	56	13	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	56	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	56	15	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	56	16	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	56	17	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	56	18	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	19	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	56	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	21	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	56	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	56	23	often	often	RB
work_4ncc75ijpnflvf7xsil7kyggcm	56	24	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	56	25	different	different	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	56	26	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	56	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	56	28	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	56	29	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	56	30	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	56	31	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	32	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	56	33	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	56	34	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	57	1	Thus	thus	RB
work_4ncc75ijpnflvf7xsil7kyggcm	57	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	57	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	57	4	heterogeneous	heterogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	57	5	basins	basin	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	57	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	57	7	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	57	8	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	57	9	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	57	10	confident	confident	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	57	11	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	57	12	claiming	claim	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	57	13	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	57	14	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	57	15	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	57	16	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	57	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	57	18	different	different	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	57	19	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	57	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	57	21	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	57	22	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	57	23	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	57	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	58	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	58	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	58	3	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	58	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	58	5	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	58	6	discuss	discuss	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	58	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	58	8	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	58	9	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	58	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	58	11	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	58	12	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	58	13	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	58	14	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	58	15	under	under	IN
work_4ncc75ijpnflvf7xsil7kyggcm	58	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	58	17	theoretical	theoretical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	58	18	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	58	19	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	58	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	58	21	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	58	22	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	58	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	59	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	59	2	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	59	3	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	59	4	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	59	5	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	59	6	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	59	7	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	59	8	under	under	IN
work_4ncc75ijpnflvf7xsil7kyggcm	59	9	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	59	10	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	59	11	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	59	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	59	13	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	59	14	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	59	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	60	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	60	2	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	60	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	60	4	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	60	5	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	60	6	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	60	7	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	60	8	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	60	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	60	10	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	60	11	tc	tc	NN
work_4ncc75ijpnflvf7xsil7kyggcm	60	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	61	1	Two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	61	2	cases	case	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	61	3	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	61	4	discussed	discuss	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	61	5	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	61	6	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	61	7	1	1	LS
work_4ncc75ijpnflvf7xsil7kyggcm	61	8	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	61	9	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	61	10	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	61	11	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	61	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	61	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	61	14	2	2	LS
work_4ncc75ijpnflvf7xsil7kyggcm	61	15	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	61	16	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	61	17	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	61	18	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	61	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	62	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	2	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	3	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	62	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	62	5	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	6	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	62	7	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	62	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	62	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	11	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	12	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	13	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	14	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	15	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	17	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	62	21	peak	peak	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	22	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	23	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	24	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	26	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	27	increase	increase	VB
work_4ncc75ijpnflvf7xsil7kyggcm	62	28	up	up	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	29	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	30	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	62	31	end	end	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	32	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	62	33	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	62	34	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	35	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	36	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	62	37	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	38	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	62	39	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	62	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	62	41	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	63	1	At	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	63	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	63	3	instant	instant	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	63	5	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	63	6	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	63	7	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	63	8	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	63	9	fraction	fraction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	63	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	63	12	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	63	15	Ac(td	Ac(td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	63	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	63	17	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	63	18	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	63	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	63	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	63	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	63	22	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	23	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	63	24	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	25	reaches	reach	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	63	26	its	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	63	27	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	63	28	Qp(1	qp(1	NN
work_4ncc75ijpnflvf7xsil7kyggcm	63	29	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	63	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	64	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	64	2	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	3	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	64	4	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	5	up	up	IN
work_4ncc75ijpnflvf7xsil7kyggcm	64	6	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	64	7	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	8	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	64	9	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	64	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	64	12	values	value	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	64	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	64	14	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	15	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	64	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	64	17	Qp(1	Qp(1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	64	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	64	19	remains	remain	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	64	20	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	64	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	65	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	65	2	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	3	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	65	4	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	5	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	65	6	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	7	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	65	8	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	9	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	65	10	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	65	12	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	65	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	65	14	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	65	15	Qp(1	qp(1	LS
work_4ncc75ijpnflvf7xsil7kyggcm	65	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	65	17	decreases	decrease	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	65	18	up	up	RP
work_4ncc75ijpnflvf7xsil7kyggcm	65	19	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	65	20	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	65	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	66	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	66	2	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	66	3	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	66	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	66	5	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	6	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	66	7	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	66	9	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	66	11	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	66	12	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	66	14	increase	increase	VB
work_4ncc75ijpnflvf7xsil7kyggcm	66	15	up	up	RP
work_4ncc75ijpnflvf7xsil7kyggcm	66	16	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	66	17	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	18	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	66	19	Qp(2	Qp(2	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	66	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	66	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	67	1	At	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	67	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	67	3	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	4	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	5	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	67	6	tc	tc	FW
work_4ncc75ijpnflvf7xsil7kyggcm	67	7	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	67	8	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	67	9	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	67	10	end	end	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	11	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	67	12	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	67	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	67	15	all	all	PDT
work_4ncc75ijpnflvf7xsil7kyggcm	67	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	67	17	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	18	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	67	19	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	67	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	67	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	67	22	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	23	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	67	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	67	25	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	67	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	68	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	68	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	68	3	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	68	4	up	up	RP
work_4ncc75ijpnflvf7xsil7kyggcm	68	5	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	68	6	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	68	7	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	68	8	2tc	2tc	NN
work_4ncc75ijpnflvf7xsil7kyggcm	68	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	68	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	68	11	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	68	12	decreases	decrease	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	68	13	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	68	14	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	68	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	69	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	69	2	key	key	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	69	3	point	point	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	4	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	69	5	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	69	6	verify	verify	VB
work_4ncc75ijpnflvf7xsil7kyggcm	69	7	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	69	9	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	69	10	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	11	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	69	13	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	14	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	15	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	16	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	69	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	69	18	greater	great	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	69	19	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	20	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	21	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	22	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	69	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	69	24	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	69	25	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	69	26	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	69	27	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	69	28	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	69	29	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	69	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	70	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	70	2	Qp(1	Qp(1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	70	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	70	4	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	70	5	Qp(2	qp(2	XX
work_4ncc75ijpnflvf7xsil7kyggcm	70	6	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	70	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	70	8	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	70	9	say	say	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	70	10	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	70	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	70	12	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	70	13	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	70	14	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	70	15	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	70	16	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	70	17	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	70	18	otherwise	otherwise	RB
work_4ncc75ijpnflvf7xsil7kyggcm	70	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	70	20	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	70	21	does	do	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	70	22	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	70	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	71	1	Examples	example	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	71	2	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	71	3	real	real	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	71	4	data	datum	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	71	5	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	71	6	presented	present	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	71	7	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	71	8	illustrate	illustrate	VB
work_4ncc75ijpnflvf7xsil7kyggcm	71	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	71	10	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	71	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	72	1	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	72	2	show	show	VB
work_4ncc75ijpnflvf7xsil7kyggcm	72	3	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	4	example	example	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	6	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	7	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	72	8	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	72	9	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	10	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	11	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	13	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	14	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	72	19	let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	72	20	us	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	72	21	consider	consider	VB
work_4ncc75ijpnflvf7xsil7kyggcm	72	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	23	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	24	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	25	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	26	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	27	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	28	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	72	29	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	30	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	31	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	72	32	IN	IN	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	33	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	72	34	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	35	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	72	36	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	37	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	38	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	72	39	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	40	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	72	41	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	72	42	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	43	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	44	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	72	45	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	46	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	47	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	72	48	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	49	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	72	50	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	72	51	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	72	52	urban	urban	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	72	53	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	54	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	72	55	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	56	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	57	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	72	58	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	59	km	km	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	60	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	61	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	72	62	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	63	=	=	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	64	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	65	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	72	66	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	72	67	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	72	68	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	72	69	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	72	70	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	72	71	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	73	1	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	73	2	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	73	3	1.7204	1.7204	CD
work_4ncc75ijpnflvf7xsil7kyggcm	73	4	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	73	5	10)0.1753	10)0.1753	CD
work_4ncc75ijpnflvf7xsil7kyggcm	73	6	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	73	7	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	73	8	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	73	9	0.485	0.485	CD
work_4ncc75ijpnflvf7xsil7kyggcm	73	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	73	11	1.6806	1.6806	CD
work_4ncc75ijpnflvf7xsil7kyggcm	73	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	73	13	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	73	14	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	73	15	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	73	16	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	73	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	73	18	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	73	19	inches	inch	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	73	20	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	73	21	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	73	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	73	23	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	73	24	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	73	25	hours	hour	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	73	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	74	1	Let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	74	2	us	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	74	3	now	now	RB
work_4ncc75ijpnflvf7xsil7kyggcm	74	4	compute	compute	VB
work_4ncc75ijpnflvf7xsil7kyggcm	74	5	Qp	Qp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	6	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	74	7	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	8	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	74	10	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	11	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	74	12	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	13	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	74	14	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	74	15	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	74	17	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	18	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	74	19	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	74	20	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	21	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	74	22	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	23	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	74	24	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	74	25	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	74	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	74	28	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	29	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	30	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	74	31	1.91	1.91	CD
work_4ncc75ijpnflvf7xsil7kyggcm	74	32	inches	inch	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	74	33	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	74	34	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	74	35	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	74	36	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	74	37	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	74	38	equivalent	equivalent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	74	39	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	74	40	0.01348	0.01348	CD
work_4ncc75ijpnflvf7xsil7kyggcm	74	41	mm	mm	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	42	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	74	43	s	s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	74	44	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	75	1	At	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	75	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	75	3	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	75	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	75	5	Ac	Ac	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	75	6	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	75	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	75	8	0.71/1	0.71/1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	75	9	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	75	10	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	75	11	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	75	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	75	13	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	75	14	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	75	15	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	75	16	km	km	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	75	17	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	75	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	75	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	76	1	Applying	apply	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	76	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	76	3	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	4	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	76	6	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	76	7	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	76	8	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	76	9	0.8	0.8	CD
work_4ncc75ijpnflvf7xsil7kyggcm	76	10	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	76	11	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	76	12	Qp(0.71	Qp(0.71	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	76	14	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	76	15	0.8	0.8	CD
work_4ncc75ijpnflvf7xsil7kyggcm	76	16	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	76	17	0.01348	0.01348	CD
work_4ncc75ijpnflvf7xsil7kyggcm	76	18	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	76	19	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	76	20	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	76	21	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	76	22	106/103	106/103	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	76	24	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	76	25	7.65	7.65	CD
work_4ncc75ijpnflvf7xsil7kyggcm	76	26	m3	m3	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	27	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	76	28	s	s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	76	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	77	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	77	2	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	77	3	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	77	4	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	77	5	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	77	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	77	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	77	8	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	77	9	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	77	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	77	11	1.32	1.32	CD
work_4ncc75ijpnflvf7xsil7kyggcm	77	12	inches	inch	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	77	13	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	77	14	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	77	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	77	16	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	77	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	77	18	equivalent	equivalent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	77	19	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	77	20	0.00935	0.00935	CD
work_4ncc75ijpnflvf7xsil7kyggcm	77	21	mm	mm	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	77	22	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	77	23	s	s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	77	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	78	1	At	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	78	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	78	3	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	78	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	78	5	Ac	Ac	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	78	6	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	78	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	78	8	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	78	9	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	78	10	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	78	11	1.0	1.0	CD
work_4ncc75ijpnflvf7xsil7kyggcm	78	12	km2	km2	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	78	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	78	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	79	1	Applying	apply	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	79	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	79	3	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	79	4	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	79	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	79	6	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	79	7	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	79	8	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	79	9	0.8	0.8	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	10	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	79	11	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	79	12	Qp(1	qp(1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	79	14	=	=	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	79	15	0.8	0.8	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	16	×	×	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	17	0.00935	0.00935	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	18	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	79	19	1.0	1.0	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	20	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	79	21	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	79	22	106/103	106/103	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	79	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	79	24	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	79	25	7.48	7.48	CD
work_4ncc75ijpnflvf7xsil7kyggcm	79	26	m3	m3	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	79	27	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	79	28	s	s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	79	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	80	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	80	2	hydrographs	hydrographs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	80	3	used	use	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	80	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	80	5	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	80	6	example	example	NN
work_4ncc75ijpnflvf7xsil7kyggcm	80	7	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	80	8	shown	show	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	80	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	80	10	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	80	11	1A.	1a.	CD
work_4ncc75ijpnflvf7xsil7kyggcm	81	1	It	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	81	2	should	should	MD
work_4ncc75ijpnflvf7xsil7kyggcm	81	3	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	81	4	noted	note	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	81	5	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	81	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	7	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	81	8	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	9	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	81	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	11	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	12	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	81	13	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	81	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	15	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	16	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	17	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	81	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	19	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	20	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	21	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	81	22	Ac	Ac	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	81	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	81	24	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	81	25	71	71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	81	26	%	%	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	27	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	81	28	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	29	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	30	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	31	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	81	32	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	81	33	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	34	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	81	35	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	81	36	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	37	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	38	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	81	39	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	81	40	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	81	41	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	81	42	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	81	43	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	82	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	2	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	3	1B	1b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	82	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	6	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	7	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	8	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	82	9	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	82	11	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	12	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	82	13	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	15	integration	integration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	16	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	18	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	19	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	20	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	21	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	22	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	82	23	illustrated	illustrate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	82	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	82	25	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	82	26	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	27	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	28	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	29	exhibits	exhibit	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	82	30	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	31	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	32	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	33	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	34	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	35	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	82	36	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	82	37	h.	h.	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	82	38	Thus	thus	RB
work_4ncc75ijpnflvf7xsil7kyggcm	82	39	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	82	40	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	41	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	82	42	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	82	43	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	82	44	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	82	45	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	46	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	47	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	48	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	82	49	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	50	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	82	51	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	82	52	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	82	53	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	82	54	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	82	55	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	56	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	82	57	interval	interval	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	82	58	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	82	59	h–1.0	h–1.0	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	60	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	82	61	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	82	62	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	82	63	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	82	64	supposed	suppose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	82	65	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	82	66	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	82	67	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	83	1	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	2	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	83	4	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	83	6	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	7	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	9	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	10	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	11	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	83	13	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	83	15	x	x	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	83	16	FOR	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	17	PEER	PEER	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	18	REVIEW	REVIEW	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	19	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	20	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	21	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	83	23	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	24	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	25	exhibits	exhibit	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	83	26	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	83	27	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	28	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	29	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	30	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	31	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	83	32	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	33	h.	h.	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	83	34	Thus	thus	RB
work_4ncc75ijpnflvf7xsil7kyggcm	83	35	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	83	36	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	83	37	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	83	38	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	83	39	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	83	40	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	83	41	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	42	𝑡	𝑡	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	43	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	83	44	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	45	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	46	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	83	47	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	83	48	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	83	49	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	83	50	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	83	51	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	52	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	83	53	interval	interval	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	83	54	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	83	55	h–1.0	h–1.0	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	56	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	83	57	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	83	58	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	83	59	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	83	60	supposed	suppose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	83	61	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	83	62	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	83	63	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	84	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	84	2	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	84	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	85	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	2	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	85	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	4	Hydrographs	Hydrographs	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	5	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	85	6	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	85	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	85	8	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	85	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	85	11	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	12	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	13	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	85	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	85	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	85	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	20	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	85	21	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	22	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	85	23	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	85	24	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	25	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	85	26	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	27	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	85	28	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	85	29	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	85	31	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	32	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	85	33	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	85	34	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	35	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	36	B	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	38	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	39	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	41	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	42	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	85	43	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	44	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	85	45	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	85	46	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	47	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	48	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	85	49	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	85	50	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	86	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	86	2	both	both	DT
work_4ncc75ijpnflvf7xsil7kyggcm	86	3	graphs	graphs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	86	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	86	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	86	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	86	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	86	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	86	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	86	10	𝑇	𝑇	NN
work_4ncc75ijpnflvf7xsil7kyggcm	86	11	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	86	12	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	86	13	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	86	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	87	1	2.4	2.4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	87	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	88	1	Critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	88	2	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	3	Duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	5	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	6	Given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	88	7	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	8	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	10	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	11	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	12	Conceptual	Conceptual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	13	Framework	Framework	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	14	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	15	idea	idea	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	16	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	88	17	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	88	18	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	88	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	88	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	21	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	22	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	88	23	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	24	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	88	26	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	28	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	29	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	30	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	31	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	88	32	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	33	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	34	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	88	35	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	36	reaches	reach	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	88	37	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	38	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	88	39	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	88	41	𝑄	𝑄	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	42	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	88	43	𝑡	𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	88	44	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	88	45	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	88	46	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	88	47	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	88	48	finite	finite	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	88	49	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	88	50	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	89	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	89	2	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	89	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	89	4	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	89	5	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	89	6	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	89	7	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	89	8	denoted	denote	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	89	9	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	89	10	𝑡∗	𝑡∗	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	89	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	90	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	90	2	𝑡∗	𝑡∗	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	90	3	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	90	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	90	5	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	90	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	90	7	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	90	8	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	90	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	90	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	90	11	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	90	12	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	90	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	90	14	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	90	15	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	90	16	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	90	17	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	90	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	90	19	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	90	20	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	90	21	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	90	22	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	90	23	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	90	24	𝑡	𝑡	XX
work_4ncc75ijpnflvf7xsil7kyggcm	90	25	∗	∗	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	90	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	91	1	Then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	91	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	91	3	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	91	4	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	91	5	looking	look	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	91	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	91	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	91	8	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	91	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	91	11	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	12	𝑄	𝑄	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	14	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	15	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	16	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	91	17	𝐶(𝑎/(𝑡	𝐶(𝑎/(𝑡	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	91	18	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	91	19	𝑏	𝑏	LS
work_4ncc75ijpnflvf7xsil7kyggcm	91	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	21	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	22	𝐴	𝐴	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	23	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	24	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	91	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	91	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	91	27	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	91	28	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	91	29	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	91	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	92	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	92	2	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	92	3	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	92	4	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	92	5	conceptualized	conceptualize	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	92	6	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	92	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	92	8	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	92	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	92	10	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	92	11	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	92	12	sufficiently	sufficiently	RB
work_4ncc75ijpnflvf7xsil7kyggcm	92	13	long	long	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	92	14	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	92	15	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	92	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	92	17	Figure	Figure	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	92	18	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	92	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	92	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	93	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	93	2	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	93	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	93	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	93	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	93	6	𝐴	𝐴	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	93	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	93	8	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	93	9	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	93	10	increases	increase	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	93	11	linearly	linearly	RB
work_4ncc75ijpnflvf7xsil7kyggcm	93	12	along	along	IN
work_4ncc75ijpnflvf7xsil7kyggcm	93	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	93	14	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	93	15	𝑡	𝑡	CD
work_4ncc75ijpnflvf7xsil7kyggcm	93	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	94	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	94	2	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	94	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	4	used	use	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	94	5	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	94	6	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	7	𝐿	𝐿	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	94	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	94	9	width	width	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	10	𝑊	𝑊	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	94	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	94	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	14	𝐴	𝐴	NN
work_4ncc75ijpnflvf7xsil7kyggcm	94	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	95	1	During	during	IN
work_4ncc75ijpnflvf7xsil7kyggcm	95	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	95	3	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	4	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	95	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	95	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	8	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	95	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	95	10	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	11	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	95	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	95	13	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	95	14	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	15	𝑖	𝑖	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	95	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	95	18	obtained	obtain	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	95	19	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	95	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	95	21	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	95	22	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	95	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	96	1	Let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	96	2	𝐿𝑐(𝑡	𝐿𝑐(𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	96	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	96	4	denote	denote	VB
work_4ncc75ijpnflvf7xsil7kyggcm	96	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	96	6	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	96	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	96	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	96	9	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	96	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	96	11	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	96	12	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	96	13	𝑡.	𝑡.	.
work_4ncc75ijpnflvf7xsil7kyggcm	97	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	97	2	flow	flow	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	3	velocity	velocity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	97	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	97	6	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	7	direction	direction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	97	9	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	97	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	97	11	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	97	12	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	97	13	𝑣	𝑣	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	97	15	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	97	16	assumed	assume	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	97	17	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	97	18	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	97	19	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	97	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	97	21	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	97	22	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	97	23	𝐿/𝑡	𝐿/𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	97	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	97	25	so	so	CC
work_4ncc75ijpnflvf7xsil7kyggcm	97	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	97	27	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	97	28	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	97	29	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	97	30	5	5	LS
work_4ncc75ijpnflvf7xsil7kyggcm	97	31	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	97	32	𝐿𝑐(𝑡	𝐿𝑐(𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	97	33	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	97	34	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	97	35	𝑣	𝑣	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	36	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	37	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	97	38	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	97	39	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	97	40	𝑡.	𝑡.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	98	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	98	2	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	98	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	99	1	Conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	99	2	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	99	3	homogeneous	homogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	99	4	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	99	5	used	use	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	99	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	99	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	99	8	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	99	9	formulation	formulation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	99	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	99	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	99	12	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	99	13	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	99	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	100	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	100	2	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	100	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	101	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	2	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	101	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	4	Hydrographs	Hydrographs	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	5	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	101	6	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	101	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	101	8	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	101	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	101	11	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	12	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	13	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	101	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	101	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	101	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	20	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	101	21	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	22	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	101	23	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	101	24	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	25	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	101	26	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	27	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	101	28	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	101	29	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	101	31	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	32	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	101	33	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	101	34	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	35	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	36	B	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	38	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	39	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	41	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	42	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	101	43	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	44	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	101	45	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	101	46	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	47	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	48	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	101	49	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	101	50	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	102	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	102	2	both	both	DT
work_4ncc75ijpnflvf7xsil7kyggcm	102	3	graphs	graphs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	102	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	102	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	102	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	102	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	102	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	102	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	102	10	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	102	11	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	102	12	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	102	13	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	102	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	103	1	2.4	2.4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	103	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	104	1	Critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	104	2	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	3	Duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	5	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	6	Given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	104	7	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	8	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	10	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	11	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	12	Conceptual	Conceptual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	13	Framework	Framework	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	14	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	15	idea	idea	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	16	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	104	17	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	104	18	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	104	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	104	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	21	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	22	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	104	23	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	24	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	104	26	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	28	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	29	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	30	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	31	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	104	32	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	33	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	34	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	104	35	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	36	reaches	reach	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	104	37	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	38	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	104	39	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	104	41	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	104	42	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	104	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	104	44	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	104	45	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	104	46	finite	finite	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	104	47	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	104	48	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	105	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	105	2	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	105	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	105	4	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	105	5	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	105	6	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	105	7	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	105	8	denoted	denote	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	105	9	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	105	10	t∗.	t∗.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	106	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	106	2	t∗	t∗	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	106	3	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	106	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	106	5	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	106	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	106	7	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	106	8	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	106	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	106	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	106	11	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	106	12	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	106	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	106	14	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	106	15	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	106	16	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	106	17	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	106	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	106	19	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	106	20	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	106	21	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	106	22	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	106	23	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	106	24	t∗.	t∗.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	107	1	Then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	107	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	107	3	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	107	4	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	107	5	looking	look	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	107	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	107	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	107	8	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	107	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	107	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	107	11	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	107	12	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	107	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	107	14	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	107	15	C(a/(td	c(a/(td	NN
work_4ncc75ijpnflvf7xsil7kyggcm	107	16	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	107	17	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	107	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	107	19	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	107	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	107	21	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	107	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	107	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	107	24	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	107	25	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	107	26	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	107	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	108	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	108	2	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	108	3	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	108	4	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	108	5	conceptualized	conceptualize	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	108	6	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	108	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	108	8	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	108	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	108	10	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	108	11	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	108	12	sufficiently	sufficiently	RB
work_4ncc75ijpnflvf7xsil7kyggcm	108	13	long	long	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	108	14	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	108	15	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	108	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	108	17	Figure	Figure	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	108	18	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	108	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	108	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	109	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	109	2	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	109	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	109	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	109	6	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	109	7	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	109	8	increases	increase	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	109	9	linearly	linearly	RB
work_4ncc75ijpnflvf7xsil7kyggcm	109	10	along	along	IN
work_4ncc75ijpnflvf7xsil7kyggcm	109	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	109	12	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	13	t.	t.	.
work_4ncc75ijpnflvf7xsil7kyggcm	109	14	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	109	15	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	109	16	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	17	used	use	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	109	18	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	109	19	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	20	L	l	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	109	22	width	width	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	23	W	w	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	109	25	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	109	26	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	109	27	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	109	28	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	110	1	During	during	IN
work_4ncc75ijpnflvf7xsil7kyggcm	110	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	110	3	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	4	td	td	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	110	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	110	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	8	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	110	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	110	10	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	11	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	110	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	110	13	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	110	14	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	15	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	110	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	110	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	110	18	obtained	obtain	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	110	19	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	110	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	110	21	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	110	22	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	110	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	111	1	Let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	111	2	Lc(t	Lc(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	4	denote	denote	VB
work_4ncc75ijpnflvf7xsil7kyggcm	111	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	6	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	9	contributing	contributing	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	11	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	12	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	13	t.	t.	.
work_4ncc75ijpnflvf7xsil7kyggcm	111	14	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	15	flow	flow	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	16	velocity	velocity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	17	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	19	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	20	direction	direction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	22	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	111	23	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	111	24	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	111	25	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	26	v	v	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	27	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	28	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	111	29	assumed	assume	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	111	30	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	111	31	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	111	32	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	111	33	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	111	34	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	111	35	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	36	L	l	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	37	/	/	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	111	38	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	39	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	40	so	so	CC
work_4ncc75ijpnflvf7xsil7kyggcm	111	41	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	42	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	43	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	44	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	45	5	5	LS
work_4ncc75ijpnflvf7xsil7kyggcm	111	46	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	47	Lc(t	Lc(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	48	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	49	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	111	50	v	v	LS
work_4ncc75ijpnflvf7xsil7kyggcm	111	51	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	52	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	53	=	=	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	54	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	55	L	L	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	56	tc	tc	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	57	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	111	58	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	111	59	t.	t.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	60	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	61	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	62	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	63	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	64	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	65	x	x	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	111	66	FOR	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	67	PEER	PEER	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	68	REVIEW	REVIEW	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	69	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	70	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	71	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	72	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	73	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	74	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	75	exhibits	exhibit	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	111	76	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	77	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	78	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	79	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	80	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	81	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	111	82	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	83	h.	h.	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	111	84	Thus	thus	RB
work_4ncc75ijpnflvf7xsil7kyggcm	111	85	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	111	86	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	87	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	111	88	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	111	89	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	111	90	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	111	91	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	92	𝑡	𝑡	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	93	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	111	94	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	95	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	96	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	111	97	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	111	98	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	111	99	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	111	100	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	111	101	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	102	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	111	103	interval	interval	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	111	104	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	111	105	h–1.0	h–1.0	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	106	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	111	107	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	111	108	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	111	109	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	111	110	supposed	suppose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	111	111	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	111	112	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	111	113	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	112	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	112	2	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	112	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	113	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	2	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	113	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	4	Hydrographs	Hydrographs	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	5	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	113	6	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	113	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	113	8	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	113	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	113	11	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	12	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	13	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	113	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	113	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	113	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	20	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	113	21	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	22	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	113	23	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	113	24	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	25	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	113	26	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	27	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	113	28	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	113	29	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	113	31	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	32	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	113	33	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	113	34	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	35	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	36	B	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	38	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	39	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	41	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	42	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	113	43	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	44	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	113	45	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	113	46	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	47	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	48	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	113	49	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	113	50	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	114	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	114	2	both	both	DT
work_4ncc75ijpnflvf7xsil7kyggcm	114	3	graphs	graphs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	114	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	114	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	114	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	114	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	114	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	114	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	114	10	𝑇	𝑇	NN
work_4ncc75ijpnflvf7xsil7kyggcm	114	11	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	114	12	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	114	13	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	114	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	115	1	2.4	2.4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	115	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	116	1	Critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	116	2	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	3	Duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	5	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	6	Given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	116	7	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	8	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	10	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	11	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	12	Conceptual	Conceptual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	13	Framework	Framework	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	14	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	15	idea	idea	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	16	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	116	17	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	116	18	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	116	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	116	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	21	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	22	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	116	23	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	24	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	116	26	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	28	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	29	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	30	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	31	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	116	32	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	33	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	34	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	116	35	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	36	reaches	reach	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	116	37	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	38	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	116	39	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	40	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	116	41	𝑄	𝑄	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	42	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	116	43	𝑡	𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	116	44	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	116	45	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	116	46	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	116	47	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	116	48	finite	finite	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	116	49	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	116	50	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	117	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	117	2	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	117	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	117	4	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	117	5	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	117	6	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	117	7	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	117	8	denoted	denote	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	117	9	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	117	10	𝑡∗	𝑡∗	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	117	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	118	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	118	2	𝑡∗	𝑡∗	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	118	3	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	118	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	118	5	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	118	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	118	7	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	118	8	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	118	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	118	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	118	11	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	118	12	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	118	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	118	14	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	118	15	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	118	16	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	118	17	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	118	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	118	19	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	118	20	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	118	21	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	118	22	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	118	23	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	118	24	𝑡	𝑡	XX
work_4ncc75ijpnflvf7xsil7kyggcm	118	25	∗	∗	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	118	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	119	1	Then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	119	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	119	3	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	119	4	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	119	5	looking	look	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	119	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	119	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	119	8	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	119	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	119	11	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	12	𝑄	𝑄	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	14	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	15	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	16	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	119	17	𝐶(𝑎/(𝑡	𝐶(𝑎/(𝑡	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	119	18	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	119	19	𝑏	𝑏	LS
work_4ncc75ijpnflvf7xsil7kyggcm	119	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	21	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	22	𝐴	𝐴	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	23	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	24	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	119	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	119	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	119	27	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	119	28	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	119	29	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	119	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	120	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	120	2	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	120	3	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	120	4	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	120	5	conceptualized	conceptualize	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	120	6	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	120	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	120	8	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	120	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	120	10	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	120	11	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	120	12	sufficiently	sufficiently	RB
work_4ncc75ijpnflvf7xsil7kyggcm	120	13	long	long	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	120	14	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	120	15	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	120	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	120	17	Figure	Figure	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	120	18	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	120	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	120	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	121	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	121	2	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	121	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	121	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	121	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	121	6	𝐴	𝐴	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	121	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	121	8	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	121	9	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	121	10	increases	increase	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	121	11	linearly	linearly	RB
work_4ncc75ijpnflvf7xsil7kyggcm	121	12	along	along	IN
work_4ncc75ijpnflvf7xsil7kyggcm	121	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	121	14	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	121	15	𝑡	𝑡	CD
work_4ncc75ijpnflvf7xsil7kyggcm	121	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	122	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	122	2	rectangular	rectangular	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	122	3	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	4	used	use	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	122	5	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	122	6	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	7	𝐿	𝐿	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	122	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	122	9	width	width	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	10	𝑊	𝑊	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	122	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	122	13	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	14	𝐴	𝐴	NN
work_4ncc75ijpnflvf7xsil7kyggcm	122	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	123	1	During	during	IN
work_4ncc75ijpnflvf7xsil7kyggcm	123	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	123	3	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	4	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	123	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	123	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	8	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	123	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	123	10	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	11	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	123	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	123	13	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	123	14	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	15	𝑖	𝑖	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	123	17	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	123	18	obtained	obtain	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	123	19	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	123	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	123	21	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	123	22	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	123	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	124	1	Let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	124	2	𝐿𝑐(𝑡	𝐿𝑐(𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	124	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	124	4	denote	denote	VB
work_4ncc75ijpnflvf7xsil7kyggcm	124	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	124	6	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	124	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	124	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	124	9	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	124	10	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	124	11	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	124	12	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	124	13	𝑡.	𝑡.	.
work_4ncc75ijpnflvf7xsil7kyggcm	125	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	125	2	flow	flow	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	3	velocity	velocity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	125	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	125	6	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	7	direction	direction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	125	9	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	125	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	125	11	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	125	12	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	125	13	𝑣	𝑣	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	125	15	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	125	16	assumed	assume	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	125	17	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	125	18	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	125	19	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	125	20	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	125	21	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	125	22	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	125	23	𝐿/𝑡	𝐿/𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	125	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	125	25	so	so	CC
work_4ncc75ijpnflvf7xsil7kyggcm	125	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	125	27	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	125	28	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	125	29	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	125	30	5	5	LS
work_4ncc75ijpnflvf7xsil7kyggcm	125	31	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	125	32	𝐿𝑐(𝑡	𝐿𝑐(𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	125	33	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	125	34	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	125	35	𝑣	𝑣	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	36	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	37	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	125	38	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	125	39	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	125	40	𝑡.	𝑡.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	126	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	126	2	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	126	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	127	1	Conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	127	2	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	127	3	homogeneous	homogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	127	4	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	127	5	used	use	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	127	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	127	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	127	8	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	127	9	formulation	formulation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	127	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	127	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	127	12	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	127	13	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	127	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	128	1	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	128	2	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	128	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	129	1	Conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	129	2	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	129	3	homogeneous	homogeneous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	129	4	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	129	5	used	use	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	129	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	129	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	129	8	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	129	9	formulation	formulation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	129	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	129	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	129	12	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	129	13	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	129	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	130	1	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	130	2	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	130	4	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	130	6	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	7	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	130	9	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	10	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	130	11	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	130	12	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	130	13	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	130	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	130	15	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	130	16	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	130	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	130	18	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	130	19	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	130	20	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	130	21	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	130	22	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	130	23	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	130	24	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	130	25	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	130	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	130	27	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	130	29	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	130	30	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	130	31	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	130	32	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	130	33	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	131	1	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	2	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	3	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	131	4	Lc(t	Lc(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	5	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	6	×	×	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	131	7	W	w	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	8	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	131	9	L	l	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	10	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	131	11	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	12	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	13	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	14	W	W	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	15	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	131	16	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	17	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	18	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	19	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	131	21	f	f	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	22	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	131	23	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	24	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	131	25	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	27	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	131	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	29	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	131	30	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	31	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	32	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	131	33	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	131	34	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	35	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	36	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	131	37	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	38	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	39	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	131	40	Lc(t	Lc(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	41	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	42	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	131	43	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	131	44	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	45	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	131	46	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	131	47	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	131	48	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	131	49	W	w	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	50	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	131	51	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	131	52	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	53	wide	wide	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	131	54	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	131	55	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	131	56	L	l	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	57	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	131	58	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	131	59	length	length	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	60	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	131	61	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	131	62	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	131	63	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	132	1	When	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	132	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	3	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	4	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	5	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	6	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	132	7	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	9	all	all	PDT
work_4ncc75ijpnflvf7xsil7kyggcm	132	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	11	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	12	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	132	13	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	132	14	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	16	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	17	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	18	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	19	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	20	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	21	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	132	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	24	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	132	25	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	26	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	27	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	132	28	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	29	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	30	f	f	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	31	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	132	32	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	33	≥	≥	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	34	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	35	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	36	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	132	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	38	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	39	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	40	7	7	LS
work_4ncc75ijpnflvf7xsil7kyggcm	132	41	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	42	estimates	estimate	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	132	43	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	44	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	45	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	46	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	47	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	48	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	49	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	50	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	51	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	52	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	53	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	54	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	55	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	132	56	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	57	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	58	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	132	59	×	×	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	132	60	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	61	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	62	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	63	7	7	LS
work_4ncc75ijpnflvf7xsil7kyggcm	132	64	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	65	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	132	66	Qp(t	Qp(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	67	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	68	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	132	69	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	70	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	71	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	72	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	73	mouth	mouth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	74	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	75	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	76	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	77	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	78	time	time	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	79	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	80	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	81	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	132	82	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	132	83	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	84	mean	mean	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	132	85	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	86	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	87	during	during	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	88	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	89	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	90	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	91	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	92	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	132	93	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	132	94	calculated	calculate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	132	95	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	96	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	97	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	98	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	99	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	132	100	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	132	101	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	132	102	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	132	103	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	132	104	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	105	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	132	106	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	107	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	108	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	109	t.	t.	.
work_4ncc75ijpnflvf7xsil7kyggcm	132	110	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	132	111	developed	develop	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	132	112	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	113	analytical	analytical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	132	114	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	115	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	132	116	estimating	estimate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	132	117	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	132	118	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	132	119	t∗.	t∗.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	133	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	133	2	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	133	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	133	4	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	133	5	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	133	6	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	133	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	133	8	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	133	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	133	10	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	133	11	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	133	12	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	133	13	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	133	14	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	133	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	134	1	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	134	2	calculate	calculate	VB
work_4ncc75ijpnflvf7xsil7kyggcm	134	3	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	134	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	134	6	derivative	derivative	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	7	dQ(t)/dt	dq(t)/dt	CC
work_4ncc75ijpnflvf7xsil7kyggcm	134	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	134	9	set	set	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	134	10	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	134	11	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	134	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	134	13	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	134	14	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	134	15	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	16	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	134	17	solved	solve	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	134	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	134	19	t.	t.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	20	Substituting	substitute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	134	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	134	22	data	datum	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	134	23	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	134	24	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	134	25	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	26	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	134	27	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	28	into	into	IN
work_4ncc75ijpnflvf7xsil7kyggcm	134	29	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	134	30	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	31	7	7	LS
work_4ncc75ijpnflvf7xsil7kyggcm	134	32	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	33	results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	134	34	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	134	35	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	134	36	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	37	8)	8)	CD
work_4ncc75ijpnflvf7xsil7kyggcm	134	38	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	134	39	Q(t	q(t	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	134	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	41	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	134	42	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	43	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	44	a	a	FW
work_4ncc75ijpnflvf7xsil7kyggcm	134	45	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	46	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	47	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	134	48	b)c	b)c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	49	v	v	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	50	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	51	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	52	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	53	W	w	NN
work_4ncc75ijpnflvf7xsil7kyggcm	134	54	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	134	55	8)	8)	CD
work_4ncc75ijpnflvf7xsil7kyggcm	134	56	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	134	57	symbols	symbol	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	134	58	were	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	134	59	as	as	RB
work_4ncc75ijpnflvf7xsil7kyggcm	134	60	previously	previously	RB
work_4ncc75ijpnflvf7xsil7kyggcm	134	61	defined	define	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	134	62	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	135	1	Equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	2	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	3	8)	8)	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	4	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	135	5	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	135	6	rewritten	rewrite	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	135	7	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	9	form	form	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	11	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	13	9	9	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	14	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	15	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	135	16	Q(t	q(t	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	135	17	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	18	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	135	19	J	J	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	20	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	21	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	22	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	23	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	24	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	135	25	b)c	b)c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	27	9	9	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	29	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	135	30	J	J	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	31	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	135	32	C	C	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	33	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	34	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	35	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	36	v	v	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	37	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	135	38	W.	W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	39	Taking	take	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	135	40	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	41	derivative	derivative	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	42	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	43	Q(t	Q(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	44	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	45	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	46	respect	respect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	47	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	48	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	49	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	135	50	making	make	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	135	51	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	135	52	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	135	53	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	54	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	55	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	135	56	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	135	57	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	58	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	59	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	60	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	135	61	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	135	62	dQ(t	dq(t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	63	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	64	dt	dt	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	65	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	135	66	J	J	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	67	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	68	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	69	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	135	70	b)c	b)c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	71	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	72	J	J	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	73	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	74	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	75	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	76	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	77	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	78	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	79	+	+	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	80	b)c(t	b)c(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	81	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	135	82	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	83	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	84	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	135	85	0	0	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	135	86	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	87	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	88	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	89	solving	solve	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	135	90	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	91	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	92	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	93	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	94	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	95	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	96	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	97	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	135	98	denoting	denote	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	135	99	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	100	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	101	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	102	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	103	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	104	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	105	t∗	t∗	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	135	106	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	135	107	t∗	t∗	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	135	108	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	135	109	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	110	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	111	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	112	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	135	113	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	114	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	115	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	116	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	117	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	118	It	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	135	119	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	135	120	clear	clear	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	135	121	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	122	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	123	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	124	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	125	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	126	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	127	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	128	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	135	129	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	130	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	131	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	132	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	135	133	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	135	134	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	135	135	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	136	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	137	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	135	138	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	135	139	real	real	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	135	140	domain	domain	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	141	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	135	142	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	135	143	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	135	144	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	135	145	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	135	146	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	136	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	136	2	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	136	3	≤	≤	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	136	4	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	136	5	there	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	136	6	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	136	7	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	136	8	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	136	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	136	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	136	11	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	136	12	domain	domain	NN
work_4ncc75ijpnflvf7xsil7kyggcm	136	13	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	136	14	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	136	15	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	136	16	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	136	17	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	136	18	shows	show	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	136	19	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	136	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	136	21	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	136	22	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	136	23	maximum	maximum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	136	24	discharge	discharge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	136	25	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	136	26	infinite	infinite	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	136	27	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	136	28	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	136	29	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	136	30	∞	∞	NN
work_4ncc75ijpnflvf7xsil7kyggcm	136	31	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	136	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	137	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	137	2	conclusion	conclusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	137	4	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	137	5	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	137	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	137	7	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	137	9	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	137	10	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	11	analyzed	analyze	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	137	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	137	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	137	14	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	137	15	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	137	16	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	17	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	18	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	137	19	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	137	20	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	137	21	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	137	22	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	137	23	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	137	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	138	1	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	138	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	138	3	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	138	4	hand	hand	NN
work_4ncc75ijpnflvf7xsil7kyggcm	138	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	138	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	138	7	existence	existence	NN
work_4ncc75ijpnflvf7xsil7kyggcm	138	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	138	9	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	138	10	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	138	11	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	138	12	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	138	13	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	138	14	when	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	138	15	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	138	16	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	138	17	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	138	18	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	138	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	138	20	property	property	NN
work_4ncc75ijpnflvf7xsil7kyggcm	138	21	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	138	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	138	23	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	138	24	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	138	25	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	138	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	139	1	Two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	139	2	situations	situation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	139	3	emerge	emerge	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	139	4	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	139	5	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	139	6	1	1	LS
work_4ncc75ijpnflvf7xsil7kyggcm	139	7	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	139	8	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	9	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	139	10	inside	inside	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	12	field	field	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	15	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	16	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	18	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	139	19	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	139	21	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	22	shown	show	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	139	23	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	24	Figure	Figure	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	139	25	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	139	26	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	139	27	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	139	28	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	139	29	2	2	LS
work_4ncc75ijpnflvf7xsil7kyggcm	139	30	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	139	31	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	32	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	33	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	139	34	beyond	beyond	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	35	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	36	limit	limit	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	37	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	38	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	39	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	139	40	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	139	41	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	139	42	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	139	43	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	140	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	2	second	second	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	140	3	situation	situation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	4	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	140	5	shown	show	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	140	6	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	8	example	example	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	9	below	below	RB
work_4ncc75ijpnflvf7xsil7kyggcm	140	10	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	12	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	13	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	15	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	16	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	18	IN	IN	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	20	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	21	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	22	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	23	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	25	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	140	26	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	140	27	also	also	RB
work_4ncc75ijpnflvf7xsil7kyggcm	140	28	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	140	29	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	30	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	31	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	140	32	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	33	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	34	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	35	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	36	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	37	under	under	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	38	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	39	same	same	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	140	40	basin	basin	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	41	conditions	condition	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	140	42	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	43	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	44	previous	previous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	140	45	example	example	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	46	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	47	Ab	Ab	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	48	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	140	49	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	50	km	km	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	51	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	52	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	53	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	54	=	=	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	55	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	56	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	57	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	140	58	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	59	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	140	60	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	61	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	140	62	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	63	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	140	64	i	i	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	140	65	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	140	66	2.003	2.003	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	67	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	68	10)0.1655	10)0.1655	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	69	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	70	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	71	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	140	72	0.516	0.516	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	73	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	74	1.4643	1.4643	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	75	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	76	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	77	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	78	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	79	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	80	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	81	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	82	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	83	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	84	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	85	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	86	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	87	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	88	hydrographs	hydrograph	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	140	89	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	90	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	140	91	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	92	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	93	applied	apply	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	140	94	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	95	three	three	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	96	different	different	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	140	97	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	140	98	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	99	0.5	0.5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	100	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	101	0.7	0.7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	102	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	140	103	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	140	104	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	140	105	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	140	106	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	140	107	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	140	108	illustrated	illustrate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	140	109	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	140	110	Figure	Figure	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	140	111	3A.	3a.	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	1	Although	although	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	2	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	3	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	141	4	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	141	6	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	8	decreasing	decrease	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	141	9	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	141	10	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	141	11	part	part	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	12	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	14	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	15	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	141	17	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	18	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	141	19	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	20	∗	∗	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	21	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	141	22	1.1	1.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	23	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	24	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	141	25	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	141	26	after	after	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	28	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	29	limit	limit	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	30	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	31	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	32	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	33	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	34	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	141	35	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	36	3B	3b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	141	38	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	141	39	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	40	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	141	41	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	141	42	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	43	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	44	occurs	occur	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	141	45	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	46	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	141	47	hydrographs	hydrographs	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	141	48	independent	independent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	141	49	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	50	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	141	51	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	52	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	141	53	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	54	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	141	55	chosen	choose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	141	56	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	141	57	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	58	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	59	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	141	60	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	61	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	141	62	x	x	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	141	63	FOR	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	64	PEER	PEER	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	65	REVIEW	REVIEW	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	141	66	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	67	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	141	68	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	69	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	141	70	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	141	71	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	142	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	2	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	142	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	4	Hydrographs	Hydrographs	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	5	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	142	6	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	142	8	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	142	11	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	12	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	13	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	142	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	20	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	142	21	𝑡	𝑡	POS
work_4ncc75ijpnflvf7xsil7kyggcm	142	22	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	142	23	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	24	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	142	25	0.5	0.5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	142	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	142	27	0.7	0.7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	142	28	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	142	29	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	142	30	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	31	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	142	32	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	33	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	142	34	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	142	35	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	36	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	37	B	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	38	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	39	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	40	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	41	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	42	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	142	44	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	45	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	142	46	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	142	47	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	48	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	49	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	142	50	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	142	51	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	143	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	143	2	both	both	DT
work_4ncc75ijpnflvf7xsil7kyggcm	143	3	graphs	graphs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	143	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	143	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	143	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	143	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	143	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	143	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	143	10	𝑇	𝑇	NN
work_4ncc75ijpnflvf7xsil7kyggcm	143	11	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	143	12	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	143	13	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	143	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	144	1	3	3	LS
work_4ncc75ijpnflvf7xsil7kyggcm	144	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	145	1	Results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	145	2	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	145	3	Discussions	discussion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	145	4	3.1	3.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	145	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	146	1	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	3	Consistency	Consistency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	6	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	7	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	146	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	9	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	10	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	146	11	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	12	Effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	13	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	15	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	146	16	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	17	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	18	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	146	19	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	146	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	146	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	22	depth	depth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	23	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	146	24	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	25	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	146	26	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	27	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	28	must	must	MD
work_4ncc75ijpnflvf7xsil7kyggcm	146	29	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	146	30	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	31	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	146	32	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	33	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	146	34	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	35	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	146	36	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	37	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	38	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	39	13	13	CD
work_4ncc75ijpnflvf7xsil7kyggcm	146	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	41	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	146	42	𝐷𝐷𝐹	𝐷𝐷𝐹	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	43	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	44	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	45	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	46	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	146	47	𝐼𝐷𝐹	𝐼𝐷𝐹	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	48	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	49	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	50	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	51	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	146	52	𝑡	𝑡	XX
work_4ncc75ijpnflvf7xsil7kyggcm	146	53	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	146	54	𝐼𝐷𝐹(𝑡	𝐼𝐷𝐹(𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	55	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	56	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	146	57	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	58	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	146	59	𝐷𝐷𝐹(𝑡	𝐷𝐷𝐹(𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	60	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	61	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	62	13	13	CD
work_4ncc75ijpnflvf7xsil7kyggcm	146	63	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	146	64	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	65	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	66	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	67	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	146	68	𝑡	𝑡	XX
work_4ncc75ijpnflvf7xsil7kyggcm	146	69	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	70	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	71	field	field	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	72	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	73	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	74	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	75	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	146	76	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	146	77	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	146	78	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	146	79	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	147	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	2	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	3	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	5	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	6	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	8	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	9	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	147	11	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	147	12	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	13	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	15	14	14	CD
work_4ncc75ijpnflvf7xsil7kyggcm	147	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	17	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	147	18	𝐷𝐷𝐹(𝑡	𝐷𝐷𝐹(𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	20	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	147	21	𝐼𝐷𝐹(𝑡	𝐼𝐷𝐹(𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	23	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	147	24	𝑡	𝑡	XX
work_4ncc75ijpnflvf7xsil7kyggcm	147	25	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	147	26	𝑎(𝑡	𝑎(𝑡	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	27	+	+	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	147	28	𝑏	𝑏	LS
work_4ncc75ijpnflvf7xsil7kyggcm	147	29	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	30	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	31	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	32	14	14	CD
work_4ncc75ijpnflvf7xsil7kyggcm	147	33	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	34	Making	make	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	147	35	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	36	𝐷𝐷𝐹(𝑡	𝐷𝐷𝐹(𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	38	derivative	derivative	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	147	39	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	147	40	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	41	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	147	42	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	147	43	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	147	44	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	147	45	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	46	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	147	47	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	147	48	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	49	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	50	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	147	51	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	147	52	found	find	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	147	53	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	147	54	𝑡	𝑡	LS
work_4ncc75ijpnflvf7xsil7kyggcm	147	55	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	147	56	𝑏(𝑐	𝑏(𝑐	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	57	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	58	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	147	59	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	60	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	61	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	147	62	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	147	63	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	147	64	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	65	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	147	66	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	67	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	68	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	147	69	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	70	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	71	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	147	72	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	73	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	74	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	147	75	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	147	76	𝑏	𝑏	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	77	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	147	78	𝑐	𝑐	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	79	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	147	80	parameters	parameter	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	147	81	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	147	82	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	147	83	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	147	84	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	147	85	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	148	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	148	2	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	148	3	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	148	4	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	148	5	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	148	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	148	7	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	148	8	conclude	conclude	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	148	9	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	148	10	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	148	11	𝑐	𝑐	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	148	12	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	13	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	148	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	148	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	148	16	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	148	17	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	18	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	148	19	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	148	20	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	21	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	148	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	148	23	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	148	24	side	side	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	25	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	148	26	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	148	27	𝑡	𝑡	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	28	axis	axis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	148	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	149	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	149	2	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	149	3	incompatible	incompatible	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	149	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	149	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	149	6	requirement	requirement	NN
work_4ncc75ijpnflvf7xsil7kyggcm	149	7	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	149	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	149	9	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	149	10	should	should	MD
work_4ncc75ijpnflvf7xsil7kyggcm	149	11	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	149	12	crescent	crescent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	149	13	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	149	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	149	15	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	149	16	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	149	17	axis	axi	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	149	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	150	1	So	so	RB
work_4ncc75ijpnflvf7xsil7kyggcm	150	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	150	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	150	4	𝑐	𝑐	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	150	5	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	150	6	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	150	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	150	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	150	9	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	150	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	150	11	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	150	12	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	150	13	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	150	14	𝑡	𝑡	CD
work_4ncc75ijpnflvf7xsil7kyggcm	150	15	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	150	16	𝑏/(𝑐	𝑏/(𝑐	NN
work_4ncc75ijpnflvf7xsil7kyggcm	150	17	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	150	18	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	150	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	150	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	151	1	With	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	151	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	151	3	result	result	NN
work_4ncc75ijpnflvf7xsil7kyggcm	151	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	151	5	place	place	NN
work_4ncc75ijpnflvf7xsil7kyggcm	151	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	151	7	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	151	8	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	151	9	now	now	RB
work_4ncc75ijpnflvf7xsil7kyggcm	151	10	ask	ask	VB
work_4ncc75ijpnflvf7xsil7kyggcm	151	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	151	12	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	151	13	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	151	14	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	151	15	limitations	limitation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	151	16	inserted	insert	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	151	17	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	151	18	hydrologic	hydrologic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	151	19	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	151	20	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	151	21	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	152	1	Furthermore	furthermore	RB
work_4ncc75ijpnflvf7xsil7kyggcm	152	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	152	3	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	152	4	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	152	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	152	6	how	how	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	152	7	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	152	8	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	152	9	results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	152	10	impacted	impact	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	152	11	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	153	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	153	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	153	3	next	next	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	153	4	sections	section	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	153	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	153	6	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	153	7	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	153	8	answer	answer	VB
work_4ncc75ijpnflvf7xsil7kyggcm	153	9	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	153	10	questions	question	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	153	11	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	153	12	show	show	VB
work_4ncc75ijpnflvf7xsil7kyggcm	153	13	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	153	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	153	15	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	153	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	153	17	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	153	18	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	153	19	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	153	20	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	153	21	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	153	22	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	153	23	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	153	24	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	153	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	153	26	but	but	CC
work_4ncc75ijpnflvf7xsil7kyggcm	153	27	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	153	28	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	153	29	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	153	30	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	153	31	relationship	relationship	NN
work_4ncc75ijpnflvf7xsil7kyggcm	153	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	154	1	3.2	3.2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	154	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	155	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	2	Inexistence	Inexistence	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	4	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	5	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	155	6	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	7	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	8	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	9	Any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	10	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	11	Relationship	Relationship	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	12	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	155	13	answer	answer	VB
work_4ncc75ijpnflvf7xsil7kyggcm	155	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	15	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	16	question	question	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	17	proposed	propose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	155	18	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	20	previous	previous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	21	section	section	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	22	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	155	23	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	155	24	conducted	conduct	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	155	25	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	26	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	27	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	28	extensive	extensive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	29	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	155	30	Brazilian	brazilian	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	31	database	database	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	155	33	along	along	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	34	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	35	bibliographical	bibliographical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	36	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	37	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	38	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	155	39	countries	country	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	155	40	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	155	41	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	155	42	world	world	NN
work_4ncc75ijpnflvf7xsil7kyggcm	155	43	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	156	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	156	2	conceptualization	conceptualization	NN
work_4ncc75ijpnflvf7xsil7kyggcm	156	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	156	4	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	156	5	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	156	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	156	7	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	156	8	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	156	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	156	10	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	156	11	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	156	12	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	156	13	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	156	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	156	15	considering	consider	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	156	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	156	17	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	156	18	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	156	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	156	20	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	156	21	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	156	22	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	156	23	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	156	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	156	25	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	156	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	156	27	16	16	CD
work_4ncc75ijpnflvf7xsil7kyggcm	156	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	156	29	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	156	30	Figure	figure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	156	31	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	156	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	157	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	2	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	157	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	4	Hydrographs	Hydrographs	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	5	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	157	6	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	157	8	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	157	11	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	12	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	13	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	157	16	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	17	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	18	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	19	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	20	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	157	21	td	td	FW
work_4ncc75ijpnflvf7xsil7kyggcm	157	22	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	157	23	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	24	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	157	25	0.5	0.5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	157	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	157	27	0.7	0.7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	157	28	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	157	29	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	157	30	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	31	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	157	32	tc	tc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	33	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	157	34	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	157	35	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	36	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	37	B	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	38	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	39	Depth	Depth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	40	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	41	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	42	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	157	44	graph	graph	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	45	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	157	46	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	157	47	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	48	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	49	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	157	50	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	157	51	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	158	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	158	2	both	both	DT
work_4ncc75ijpnflvf7xsil7kyggcm	158	3	graphs	graphs	NN
work_4ncc75ijpnflvf7xsil7kyggcm	158	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	158	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	158	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	158	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	158	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	158	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	158	10	Tr	Tr	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	158	11	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	158	12	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	158	13	years	year	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	158	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	159	1	3	3	LS
work_4ncc75ijpnflvf7xsil7kyggcm	159	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	160	1	Results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	160	2	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	160	3	Discussions	discussion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	160	4	3.1	3.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	160	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	161	1	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	3	Consistency	Consistency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	6	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	7	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	161	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	9	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	10	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	161	11	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	12	Effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	13	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	15	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	161	16	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	17	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	18	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	161	19	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	161	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	161	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	22	depth	depth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	23	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	161	24	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	25	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	161	26	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	27	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	28	must	must	MD
work_4ncc75ijpnflvf7xsil7kyggcm	161	29	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	161	30	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	31	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	161	32	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	33	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	161	34	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	35	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	161	36	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	37	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	38	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	39	13	13	CD
work_4ncc75ijpnflvf7xsil7kyggcm	161	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	41	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	161	42	DDF(t1	ddf(t1	LS
work_4ncc75ijpnflvf7xsil7kyggcm	161	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	44	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	161	45	IDF(t1)×	idf(t1)×	FW
work_4ncc75ijpnflvf7xsil7kyggcm	161	46	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	47	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	161	48	IDF(t2)×	idf(t2)×	CD
work_4ncc75ijpnflvf7xsil7kyggcm	161	49	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	50	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	161	51	DDF(t2	ddf(t2	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	161	52	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	53	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	54	13	13	CD
work_4ncc75ijpnflvf7xsil7kyggcm	161	55	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	161	56	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	57	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	58	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	59	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	161	60	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	61	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	62	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	63	field	field	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	64	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	65	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	66	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	67	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	161	68	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	161	69	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	161	70	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	161	71	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	162	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	2	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	3	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	5	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	6	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	8	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	9	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	162	11	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	162	12	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	13	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	14	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	15	14	14	CD
work_4ncc75ijpnflvf7xsil7kyggcm	162	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	17	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	162	18	DDF(t	DDF(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	20	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	162	21	IDF(t)×	IDF(t)×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	22	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	23	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	162	24	a	a	FW
work_4ncc75ijpnflvf7xsil7kyggcm	162	25	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	26	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	27	+	+	CC
work_4ncc75ijpnflvf7xsil7kyggcm	162	28	b)c	b)c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	29	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	30	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	31	14	14	CD
work_4ncc75ijpnflvf7xsil7kyggcm	162	32	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	33	Making	make	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	162	34	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	35	DDF(t	ddf(t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	36	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	37	derivative	derivative	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	162	38	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	162	39	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	40	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	162	41	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	162	42	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	162	43	find	find	VB
work_4ncc75ijpnflvf7xsil7kyggcm	162	44	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	45	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	162	46	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	162	47	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	48	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	49	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	162	50	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	162	51	found	find	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	162	52	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	162	53	tm	tm	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	54	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	162	55	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	56	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	57	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	58	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	59	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	162	60	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	61	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	62	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	162	63	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	162	64	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	162	65	tm	tm	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	66	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	162	67	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	68	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	69	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	162	70	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	71	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	72	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	162	73	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	74	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	75	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	162	76	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	162	77	b	b	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	78	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	162	79	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	80	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	162	81	parameters	parameter	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	162	82	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	162	83	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	162	84	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	162	85	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	162	86	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	163	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	163	2	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	163	3	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	163	4	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	163	5	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	163	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	163	7	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	163	8	conclude	conclude	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	163	9	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	163	10	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	163	11	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	12	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	163	13	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	163	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	163	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	163	16	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	163	17	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	18	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	163	19	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	163	20	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	21	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	163	22	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	163	23	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	163	24	side	side	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	25	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	163	26	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	163	27	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	28	axis	axis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	163	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	164	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	164	2	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	164	3	incompatible	incompatible	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	164	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	164	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	164	6	requirement	requirement	NN
work_4ncc75ijpnflvf7xsil7kyggcm	164	7	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	164	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	164	9	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	164	10	should	should	MD
work_4ncc75ijpnflvf7xsil7kyggcm	164	11	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	164	12	crescent	crescent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	164	13	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	164	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	164	15	positive	positive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	164	16	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	164	17	axis	axi	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	164	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	165	1	So	so	RB
work_4ncc75ijpnflvf7xsil7kyggcm	165	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	165	3	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	165	4	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	165	5	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	165	6	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	165	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	165	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	165	9	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	165	10	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	165	11	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	165	12	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	165	13	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	165	14	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	165	15	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	165	16	b/(c	b/(c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	165	17	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	165	18	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	165	19	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	165	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	166	1	With	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	166	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	166	3	result	result	NN
work_4ncc75ijpnflvf7xsil7kyggcm	166	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	166	5	place	place	NN
work_4ncc75ijpnflvf7xsil7kyggcm	166	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	166	7	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	166	8	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	166	9	now	now	RB
work_4ncc75ijpnflvf7xsil7kyggcm	166	10	ask	ask	VB
work_4ncc75ijpnflvf7xsil7kyggcm	166	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	166	12	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	166	13	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	166	14	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	166	15	limitations	limitation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	166	16	inserted	insert	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	166	17	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	166	18	hydrologic	hydrologic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	166	19	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	166	20	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	166	21	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	167	1	Furthermore	furthermore	RB
work_4ncc75ijpnflvf7xsil7kyggcm	167	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	167	3	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	167	4	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	167	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	167	6	how	how	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	167	7	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	167	8	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	167	9	results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	167	10	impacted	impact	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	167	11	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	168	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	168	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	168	3	next	next	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	168	4	sections	section	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	168	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	168	6	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	168	7	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	168	8	answer	answer	VB
work_4ncc75ijpnflvf7xsil7kyggcm	168	9	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	168	10	questions	question	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	168	11	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	168	12	show	show	VB
work_4ncc75ijpnflvf7xsil7kyggcm	168	13	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	168	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	168	15	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	168	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	168	17	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	168	18	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	168	19	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	168	20	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	168	21	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	168	22	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	168	23	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	168	24	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	168	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	168	26	but	but	CC
work_4ncc75ijpnflvf7xsil7kyggcm	168	27	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	168	28	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	168	29	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	168	30	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	168	31	relationship	relationship	NN
work_4ncc75ijpnflvf7xsil7kyggcm	168	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	169	1	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	169	2	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	169	4	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	169	6	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	7	7	7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	169	9	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	10	3.2	3.2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	169	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	170	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	2	Inexistence	Inexistence	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	4	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	5	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	170	6	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	7	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	8	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	9	Any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	10	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	11	Relationship	Relationship	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	12	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	170	13	answer	answer	VB
work_4ncc75ijpnflvf7xsil7kyggcm	170	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	15	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	16	question	question	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	17	proposed	propose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	170	18	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	20	previous	previous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	21	section	section	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	22	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	170	23	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	170	24	conducted	conduct	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	170	25	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	26	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	27	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	28	extensive	extensive	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	29	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	170	30	Brazilian	brazilian	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	31	database	database	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	170	33	along	along	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	34	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	35	bibliographical	bibliographical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	36	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	37	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	38	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	170	39	countries	country	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	170	40	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	170	41	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	170	42	world	world	NN
work_4ncc75ijpnflvf7xsil7kyggcm	170	43	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	171	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	2	conceptualization	conceptualization	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	4	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	5	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	171	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	171	7	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	8	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	9	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	10	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	11	type	type	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	12	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	13	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	15	considering	consider	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	171	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	17	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	18	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	20	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	171	21	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	171	22	represented	represent	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	171	23	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	25	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	27	16	16	CD
work_4ncc75ijpnflvf7xsil7kyggcm	171	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	29	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	171	30	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	31	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	32	IDF(t1	IDF(t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	33	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	34	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	171	35	Ac(t1	Ac(t1	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	171	36	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	37	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	171	38	C	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	39	×	×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	40	IDF(t2	idf(t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	41	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	42	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	171	43	Ac(t2	ac(t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	44	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	45	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	46	16	16	CD
work_4ncc75ijpnflvf7xsil7kyggcm	171	47	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	48	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	171	49	IDF(t1	IDF(t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	50	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	51	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	171	52	IDF(t2	idf(t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	53	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	54	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	171	55	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	56	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	171	57	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	58	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	59	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	60	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	61	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	62	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	171	63	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	64	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	65	respectively	respectively	RB
work_4ncc75ijpnflvf7xsil7kyggcm	171	66	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	67	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	68	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	69	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	171	70	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	71	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	72	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	171	73	A(t1	A(t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	74	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	75	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	171	76	A(t2	a(t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	77	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	171	78	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	171	79	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	80	areas	area	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	171	81	contributing	contribute	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	171	82	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	83	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	84	outlet	outlet	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	85	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	171	86	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	171	87	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	88	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	171	89	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	171	90	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	171	91	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	171	92	respectively	respectively	RB
work_4ncc75ijpnflvf7xsil7kyggcm	171	93	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	172	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	172	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	172	3	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	172	4	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	172	5	conceptual	conceptual	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	172	6	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	172	8	water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	9	velocity	velocity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	10	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	172	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	172	12	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	13	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	172	14	constant	constant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	172	15	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	172	16	let	let	VB
work_4ncc75ijpnflvf7xsil7kyggcm	172	17	us	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	172	18	assume	assume	VB
work_4ncc75ijpnflvf7xsil7kyggcm	172	19	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	172	20	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	172	21	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	172	22	equal	equal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	172	23	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	172	24	vp	vp	FW
work_4ncc75ijpnflvf7xsil7kyggcm	172	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	172	26	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	172	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	172	28	contribution	contribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	29	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	30	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	172	31	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	32	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	172	33	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	172	34	Ac(t	Ac(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	172	35	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	172	36	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	172	37	vpt	vpt	NN
work_4ncc75ijpnflvf7xsil7kyggcm	172	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	173	1	So	so	RB
work_4ncc75ijpnflvf7xsil7kyggcm	173	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	173	3	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	173	4	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	173	5	16	16	CD
work_4ncc75ijpnflvf7xsil7kyggcm	173	6	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	173	7	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	173	8	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	173	9	rewritten	rewrite	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	173	10	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	173	11	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	173	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	173	13	17	17	CD
work_4ncc75ijpnflvf7xsil7kyggcm	173	14	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	173	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	174	1	C	C	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	2	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	3	IDF(t1	IDF(t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	4	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	5	×	×	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	174	6	vp	vp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	7	×	×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	8	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	9	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	174	10	C	C	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	11	×	×	CD
work_4ncc75ijpnflvf7xsil7kyggcm	174	12	IDF(t2)×	IDF(t2)×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	13	vp	vp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	14	×	×	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	174	15	t2	t2	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	16	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	17	17	17	CD
work_4ncc75ijpnflvf7xsil7kyggcm	174	18	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	19	Simplifying	simplifying	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	174	21	IDF(t1)×	IDF(t1)×	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	22	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	23	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	174	24	DDF(t1	ddf(t1	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	25	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	26	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	174	27	IDF(t2)×	idf(t2)×	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	28	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	29	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	174	30	DDF(t2	ddf(t2	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	174	31	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	32	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	33	18	18	CD
work_4ncc75ijpnflvf7xsil7kyggcm	174	34	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	35	As	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	36	t1	t1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	37	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	174	38	t2	t2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	39	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	174	40	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	41	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	42	18	18	CD
work_4ncc75ijpnflvf7xsil7kyggcm	174	43	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	44	means	mean	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	174	45	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	46	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	174	47	existence	existence	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	48	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	49	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	174	50	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	51	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	52	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	174	53	representation	representation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	54	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	55	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	56	relationship	relationship	NN
work_4ncc75ijpnflvf7xsil7kyggcm	174	57	implies	imply	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	174	58	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	174	59	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	174	60	DDF(t	DDF(t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	174	61	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	174	62	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	174	63	decreasing	decrease	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	174	64	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	174	65	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	174	66	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	174	67	impossible	impossible	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	174	68	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	175	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	175	2	conclusion	conclusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	175	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	175	4	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	175	5	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	175	6	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	175	7	mathematical	mathematical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	175	8	representation	representation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	175	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	175	10	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	175	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	175	12	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	175	13	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	175	14	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	175	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	175	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	175	17	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	175	18	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	175	19	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	175	20	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	175	21	does	do	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	175	22	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	175	23	exist	exist	VB
work_4ncc75ijpnflvf7xsil7kyggcm	175	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	176	1	3.3	3.3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	176	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	177	1	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	2	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	3	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	177	4	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	177	5	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	177	6	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	177	7	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	177	8	Different	Different	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	9	Regions	Regions	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	177	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	177	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	177	12	World	World	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	13	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	177	14	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	177	15	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	16	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	177	17	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	177	18	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	19	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	177	20	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	177	21	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	177	22	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	177	23	necessarily	necessarily	RB
work_4ncc75ijpnflvf7xsil7kyggcm	177	24	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	177	25	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	178	1	As	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	178	2	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	178	3	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	178	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	178	5	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	178	6	should	should	MD
work_4ncc75ijpnflvf7xsil7kyggcm	178	7	have	have	VB
work_4ncc75ijpnflvf7xsil7kyggcm	178	8	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	178	9	limit	limit	NN
work_4ncc75ijpnflvf7xsil7kyggcm	178	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	178	11	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	178	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	179	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	179	2	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	179	3	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	179	4	t∗	t∗	XX
work_4ncc75ijpnflvf7xsil7kyggcm	179	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	179	6	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	179	7	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	179	8	monotone	monotone	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	179	9	crescent	crescent	NN
work_4ncc75ijpnflvf7xsil7kyggcm	179	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	179	11	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	179	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	179	13	within	within	IN
work_4ncc75ijpnflvf7xsil7kyggcm	179	14	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	179	15	reach	reach	NN
work_4ncc75ijpnflvf7xsil7kyggcm	179	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	179	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	179	18	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	179	19	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	179	20	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	179	21	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	179	22	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	179	23	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	179	24	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	179	25	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	179	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	180	1	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	180	2	evaluate	evaluate	VB
work_4ncc75ijpnflvf7xsil7kyggcm	180	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	180	4	use	use	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	180	6	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	7	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	8	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	180	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	180	10	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	11	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	180	13	we	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	180	14	gathered	gather	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	180	15	several	several	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	180	16	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	180	17	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	180	18	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	180	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	180	20	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	180	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	181	1	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	181	2	collected	collect	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	181	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	181	4	following	following	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	181	5	data	data	NN
work_4ncc75ijpnflvf7xsil7kyggcm	181	6	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	181	7	544	544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	181	8	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	181	9	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	181	10	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	181	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	181	12	63	63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	181	13	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	181	14	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	181	15	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	181	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	181	17	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	181	18	stations	station	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	181	19	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	181	20	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	181	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	181	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	181	23	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	181	24	peculiar	peculiar	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	181	25	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	181	26	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	181	27	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	181	28	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	181	29	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	181	30	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	181	31	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	182	1	To	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	182	2	evaluate	evaluate	VB
work_4ncc75ijpnflvf7xsil7kyggcm	182	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	182	4	impact	impact	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	6	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	182	7	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	8	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	9	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	10	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	182	12	t∗	t∗	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	182	13	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	182	14	computed	compute	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	182	15	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	182	16	grouped	group	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	182	17	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	18	four	four	CD
work_4ncc75ijpnflvf7xsil7kyggcm	182	19	classes	class	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	20	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	182	21	0–2	0–2	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	182	22	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	182	23	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	182	24	2–5	2–5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	182	25	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	26	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	182	27	5–24	5–24	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	28	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	29	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	182	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	182	31	greater	great	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	182	32	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	33	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	182	34	h.	h.	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	35	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	182	36	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	182	37	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	182	38	classes	class	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	39	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	182	40	related	relate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	182	41	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	42	errors	error	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	43	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	44	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	182	45	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	182	46	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	47	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	182	48	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	182	49	third	third	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	182	50	class	class	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	51	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	182	52	related	relate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	182	53	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	54	inconsistencies	inconsistency	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	55	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	56	applications	application	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	182	57	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	58	alternating	alternate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	182	59	block	block	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	60	hydrograph	hydrograph	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	182	61	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	182	62	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	182	63	fourth	fourth	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	182	64	class	class	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	65	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	182	66	besides	besides	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	67	being	be	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	182	68	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	182	69	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	70	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	182	71	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	182	72	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	182	73	little	little	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	182	74	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	75	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	182	76	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	77	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	182	78	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	183	1	3.3.1	3.3.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	183	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	184	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	184	2	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	184	3	Equations	Equations	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	184	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	184	5	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	184	6	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	184	7	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	184	8	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	184	9	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	184	10	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	184	11	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	184	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	184	13	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	184	14	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	184	15	covers	cover	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	184	16	544	544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	184	17	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	184	18	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	184	19	available	available	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	184	20	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	184	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	184	22	hydrologic	hydrologic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	184	23	software	software	NN
work_4ncc75ijpnflvf7xsil7kyggcm	184	24	PLUVIO	PLUVIO	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	184	25	2.1	2.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	184	26	database	database	NN
work_4ncc75ijpnflvf7xsil7kyggcm	184	27	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	184	28	25	25	CD
work_4ncc75ijpnflvf7xsil7kyggcm	184	29	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	184	30	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	185	1	Seventy	seventy	CD
work_4ncc75ijpnflvf7xsil7kyggcm	185	2	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	185	3	eight	eight	CD
work_4ncc75ijpnflvf7xsil7kyggcm	185	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	185	5	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	185	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	185	7	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	185	8	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	185	9	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	185	10	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	185	11	greater	great	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	185	12	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	185	13	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	185	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	186	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	186	2	value	value	NN
work_4ncc75ijpnflvf7xsil7kyggcm	186	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	186	4	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	186	5	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	186	6	estimated	estimate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	186	7	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	186	8	80	80	CD
work_4ncc75ijpnflvf7xsil7kyggcm	186	9	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	186	10	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	186	11	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	186	12	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	186	13	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	186	14	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	186	15	S1	S1	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	186	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	186	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	187	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	187	2	minimum	minimum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	187	3	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	187	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	187	5	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	6	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	187	7	2.6	2.6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	187	8	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	187	9	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	187	10	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	187	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	187	12	station	station	NN
work_4ncc75ijpnflvf7xsil7kyggcm	187	13	Conceição	Conceição	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	14	da	da	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	15	Mata	Mata	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	16	de	de	FW
work_4ncc75ijpnflvf7xsil7kyggcm	187	17	Dentro	Dentro	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	18	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	187	19	Minas	Minas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	20	Gerais	Gerais	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	187	21	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	187	22	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	188	1	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	188	2	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	188	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	189	1	Frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	189	2	distribution	distribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	189	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	189	4	Brazil´s	brazil´	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	189	5	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	189	6	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	189	7	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	189	8	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	189	9	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	189	10	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	189	11	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	189	12	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	189	13	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	189	14	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	189	15	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	189	16	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	189	17	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	189	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	190	1	Class	Class	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	190	2	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	190	3	Cumulative	Cumulative	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	190	4	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	190	5	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	6	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	190	7	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	190	8	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	9	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	10	0	0	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	11	0	0	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	12	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	13	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	14	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	190	15	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	16	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	190	17	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	190	18	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	19	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	20	10/544	10/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	21	10/544	10/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	22	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	23	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	24	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	190	25	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	26	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	190	27	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	190	28	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	29	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	30	51/544	51/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	31	61/544	61/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	32	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	190	33	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	190	34	>	>	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	190	35	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	36	h	h	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	190	37	19/544	19/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	38	80/544	80/544	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	39	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	190	40	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	41	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	190	42	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	43	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	190	44	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	45	8	8	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	46	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	190	47	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	48	3.3.2	3.3.2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	190	49	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	191	1	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	2	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	3	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	191	4	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	5	Manzano	Manzano	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	191	7	Agugliaro	Agugliaro	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	8	et	et	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	9	al	al	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	191	10	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	192	1	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	2	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	192	3	S2	s2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	192	4	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	5	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	6	26	26	CD
work_4ncc75ijpnflvf7xsil7kyggcm	192	7	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	8	assess	assess	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	192	9	four	four	CD
work_4ncc75ijpnflvf7xsil7kyggcm	192	10	methods	method	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	192	11	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	192	12	obtaining	obtain	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	192	13	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	192	14	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	192	15	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	192	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	192	17	Mexican	mexican	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	192	18	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	192	19	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	20	27–29	27–29	CD
work_4ncc75ijpnflvf7xsil7kyggcm	192	21	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	192	22	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	193	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	193	2	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	193	3	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	193	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	193	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	193	6	Cheng	Cheng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	193	7	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	193	8	lung	lung	NN
work_4ncc75ijpnflvf7xsil7kyggcm	193	9	Chen	Chen	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	193	10	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	193	11	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	193	12	27	27	CD
work_4ncc75ijpnflvf7xsil7kyggcm	193	13	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	193	14	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	193	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	193	16	same	same	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	193	17	configuration	configuration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	193	18	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	193	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	193	20	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	193	21	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	193	22	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	194	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	194	2	problem	problem	NN
work_4ncc75ijpnflvf7xsil7kyggcm	194	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	194	4	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	194	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	194	6	consistency	consistency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	194	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	194	8	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	194	9	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	194	10	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	194	11	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	194	12	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	194	13	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	194	14	referred	refer	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	194	15	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	194	16	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	194	17	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	194	18	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	194	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	195	1	Twenty	twenty	CD
work_4ncc75ijpnflvf7xsil7kyggcm	195	2	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	195	3	seven	seven	CD
work_4ncc75ijpnflvf7xsil7kyggcm	195	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	195	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	195	6	63	63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	195	7	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	195	8	present	present	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	195	9	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	195	10	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	195	11	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	195	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	195	13	27	27	CD
work_4ncc75ijpnflvf7xsil7kyggcm	195	14	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	195	15	those	those	DT
work_4ncc75ijpnflvf7xsil7kyggcm	195	16	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	195	17	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	195	18	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	195	19	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	195	20	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	195	21	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	195	22	t∗.	t∗.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	196	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	196	2	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	196	3	concluded	conclude	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	196	4	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	5	Cheng	Cheng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	196	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	196	7	lung	lung	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	8	Chen	Chen	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	196	9	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	196	10	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	196	11	27	27	CD
work_4ncc75ijpnflvf7xsil7kyggcm	196	12	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	196	13	gives	give	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	196	14	good	good	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	196	15	results	result	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	196	16	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	17	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	18	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	196	19	between	between	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	20	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	196	21	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	196	23	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	196	24	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	25	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	196	26	however	however	RB
work_4ncc75ijpnflvf7xsil7kyggcm	196	27	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	196	28	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	196	29	great	great	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	196	30	number	number	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	31	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	32	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	196	33	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	196	34	presented	present	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	196	35	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	196	36	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	196	37	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	196	38	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	39	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	196	40	interval	interval	NN
work_4ncc75ijpnflvf7xsil7kyggcm	196	41	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	42	shown	show	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	196	43	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	196	44	Table	Table	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	196	45	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	196	46	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	197	1	Eight	eight	CD
work_4ncc75ijpnflvf7xsil7kyggcm	197	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	197	3	them	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	197	4	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	197	5	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	197	6	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	197	7	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	197	8	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	197	9	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	197	10	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	197	11	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	197	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	197	13	while	while	IN
work_4ncc75ijpnflvf7xsil7kyggcm	197	14	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	197	15	resulted	result	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	197	16	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	197	17	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	197	18	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	197	19	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	197	20	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	197	21	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	197	22	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	197	23	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	198	1	Frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	198	2	distribution	distribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	198	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	198	4	Mexico´s	Mexico´s	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	198	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	198	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	198	7	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	198	8	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	198	9	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	198	10	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	198	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	199	1	Class	Class	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	199	2	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	199	3	Cumulative	Cumulative	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	199	4	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	199	5	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	6	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	199	7	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	199	8	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	9	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	10	8/63	8/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	11	8/63	8/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	12	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	13	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	14	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	199	15	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	16	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	199	17	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	199	18	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	19	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	20	11/63	11/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	21	19/63	19/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	22	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	23	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	24	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	199	25	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	26	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	199	27	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	199	28	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	29	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	30	7/63	7/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	31	26/63	26/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	32	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	199	33	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	199	34	>	>	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	199	35	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	36	h	h	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	199	37	1/63	1/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	38	27/63	27/63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	39	3.3.3	3.3.3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	199	40	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	200	1	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	200	2	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	200	3	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	200	4	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	200	5	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	200	6	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	200	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	200	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	200	9	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	200	10	covered	cover	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	200	11	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	200	12	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	200	13	obtained	obtain	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	200	14	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	200	15	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	200	16	Engineering	Engineering	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	200	17	textbook	textbook	NN
work_4ncc75ijpnflvf7xsil7kyggcm	200	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	201	1	From	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	201	2	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	201	3	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	201	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	201	5	seven	seven	CD
work_4ncc75ijpnflvf7xsil7kyggcm	201	6	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	201	7	36.6	36.6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	201	8	%	%	NN
work_4ncc75ijpnflvf7xsil7kyggcm	201	9	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	201	10	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	201	11	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	201	12	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	201	13	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	201	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	202	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	202	2	minimum	minimum	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	202	3	t∗	t∗	NN
work_4ncc75ijpnflvf7xsil7kyggcm	202	4	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	202	5	3.9	3.9	CD
work_4ncc75ijpnflvf7xsil7kyggcm	202	6	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	202	7	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	202	8	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	202	9	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	202	10	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	202	11	Table	Table	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	202	12	S3	S3	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	202	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	202	14	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	202	15	30	30	CD
work_4ncc75ijpnflvf7xsil7kyggcm	202	16	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	202	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	203	1	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	203	2	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	203	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	204	1	Frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	204	2	distribution	distribution	NN
work_4ncc75ijpnflvf7xsil7kyggcm	204	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	204	4	India´s	india´s	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	204	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	204	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	204	7	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	204	8	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	204	9	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	204	10	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	204	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	205	1	Class	Class	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	205	2	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	205	3	Cumulative	Cumulative	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	205	4	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	205	5	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	6	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	205	7	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	205	8	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	9	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	10	0/19	0/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	11	0/19	0/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	12	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	13	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	205	14	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	205	15	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	16	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	205	17	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	205	18	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	19	h	h	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	20	3/19	3/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	21	3/19	3/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	22	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	23	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	24	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	205	25	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	26	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	205	27	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	205	28	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	29	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	30	3/19	3/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	31	6/19	6/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	32	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	33	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	205	34	>	>	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	205	35	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	36	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	205	37	1/19	1/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	38	7/19	7/19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	39	3.3.4	3.3.4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	205	40	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	206	1	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	2	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	3	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	206	4	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	5	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	206	6	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	7	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	206	8	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	206	9	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	206	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	206	12	research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	206	13	covers	cover	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	206	14	four	four	CD
work_4ncc75ijpnflvf7xsil7kyggcm	206	15	regional	regional	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	206	16	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	206	17	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	206	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	207	1	These	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	207	2	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	207	3	present	present	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	207	4	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	207	5	different	different	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	207	6	formulation	formulation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	207	7	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	207	8	all	all	DT
work_4ncc75ijpnflvf7xsil7kyggcm	207	9	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	207	10	previously	previously	RB
work_4ncc75ijpnflvf7xsil7kyggcm	207	11	analyzed	analyze	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	207	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	208	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	208	2	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	208	3	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	208	4	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	208	5	parts	part	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	208	6	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	208	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	208	8	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	208	9	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	208	10	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	208	11	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	12	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	208	13	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	208	14	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	15	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	208	16	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	17	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	208	18	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	208	19	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	208	20	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	208	21	second	second	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	208	22	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	208	23	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	24	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	208	25	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	208	26	greater	great	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	208	27	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	28	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	208	29	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	208	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	208	31	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	208	32	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	208	33	36	36	CD
work_4ncc75ijpnflvf7xsil7kyggcm	208	34	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	208	35	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	208	36	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	208	37	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	208	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	209	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	209	3	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	209	4	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	6	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	209	7	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	8	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	9	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	209	11	all	all	DT
work_4ncc75ijpnflvf7xsil7kyggcm	209	12	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	209	13	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	209	14	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	15	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	16	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	17	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	209	18	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	19	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	209	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	209	22	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	209	23	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	209	24	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	209	25	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	26	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	27	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	209	28	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	209	29	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	30	h.	h.	CC
work_4ncc75ijpnflvf7xsil7kyggcm	209	31	Two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	32	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	33	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	209	34	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	209	35	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	209	36	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	209	37	∗	∗	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	209	38	greater	great	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	209	39	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	40	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	41	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	42	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	209	43	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	209	44	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	45	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	209	46	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	209	47	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	209	48	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	209	49	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	209	50	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	209	51	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	210	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	210	2	other	other	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	210	3	words	word	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	210	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	210	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	210	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	210	7	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	210	8	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	210	9	Bend	Bend	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	210	10	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	210	11	Evansville	Evansville	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	210	12	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	210	13	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	210	14	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	210	15	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	210	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	210	17	interval	interval	NN
work_4ncc75ijpnflvf7xsil7kyggcm	210	18	0–1	0–1	.
work_4ncc75ijpnflvf7xsil7kyggcm	210	19	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	210	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	210	21	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	210	22	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	210	23	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	210	24	supposed	suppose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	210	25	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	210	26	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	210	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	211	1	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	211	2	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	211	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	212	1	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	212	2	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	212	3	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	212	4	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	212	5	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	212	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	212	7	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	212	8	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	212	9	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	212	10	h	h	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	212	11	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	212	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	213	1	Station	Station	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	2	K	K	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	3	n	n	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	4	b	b	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	5	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	6	t	t	NN
work_4ncc75ijpnflvf7xsil7kyggcm	213	7	*	*	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	213	8	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	213	9	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	213	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	213	11	Indianapolis	Indianapolis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	12	2.1048	2.1048	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	13	0.1733	0.1733	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	14	0.47	0.47	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	15	1.1289	1.1289	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	16	3.65	3.65	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	17	South	South	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	18	Bend	bend	VB
work_4ncc75ijpnflvf7xsil7kyggcm	213	19	1.7204	1.7204	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	20	0.1753	0.1753	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	21	0.485	0.485	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	22	1.6806	1.6806	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	23	0.71	0.71	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	24	Evansville	Evansville	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	25	1.9533	1.9533	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	26	0.1743	0.1743	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	27	0.522	0.522	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	28	1.6408	1.6408	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	29	0.81	0.81	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	30	Fort	Fort	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	31	Wayne	Wayne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	213	32	2.003	2.003	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	33	0.1655	0.1655	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	34	0.516	0.516	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	35	1.4643	1.4643	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	36	1.11	1.11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	37	3.4	3.4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	213	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	214	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	214	2	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	3	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	214	4	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	5	Curves	Curves	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	6	One	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	214	7	conclusion	conclusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	8	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	214	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	214	10	prior	prior	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	214	11	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	12	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	214	13	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	214	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	214	15	classical	classical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	214	16	method	method	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	17	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	214	18	developing	develop	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	214	19	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	20	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	214	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	214	22	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	214	23	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	214	24	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	214	25	fitting	fitting	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	26	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	214	27	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	214	28	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	29	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	214	30	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	31	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	214	32	can	can	MD
work_4ncc75ijpnflvf7xsil7kyggcm	214	33	yield	yield	VB
work_4ncc75ijpnflvf7xsil7kyggcm	214	34	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	214	35	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	36	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	214	37	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	214	38	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	214	39	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	214	40	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	214	41	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	215	1	Another	another	DT
work_4ncc75ijpnflvf7xsil7kyggcm	215	2	conclusion	conclusion	NN
work_4ncc75ijpnflvf7xsil7kyggcm	215	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	215	4	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	215	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	215	6	just	just	RB
work_4ncc75ijpnflvf7xsil7kyggcm	215	7	looking	look	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	215	8	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	215	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	215	10	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	215	11	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	215	12	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	215	13	monotone	monotone	NN
work_4ncc75ijpnflvf7xsil7kyggcm	215	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	215	15	decreasing	decrease	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	215	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	215	17	asymptotic	asymptotic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	215	18	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	215	19	zero	zero	CD
work_4ncc75ijpnflvf7xsil7kyggcm	215	20	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	215	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	215	22	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	215	23	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	215	24	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	215	25	possible	possible	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	215	26	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	215	27	identify	identify	VB
work_4ncc75ijpnflvf7xsil7kyggcm	215	28	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	215	29	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	215	30	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	215	31	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	215	32	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	215	33	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	215	34	monotone	monotone	NN
work_4ncc75ijpnflvf7xsil7kyggcm	215	35	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	215	36	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	215	37	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	216	1	Water	water	NN
work_4ncc75ijpnflvf7xsil7kyggcm	216	2	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	216	4	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	216	6	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	7	9	9	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	216	9	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	10	There	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	216	11	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	216	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	216	13	common	common	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	216	14	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	216	15	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	216	16	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	216	17	where	where	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	216	18	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	216	19	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	216	20	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	216	21	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	216	22	drainage	drainage	NN
work_4ncc75ijpnflvf7xsil7kyggcm	216	23	projects	project	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	216	24	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	216	25	built	build	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	216	26	without	without	IN
work_4ncc75ijpnflvf7xsil7kyggcm	216	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	216	28	respective	respective	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	216	29	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	216	30	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	216	31	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	216	32	31	31	CD
work_4ncc75ijpnflvf7xsil7kyggcm	216	33	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	216	34	but	but	CC
work_4ncc75ijpnflvf7xsil7kyggcm	216	35	built	build	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	216	36	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	216	37	graphic	graphic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	216	38	adjustment	adjustment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	216	39	alone	alone	RB
work_4ncc75ijpnflvf7xsil7kyggcm	216	40	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	217	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	217	2	problem	problem	NN
work_4ncc75ijpnflvf7xsil7kyggcm	217	3	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	217	4	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	217	5	method	method	NN
work_4ncc75ijpnflvf7xsil7kyggcm	217	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	217	7	as	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	217	8	demonstrated	demonstrate	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	217	9	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	217	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	217	11	previous	previous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	217	12	section	section	NN
work_4ncc75ijpnflvf7xsil7kyggcm	217	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	217	14	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	217	15	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	217	16	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	217	17	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	217	18	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	217	19	may	may	MD
work_4ncc75ijpnflvf7xsil7kyggcm	217	20	appear	appear	VB
work_4ncc75ijpnflvf7xsil7kyggcm	217	21	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	217	22	even	even	RB
work_4ncc75ijpnflvf7xsil7kyggcm	217	23	when	when	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	217	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	217	25	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	217	26	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	217	27	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	217	28	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	217	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	218	1	It	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	218	2	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	218	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	218	4	therefore	therefore	RB
work_4ncc75ijpnflvf7xsil7kyggcm	218	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	218	6	reasonable	reasonable	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	218	7	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	218	8	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	218	9	skeptical	skeptical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	218	10	about	about	IN
work_4ncc75ijpnflvf7xsil7kyggcm	218	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	218	12	consistency	consistency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	218	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	218	14	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	218	15	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	218	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	218	17	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	218	18	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	218	19	may	may	MD
work_4ncc75ijpnflvf7xsil7kyggcm	218	20	well	well	RB
work_4ncc75ijpnflvf7xsil7kyggcm	218	21	contain	contain	VB
work_4ncc75ijpnflvf7xsil7kyggcm	218	22	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	218	23	DDFs	ddf	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	218	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	219	1	As	as	IN
work_4ncc75ijpnflvf7xsil7kyggcm	219	2	there	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	219	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	219	4	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	5	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	6	nor	nor	CC
work_4ncc75ijpnflvf7xsil7kyggcm	219	7	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	8	parameter	parameter	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	9	provided	provide	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	219	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	219	11	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	12	only	only	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	219	13	way	way	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	14	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	219	15	know	know	VB
work_4ncc75ijpnflvf7xsil7kyggcm	219	16	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	219	17	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	18	resulting	result	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	219	19	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	219	20	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	219	21	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	219	22	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	219	23	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	219	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	25	graphical	graphical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	219	26	integration	integration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	27	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	219	28	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	29	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	219	30	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	31	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	219	32	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	219	33	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	219	34	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	219	35	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	219	36	typical	typical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	219	37	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	38	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	219	39	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	220	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	220	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	220	3	places	place	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	220	4	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	220	5	present	present	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	220	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	220	7	intense	intense	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	220	8	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	220	9	relationship	relationship	NN
work_4ncc75ijpnflvf7xsil7kyggcm	220	10	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	220	11	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	220	12	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	220	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	220	14	there	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	220	15	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	220	16	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	220	17	problem	problem	NN
work_4ncc75ijpnflvf7xsil7kyggcm	220	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	221	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	221	2	inconsistency	inconsistency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	221	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	221	4	if	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	221	5	exists	exist	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	221	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	221	7	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	221	8	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	221	9	detected	detect	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	221	10	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	221	11	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	221	12	look	look	NN
work_4ncc75ijpnflvf7xsil7kyggcm	221	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	221	14	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	221	15	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	221	16	corrected	correct	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	221	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	222	1	4	4	LS
work_4ncc75ijpnflvf7xsil7kyggcm	222	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	223	1	Conclusions	conclusion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	223	2	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	3	proof	proof	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	6	inexistence	inexistence	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	8	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	9	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	223	10	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	223	11	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	12	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	13	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	14	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	15	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	16	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	17	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	18	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	19	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	20	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	21	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	22	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	223	23	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	223	24	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	223	25	restricted	restrict	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	223	26	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	27	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	28	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	29	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	223	30	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	223	31	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	223	32	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	223	33	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	223	34	32	32	CD
work_4ncc75ijpnflvf7xsil7kyggcm	223	35	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	223	36	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	224	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	224	2	paper	paper	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	3	expands	expand	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	224	4	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	224	5	result	result	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	224	6	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	224	7	show	show	VB
work_4ncc75ijpnflvf7xsil7kyggcm	224	8	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	224	10	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	11	any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	224	12	representation	representation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	13	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	14	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	224	15	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	224	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	224	17	or	or	CC
work_4ncc75ijpnflvf7xsil7kyggcm	224	18	even	even	RB
work_4ncc75ijpnflvf7xsil7kyggcm	224	19	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	20	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	224	21	without	without	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	22	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	224	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	224	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	224	25	partial	partial	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	224	26	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	224	27	area	area	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	28	effect	effect	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	29	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	224	30	exists	exist	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	224	31	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	32	cases	case	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	224	33	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	34	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	224	35	decreasing	decrease	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	224	36	reach	reach	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	37	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	224	38	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	224	39	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	224	40	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	224	41	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	225	1	Nevertheless	nevertheless	RB
work_4ncc75ijpnflvf7xsil7kyggcm	225	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	225	3	conceptually	conceptually	RB
work_4ncc75ijpnflvf7xsil7kyggcm	225	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	225	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	225	6	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	225	7	function	function	NN
work_4ncc75ijpnflvf7xsil7kyggcm	225	8	should	should	MD
work_4ncc75ijpnflvf7xsil7kyggcm	225	9	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	225	10	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	225	11	over	over	IN
work_4ncc75ijpnflvf7xsil7kyggcm	225	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	225	13	time	time	NN
work_4ncc75ijpnflvf7xsil7kyggcm	225	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	226	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	226	2	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	3	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	226	4	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	226	5	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	6	>	>	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	7	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	226	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	226	9	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	226	10	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	11	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	226	12	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	226	13	maximum	maximum	NN
work_4ncc75ijpnflvf7xsil7kyggcm	226	14	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	226	15	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	16	=	=	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	226	17	t	t	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	18	∗	∗	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	19	=	=	NFP
work_4ncc75ijpnflvf7xsil7kyggcm	226	20	b(c	b(c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	21	−	−	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	22	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	226	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	226	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	226	25	so	so	IN
work_4ncc75ijpnflvf7xsil7kyggcm	226	26	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	226	27	do	do	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	226	28	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	226	29	attend	attend	VB
work_4ncc75ijpnflvf7xsil7kyggcm	226	30	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	226	31	restriction	restriction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	226	32	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	226	33	increasing	increase	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	226	34	DD	DD	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	226	35	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	227	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	227	2	that	that	DT
work_4ncc75ijpnflvf7xsil7kyggcm	227	3	case	case	NN
work_4ncc75ijpnflvf7xsil7kyggcm	227	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	227	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	227	6	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	227	7	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	227	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	227	9	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	227	10	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	227	11	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	227	12	td	td	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	227	13	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	227	14	t	t	XX
work_4ncc75ijpnflvf7xsil7kyggcm	227	15	∗.	∗.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	1	Research	research	NN
work_4ncc75ijpnflvf7xsil7kyggcm	228	2	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	228	3	640	640	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	4	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	5	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	6	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	228	7	done	do	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	228	8	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	228	9	four	four	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	10	countries	country	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	228	12	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	14	554	554	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	15	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	16	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	228	18	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	19	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	20	63	63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	21	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	228	24	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	25	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	26	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	27	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	29	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	228	30	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	228	31	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	32	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	33	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	228	34	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	228	35	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	228	36	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	228	37	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	228	38	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	229	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	2	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	229	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	229	4	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	5	554	554	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	6	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	229	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	229	8	80	80	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	9	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	229	10	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	11	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	12	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	229	14	ten	ten	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	15	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	16	them	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	229	17	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	229	18	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	229	19	only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	229	20	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	21	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	229	22	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	23	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	229	24	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	25	five	five	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	26	hours	hour	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	229	27	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	229	28	61	61	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	29	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	229	30	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	31	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	229	32	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	33	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	34	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	35	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	36	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	229	37	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	229	38	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	229	39	63	63	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	40	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	229	41	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	229	42	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	229	43	27	27	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	44	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	229	45	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	46	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	229	47	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	229	48	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	230	1	Eight	eight	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	3	them	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	230	4	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	230	5	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	6	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	230	7	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	8	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	9	hours	hour	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	230	11	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	230	12	26	26	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	13	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	230	14	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	15	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	230	16	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	17	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	18	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	230	19	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	20	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	230	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	230	22	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	23	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	24	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	230	26	three	three	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	27	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	230	28	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	29	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	230	30	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	31	five	five	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	32	hours	hour	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	33	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	230	34	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	230	35	six	six	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	36	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	230	37	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	38	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	230	39	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	40	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	41	h.	h.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	230	42	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	43	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	230	44	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	230	45	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	230	46	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	230	47	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	230	48	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	49	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	230	50	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	230	51	ranges	range	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	230	52	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	230	53	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	230	54	application	application	NN
work_4ncc75ijpnflvf7xsil7kyggcm	230	55	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	231	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	231	2	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	231	3	range	range	NN
work_4ncc75ijpnflvf7xsil7kyggcm	231	4	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	231	5	designed	design	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	231	6	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	231	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	231	8	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	231	9	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	231	10	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	231	11	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	231	12	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	231	13	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	231	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	232	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	232	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	232	3	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	232	4	range	range	NN
work_4ncc75ijpnflvf7xsil7kyggcm	232	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	232	6	td	td	FW
work_4ncc75ijpnflvf7xsil7kyggcm	232	7	less	less	JJR
work_4ncc75ijpnflvf7xsil7kyggcm	232	8	than	than	IN
work_4ncc75ijpnflvf7xsil7kyggcm	232	9	one	one	CD
work_4ncc75ijpnflvf7xsil7kyggcm	232	10	hour	hour	NN
work_4ncc75ijpnflvf7xsil7kyggcm	232	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	233	1	All	all	PDT
work_4ncc75ijpnflvf7xsil7kyggcm	233	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	233	3	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	233	4	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	233	5	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	233	6	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	233	7	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	233	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	234	1	Two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	234	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	234	3	them	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	234	4	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	234	5	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	234	6	>	>	XX
work_4ncc75ijpnflvf7xsil7kyggcm	234	7	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	234	8	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	234	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	234	10	so	so	CC
work_4ncc75ijpnflvf7xsil7kyggcm	234	11	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	234	12	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	234	13	correct	correct	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	234	14	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	234	15	two	two	CD
work_4ncc75ijpnflvf7xsil7kyggcm	234	16	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	234	17	t∗	t∗	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	234	18	<	<	XX
work_4ncc75ijpnflvf7xsil7kyggcm	234	19	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	234	20	h	h	NN
work_4ncc75ijpnflvf7xsil7kyggcm	234	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	234	22	so	so	CC
work_4ncc75ijpnflvf7xsil7kyggcm	234	23	they	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	234	24	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	234	25	not	not	RB
work_4ncc75ijpnflvf7xsil7kyggcm	234	26	valid	valid	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	234	27	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	234	28	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	234	29	range	range	NN
work_4ncc75ijpnflvf7xsil7kyggcm	234	30	proposed	propose	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	234	31	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	234	32	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	234	33	publication	publication	NN
work_4ncc75ijpnflvf7xsil7kyggcm	234	34	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	235	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	235	2	inconsistency	inconsistency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	235	3	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	235	4	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	235	5	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	235	6	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	235	7	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	235	8	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	235	9	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	235	10	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	235	11	has	have	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	235	12	been	be	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	235	13	established	establish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	235	14	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	235	15	scientific	scientific	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	235	16	literature	literature	NN
work_4ncc75ijpnflvf7xsil7kyggcm	235	17	since	since	IN
work_4ncc75ijpnflvf7xsil7kyggcm	235	18	1998	1998	CD
work_4ncc75ijpnflvf7xsil7kyggcm	235	19	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	235	20	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	235	21	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	235	22	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	236	1	Nevertheless	nevertheless	RB
work_4ncc75ijpnflvf7xsil7kyggcm	236	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	236	3	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	236	4	significant	significant	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	236	5	number	number	NN
work_4ncc75ijpnflvf7xsil7kyggcm	236	6	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	7	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	236	8	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	236	9	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	10	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	236	11	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	236	12	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	236	13	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	236	14	available	available	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	236	15	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	16	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	236	17	applications	application	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	236	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	236	19	without	without	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	20	comments	comment	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	236	21	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	22	their	-PRON-	PRP$
work_4ncc75ijpnflvf7xsil7kyggcm	236	23	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	236	24	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	236	25	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	236	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	237	1	Why	why	WRB
work_4ncc75ijpnflvf7xsil7kyggcm	237	2	this	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	237	3	gap	gap	NN
work_4ncc75ijpnflvf7xsil7kyggcm	237	4	between	between	IN
work_4ncc75ijpnflvf7xsil7kyggcm	237	5	theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	237	6	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	237	7	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	237	8	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	238	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	238	2	main	main	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	238	3	bridge	bridge	NN
work_4ncc75ijpnflvf7xsil7kyggcm	238	4	between	between	IN
work_4ncc75ijpnflvf7xsil7kyggcm	238	5	theory	theory	NN
work_4ncc75ijpnflvf7xsil7kyggcm	238	6	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	238	7	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	238	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	238	9	engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	238	10	textbooks	textbook	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	238	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	239	1	We	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	239	2	researched	research	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	239	3	several	several	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	4	classical	classical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	5	hydrological	hydrological	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	6	textbooks	textbook	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	239	7	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	239	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	239	9	English	english	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	10	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	239	11	Portuguese	portuguese	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	12	language	language	NN
work_4ncc75ijpnflvf7xsil7kyggcm	239	13	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	239	14	without	without	IN
work_4ncc75ijpnflvf7xsil7kyggcm	239	15	citation	citation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	239	16	here	here	RB
work_4ncc75ijpnflvf7xsil7kyggcm	239	17	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	239	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	239	19	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	239	20	none	none	NN
work_4ncc75ijpnflvf7xsil7kyggcm	239	21	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	239	22	them	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	239	23	emphasize	emphasize	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	239	24	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	239	25	limits	limit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	239	26	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	239	27	validity	validity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	239	28	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	239	29	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	239	30	general	general	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	239	31	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	239	32	equation	equation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	239	33	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	240	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	240	2	classical	classical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	240	3	method	method	NN
work_4ncc75ijpnflvf7xsil7kyggcm	240	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	240	5	building	build	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	240	6	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	240	7	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	240	8	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	240	9	still	still	RB
work_4ncc75ijpnflvf7xsil7kyggcm	240	10	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	240	11	practice	practice	NN
work_4ncc75ijpnflvf7xsil7kyggcm	240	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	240	13	which	which	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	240	14	builds	build	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	240	15	DDF	ddf	NN
work_4ncc75ijpnflvf7xsil7kyggcm	240	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	240	17	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	240	18	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	240	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	241	1	There	there	EX
work_4ncc75ijpnflvf7xsil7kyggcm	241	2	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	241	3	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	241	4	final	final	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	241	5	point	point	NN
work_4ncc75ijpnflvf7xsil7kyggcm	241	6	concerning	concern	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	241	7	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	241	8	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	241	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	242	1	If	if	IN
work_4ncc75ijpnflvf7xsil7kyggcm	242	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	242	3	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	4	fitting	fitting	NN
work_4ncc75ijpnflvf7xsil7kyggcm	242	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	242	6	observed	observed	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	7	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	242	8	intensities	intensity	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	9	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	242	10	durations	duration	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	11	yields	yield	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	12	equations	equation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	13	that	that	WDT
work_4ncc75ijpnflvf7xsil7kyggcm	242	14	look	look	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	242	15	good	good	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	16	but	but	CC
work_4ncc75ijpnflvf7xsil7kyggcm	242	17	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	242	18	DDF	ddf	NN
work_4ncc75ijpnflvf7xsil7kyggcm	242	19	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	242	20	inconsistent	inconsistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	242	22	then	then	RB
work_4ncc75ijpnflvf7xsil7kyggcm	242	23	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	242	24	plausible	plausible	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	25	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	242	26	assume	assume	VB
work_4ncc75ijpnflvf7xsil7kyggcm	242	27	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	242	28	same	same	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	29	occurs	occur	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	30	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	242	31	empirical	empirical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	242	32	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	242	33	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	242	34	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	243	1	Only	only	RB
work_4ncc75ijpnflvf7xsil7kyggcm	243	2	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	243	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	243	4	integration	integration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	243	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	243	6	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	243	7	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	243	8	will	will	MD
work_4ncc75ijpnflvf7xsil7kyggcm	243	9	guarantee	guarantee	VB
work_4ncc75ijpnflvf7xsil7kyggcm	243	10	that	that	IN
work_4ncc75ijpnflvf7xsil7kyggcm	243	11	these	these	DT
work_4ncc75ijpnflvf7xsil7kyggcm	243	12	curves	curve	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	243	13	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	243	14	DDF	ddf	NN
work_4ncc75ijpnflvf7xsil7kyggcm	243	15	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	243	16	consistent	consistent	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	243	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	244	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	244	2	question	question	NN
work_4ncc75ijpnflvf7xsil7kyggcm	244	3	remains	remain	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	244	4	to	to	TO
work_4ncc75ijpnflvf7xsil7kyggcm	244	5	be	be	VB
work_4ncc75ijpnflvf7xsil7kyggcm	244	6	answered	answer	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	244	7	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	244	8	future	future	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	244	9	studies	study	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	244	10	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	245	1	Supplementary	supplementary	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	245	2	Materials	material	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	245	3	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	245	4	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	245	5	following	follow	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	245	6	are	be	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	245	7	available	available	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	245	8	online	online	RB
work_4ncc75ijpnflvf7xsil7kyggcm	245	9	at	at	IN
work_4ncc75ijpnflvf7xsil7kyggcm	245	10	http://www.mdpi.com/2073-4441/12/10/2730/s1	http://www.mdpi.com/2073-4441/12/10/2730/s1	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	245	12	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	13	S1	S1	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	245	14	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	245	15	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	16	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	17	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	245	18	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	19	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	245	20	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	21	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	22	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	23	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	24	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	25	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	245	26	c	c	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	27	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	28	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	245	29	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	245	30	Table	table	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	31	S2	s2	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	32	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	245	33	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	34	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	35	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	245	36	duration-	duration-	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	37	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	38	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	39	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	40	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	41	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	42	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	245	43	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	44	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	45	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	245	46	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	245	47	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	245	48	Table	Table	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	49	S3	S3	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	50	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	245	51	Rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	52	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	53	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	245	54	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	55	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	245	56	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	57	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	58	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	59	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	245	60	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	245	61	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	245	62	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	63	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	245	64	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	245	65	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	246	1	Author	author	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	2	Contributions	Contributions	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	3	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	246	4	Conceptualization	conceptualization	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	6	methodology	methodology	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	8	formal	formal	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	246	9	analysis	analysis	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	11	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	246	12	writing	writing	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	13	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	246	14	original	original	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	246	15	draft	draft	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	16	preparation	preparation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	246	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	18	J.N.B.C.	J.N.B.C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	19	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	20	T.M.d	T.M.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	246	22	C.S.	C.S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	246	24	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	246	25	F.d	F.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	26	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	246	27	A.d	A.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	246	28	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	246	29	S.F.	S.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	247	2	investigation	investigation	NN
work_4ncc75ijpnflvf7xsil7kyggcm	247	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	247	4	J.N.B.C	J.N.B.C	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	247	6	T.M.d	T.M.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	7	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	247	8	C.S.	C.S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	247	10	F.d	F.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	247	12	A.d	A.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	247	14	S.F.	S.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	247	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	247	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	247	17	V.C.P.	V.C.P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	248	2	writing	writing	NN
work_4ncc75ijpnflvf7xsil7kyggcm	248	3	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	248	4	review	review	NN
work_4ncc75ijpnflvf7xsil7kyggcm	248	5	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	248	6	editing	editing	NN
work_4ncc75ijpnflvf7xsil7kyggcm	248	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	248	8	supervision	supervision	NN
work_4ncc75ijpnflvf7xsil7kyggcm	248	9	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	248	10	J.N.B.C.	J.N.B.C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	248	12	T.M.d	T.M.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	248	14	C.S.	C.S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	248	16	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	248	17	F.d	F.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	248	19	A.d	A.d	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	248	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	248	21	S.F.	S.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	249	1	All	all	DT
work_4ncc75ijpnflvf7xsil7kyggcm	249	2	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	249	3	have	have	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	249	4	read	read	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	249	5	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	249	6	agreed	agree	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	249	7	to	to	IN
work_4ncc75ijpnflvf7xsil7kyggcm	249	8	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	249	9	published	publish	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	249	10	version	version	NN
work_4ncc75ijpnflvf7xsil7kyggcm	249	11	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	249	12	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	249	13	manuscript	manuscript	NN
work_4ncc75ijpnflvf7xsil7kyggcm	249	14	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	250	1	Funding	funding	NN
work_4ncc75ijpnflvf7xsil7kyggcm	250	2	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	250	3	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	250	4	work	work	NN
work_4ncc75ijpnflvf7xsil7kyggcm	250	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	250	6	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	250	7	first	first	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	250	8	author	author	NN
work_4ncc75ijpnflvf7xsil7kyggcm	250	9	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	250	10	supported	support	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	250	11	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	250	12	grant	grant	NN
work_4ncc75ijpnflvf7xsil7kyggcm	250	13	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	250	14	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	250	15	Conselho	Conselho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	16	Nacional	Nacional	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	17	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	18	Desenvolvimento	Desenvolvimento	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	19	Científico	Científico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	20	e	e	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	21	Tecnológico	Tecnológico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	22	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	250	23	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	24	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	250	25	CNPq	CNPq	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	26	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	250	27	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	250	28	n.	n.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	29	303658/2013	303658/2013	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	250	30	-	-	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	250	31	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	250	32	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	250	33	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	251	1	For	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	2	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	251	3	second	second	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	251	4	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	251	5	third	third	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	251	6	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	251	7	it	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	251	8	was	be	VBD
work_4ncc75ijpnflvf7xsil7kyggcm	251	9	funded	fund	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	251	10	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	11	Conselho	Conselho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	12	Nacional	Nacional	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	13	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	14	Desenvolvimento	Desenvolvimento	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	15	Científico	Científico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	16	e	e	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	17	Tecnológico	Tecnológico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	18	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	251	19	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	20	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	21	CNPq)—Research	CNPq)—Research	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	22	Project	Project	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	23	SHAE	SHAE	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	24	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	251	25	SF	SF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	26	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	27	NEXUS	NEXUS	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	28	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	29	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	251	30	Segurança	Segurança	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	31	Hídrica	Hídrica	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	32	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	251	33	Alimentar	Alimentar	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	34	e	e	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	35	Energética	Energética	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	36	na	na	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	37	Bacia	Bacia	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	38	Estendida	Estendida	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	39	do	do	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	251	40	Rio	Rio	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	41	São	São	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	42	Francisco	Francisco	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	43	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	44	n.	n.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	45	441457/2017	441457/2017	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	46	-	-	SYM
work_4ncc75ijpnflvf7xsil7kyggcm	251	47	7	7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	48	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	49	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	251	50	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	51	Coordenação	Coordenação	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	52	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	53	Aperfeiçoamento	Aperfeiçoamento	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	54	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	55	Pessoal	Pessoal	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	56	de	de	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	57	Nível	Nível	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	58	Superior	Superior	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	59	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	251	60	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	61	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	62	CAPES)—Research	CAPES)—Research	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	63	Project	Project	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	64	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	251	65	Impactos	Impactos	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	66	das	das	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	67	Mudanças	Mudanças	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	68	Climáticas	Climáticas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	69	em	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	251	70	Extremos	Extremos	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	71	Hidrológicos	Hidrológicos	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	72	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	73	Secas	Secas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	74	e	e	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	75	Cheias	Cheias	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	76	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	77	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	78	n.	n.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	79	23038.003964/2016	23038.003964/2016	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	80	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	251	81	53	53	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	82	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	83	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	251	84	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	85	grants	grant	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	251	86	http://www.mdpi.com/2073-4441/12/10/2730/s1	http://www.mdpi.com/2073-4441/12/10/2730/s1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	87	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	88	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	89	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	251	90	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	91	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	251	92	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	93	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	94	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	95	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	251	96	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	251	97	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	251	98	Conselho	Conselho	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	99	Nacional	Nacional	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	100	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	101	Desenvolvimento	Desenvolvimento	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	102	Científico	Científico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	103	e	e	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	104	Tecnológico	Tecnológico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	105	—	—	:
work_4ncc75ijpnflvf7xsil7kyggcm	251	106	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	107	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	108	CNPq	CNPq	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	109	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	110	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	251	111	Fundação	Fundação	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	112	Cearense	Cearense	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	113	de	de	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	114	Apoio	Apoio	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	115	ao	ao	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	116	Desenvolvimento	Desenvolvimento	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	117	Científico	Científico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	118	e	e	NN
work_4ncc75ijpnflvf7xsil7kyggcm	251	119	Tecnológico	Tecnológico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	120	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	121	FUNCAP	FUNCAP	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	251	122	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	251	123	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	252	1	Conflicts	conflict	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	252	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	252	3	Interest	interest	NN
work_4ncc75ijpnflvf7xsil7kyggcm	252	4	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	252	5	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	252	6	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	252	7	declare	declare	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	252	8	no	no	DT
work_4ncc75ijpnflvf7xsil7kyggcm	252	9	conflict	conflict	NN
work_4ncc75ijpnflvf7xsil7kyggcm	252	10	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	252	11	interest	interest	NN
work_4ncc75ijpnflvf7xsil7kyggcm	252	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	253	1	References	reference	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	253	2	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	253	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	254	1	Grimaldi	Grimaldi	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	254	3	S.	S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	254	5	Petroselli	Petroselli	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	254	7	A.	A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	8	Avons	avon	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	254	9	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	254	10	nous	nous	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	254	11	encore	encore	NN
work_4ncc75ijpnflvf7xsil7kyggcm	254	12	besoin	besoin	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	13	de	de	FW
work_4ncc75ijpnflvf7xsil7kyggcm	254	14	la	la	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	15	formule	formule	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	16	rationnelle	rationnelle	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	254	17	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	255	1	Une	Une	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	2	méthode	méthode	NN
work_4ncc75ijpnflvf7xsil7kyggcm	255	3	empirique	empirique	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	4	alternative	alternative	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	5	pour	pour	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	6	l’estimation	l’estimation	FW
work_4ncc75ijpnflvf7xsil7kyggcm	255	7	du	du	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	8	débit	débit	NN
work_4ncc75ijpnflvf7xsil7kyggcm	255	9	de	de	FW
work_4ncc75ijpnflvf7xsil7kyggcm	255	10	pointe	pointe	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	11	dans	dan	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	255	12	les	les	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	255	13	petits	petit	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	255	14	bassins	bassins	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	15	et	et	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	16	les	les	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	17	bassins	bassins	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	18	non	non	AFX
work_4ncc75ijpnflvf7xsil7kyggcm	255	19	jaugés	jaugés	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	255	20	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	256	1	Hydrol	hydrol	NN
work_4ncc75ijpnflvf7xsil7kyggcm	256	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	257	1	Sci	Sci	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	257	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	258	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	259	1	2014	2014	CD
work_4ncc75ijpnflvf7xsil7kyggcm	259	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	259	3	60	60	CD
work_4ncc75ijpnflvf7xsil7kyggcm	259	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	259	5	67–77	67–77	CD
work_4ncc75ijpnflvf7xsil7kyggcm	259	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	260	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	260	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	260	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	260	4	2	2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	260	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	261	1	Grimaldi	Grimaldi	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	261	3	S.	S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	261	5	Petroselli	Petroselli	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	261	7	A.	a.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	261	8	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	261	9	Tauro	Tauro	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	261	11	F.	F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	12	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	261	13	Porfiri	Porfiri	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	261	15	M.	M.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	16	Temps	Temps	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	17	de	de	IN
work_4ncc75ijpnflvf7xsil7kyggcm	261	18	concentration	concentration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	261	19	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	261	20	Un	Un	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	21	paradoxe	paradoxe	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	22	dans	dan	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	261	23	l’hydrologie	l’hydrologie	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	24	moderne	moderne	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	261	25	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	262	1	Hydrol	hydrol	NN
work_4ncc75ijpnflvf7xsil7kyggcm	262	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	263	1	Sci	Sci	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	263	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	264	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	265	1	2012	2012	CD
work_4ncc75ijpnflvf7xsil7kyggcm	265	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	265	3	57	57	CD
work_4ncc75ijpnflvf7xsil7kyggcm	265	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	265	5	217–228	217–228	CD
work_4ncc75ijpnflvf7xsil7kyggcm	265	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	266	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	266	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	266	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	266	4	3	3	CD
work_4ncc75ijpnflvf7xsil7kyggcm	266	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	267	1	Gupta	Gupta	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	267	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	267	3	R.S.	R.S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	1	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	2	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	268	3	Hydraulic	Hydraulic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	4	Systems	Systems	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	268	5	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	268	6	Prentice	Prentice	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	7	Hall	Hall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	8	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	268	9	Englewood	Englewood	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	10	Cliffs	Cliffs	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	268	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	268	12	NJ	NJ	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	268	14	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	268	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	268	16	1989	1989	CD
work_4ncc75ijpnflvf7xsil7kyggcm	268	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	269	1	4	4	LS
work_4ncc75ijpnflvf7xsil7kyggcm	269	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	270	1	Ponce	Ponce	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	270	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	270	3	V.M.	V.M.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	1	Engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	271	2	Hydrology	hydrology	NN
work_4ncc75ijpnflvf7xsil7kyggcm	271	3	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	271	4	Principles	principle	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	271	5	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	271	6	Practices	Practices	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	271	7	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	271	8	Prentice	Prentice	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	9	Hall	Hall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	10	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	271	11	Englewood	Englewood	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	12	Cliffs	Cliffs	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	271	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	271	14	NJ	NJ	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	271	16	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	271	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	271	18	1989	1989	CD
work_4ncc75ijpnflvf7xsil7kyggcm	271	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	272	1	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	272	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	273	1	McCuen	McCuen	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	273	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	273	3	R.H.	R.H.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	273	4	Hydrologic	Hydrologic	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	273	5	Analysis	Analysis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	273	6	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	273	7	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	273	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	273	9	2nd	2nd	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	273	10	ed	ed	NN
work_4ncc75ijpnflvf7xsil7kyggcm	273	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	274	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	274	2	Prentice	Prentice	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	274	3	Hall	Hall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	274	4	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	274	5	Englewood	Englewood	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	274	6	Cliffs	Cliffs	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	274	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	274	8	NJ	NJ	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	274	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	274	10	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	274	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	274	12	1998	1998	CD
work_4ncc75ijpnflvf7xsil7kyggcm	274	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	275	1	6	6	CD
work_4ncc75ijpnflvf7xsil7kyggcm	275	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	276	1	Nzewi	Nzewi	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	276	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	276	3	E.U.	E.U.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	277	2	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	277	4	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	5	Civil	Civil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	6	Engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	277	7	PE	PE	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	8	Exam	exam	NN
work_4ncc75ijpnflvf7xsil7kyggcm	277	9	Depth	depth	NN
work_4ncc75ijpnflvf7xsil7kyggcm	277	10	Guide	Guide	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	277	12	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	13	Resources	resource	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	277	14	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	277	15	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	16	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	277	17	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	18	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	277	19	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	20	York	York	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	277	22	NY	NY	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	277	24	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	277	25	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	277	26	2001	2001	CD
work_4ncc75ijpnflvf7xsil7kyggcm	277	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	278	1	7	7	LS
work_4ncc75ijpnflvf7xsil7kyggcm	278	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	279	1	Campos	Campos	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	279	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	279	3	J.N.B.	J.N.B.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	1	Liçoes	liçoe	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	280	2	em	-PRON-	PRP
work_4ncc75ijpnflvf7xsil7kyggcm	280	3	Modelo	Modelo	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	4	e	e	POS
work_4ncc75ijpnflvf7xsil7kyggcm	280	5	Simulação	Simulação	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	6	Hidrológica	Hidrológica	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	7	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	280	8	Expressão	Expressão	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	9	Gráfica	Gráfica	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	10	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	280	11	Fortaleza	Fortaleza	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	280	13	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	280	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	280	15	2009	2009	CD
work_4ncc75ijpnflvf7xsil7kyggcm	280	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	281	1	8	8	LS
work_4ncc75ijpnflvf7xsil7kyggcm	281	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	282	1	Kang	Kang	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	282	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	282	3	M.S.	M.S.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	283	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	283	2	Koo	Koo	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	283	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	283	4	J.H.	J.H.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	284	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	284	2	Chun	Chun	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	284	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	284	4	J.A.	J.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	285	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	285	2	Her	Her	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	285	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	285	4	Y.G.	Y.G.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	286	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	286	2	Park	Park	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	286	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	286	4	S.W.	S.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	287	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	287	2	Yoo	Yoo	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	287	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	287	4	K.	K.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	287	5	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	287	6	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	287	7	drainage	drainage	NN
work_4ncc75ijpnflvf7xsil7kyggcm	287	8	culverts	culvert	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	287	9	considering	consider	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	287	10	critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	287	11	storm	storm	NN
work_4ncc75ijpnflvf7xsil7kyggcm	287	12	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	287	13	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	288	1	Biosyst	Biosyst	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	288	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	289	1	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	289	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	290	1	2009	2009	CD
work_4ncc75ijpnflvf7xsil7kyggcm	290	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	290	3	104	104	CD
work_4ncc75ijpnflvf7xsil7kyggcm	290	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	290	5	425–434	425–434	CD
work_4ncc75ijpnflvf7xsil7kyggcm	290	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	291	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	291	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	291	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	291	4	9	9	CD
work_4ncc75ijpnflvf7xsil7kyggcm	291	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	292	1	Brooks	Brooks	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	292	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	292	3	K.N.	K.N.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	293	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	293	2	Ffolliott	Ffolliott	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	293	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	293	4	P.F.	P.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	294	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	294	2	Magner	Magner	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	294	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	294	4	J.A.	J.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	1	Hydrology	hydrology	NN
work_4ncc75ijpnflvf7xsil7kyggcm	295	2	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	295	3	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	295	4	Management	Management	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	5	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	295	6	Watersheds	Watersheds	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	295	7	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	295	8	Wiley	Wiley	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	9	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	295	10	Blackwell	Blackwell	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	295	12	Oxford	Oxford	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	295	14	UK	UK	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	295	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	295	16	2012	2012	CD
work_4ncc75ijpnflvf7xsil7kyggcm	295	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	296	1	10	10	CD
work_4ncc75ijpnflvf7xsil7kyggcm	296	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	297	1	Maidment	maidment	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	297	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	297	3	D.R.	D.R.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	1	Handbook	Handbook	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	298	3	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	298	5	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	298	7	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	8	Book	Book	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	9	Company	Company	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	10	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	298	11	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	12	York	York	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	298	14	NY	NY	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	298	16	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	298	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	298	18	1993	1993	CD
work_4ncc75ijpnflvf7xsil7kyggcm	298	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	299	1	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	299	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	300	1	Wong	Wong	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	300	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	300	3	T.S.W.	T.S.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	1	Influence	influence	NN
work_4ncc75ijpnflvf7xsil7kyggcm	301	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	301	3	Loss	Loss	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	4	Model	Model	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	5	on	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	301	6	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	7	Discharge	Discharge	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	301	9	Homogeneous	Homogeneous	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	10	Plane	Plane	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	301	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	302	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	302	2	Irrig	Irrig	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	302	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	303	1	Drain	drain	VB
work_4ncc75ijpnflvf7xsil7kyggcm	303	2	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	303	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	304	1	2005	2005	CD
work_4ncc75ijpnflvf7xsil7kyggcm	304	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	304	3	131	131	CD
work_4ncc75ijpnflvf7xsil7kyggcm	304	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	304	5	210–217	210–217	CD
work_4ncc75ijpnflvf7xsil7kyggcm	304	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	305	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	305	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	305	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	305	4	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	305	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	306	1	Koutsoyiannis	Koutsoyiannis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	306	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	306	3	D.	D.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	306	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	306	5	Kozonis	Kozonis	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	306	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	306	7	D.	D.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	306	8	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	306	9	Manetas	Manetas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	306	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	306	11	A.	a.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	307	1	A	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	307	2	mathematical	mathematical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	307	3	framework	framework	NN
work_4ncc75ijpnflvf7xsil7kyggcm	307	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	307	5	studying	study	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	307	6	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	307	7	intensity-	intensity-	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	307	8	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	307	9	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	307	10	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	307	11	relationships	relationship	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	307	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	308	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	308	2	Hydrol	Hydrol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	308	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	309	1	1998	1998	CD
work_4ncc75ijpnflvf7xsil7kyggcm	309	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	309	3	206	206	CD
work_4ncc75ijpnflvf7xsil7kyggcm	309	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	309	5	118–135	118–135	CD
work_4ncc75ijpnflvf7xsil7kyggcm	309	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	310	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	310	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	310	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	310	4	13	13	CD
work_4ncc75ijpnflvf7xsil7kyggcm	310	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	311	1	Dooge	Dooge	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	311	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	311	3	J.C.	J.C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	312	1	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	312	2	rational	rational	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	312	3	method	method	NN
work_4ncc75ijpnflvf7xsil7kyggcm	312	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	312	5	estimating	estimate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	312	6	flood	flood	NN
work_4ncc75ijpnflvf7xsil7kyggcm	312	7	peaks	peak	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	312	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	313	1	Engineering	engineering	NN
work_4ncc75ijpnflvf7xsil7kyggcm	313	2	1957	1957	CD
work_4ncc75ijpnflvf7xsil7kyggcm	313	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	313	4	184	184	CD
work_4ncc75ijpnflvf7xsil7kyggcm	313	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	313	6	311–313	311–313	CD
work_4ncc75ijpnflvf7xsil7kyggcm	313	7	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	314	1	14	14	CD
work_4ncc75ijpnflvf7xsil7kyggcm	314	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	315	1	Singh	Singh	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	315	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	315	3	V.P.	V.P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	316	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	316	2	Woolhiser	Woolhiser	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	316	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	316	4	D.A.	D.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	317	1	Mathematical	Mathematical	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	317	2	Modeling	Modeling	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	317	3	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	317	4	Watershed	Watershed	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	317	5	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	317	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	318	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	318	2	Hydrol	Hydrol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	318	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	319	1	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	319	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	320	1	2002	2002	CD
work_4ncc75ijpnflvf7xsil7kyggcm	320	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	320	3	7	7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	320	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	320	5	270–292	270–292	CD
work_4ncc75ijpnflvf7xsil7kyggcm	320	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	321	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	321	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	321	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	321	4	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	321	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	322	1	Beven	Beven	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	322	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	322	3	K.J.	K.J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	1	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	2	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	323	3	Runoff	runoff	NN
work_4ncc75ijpnflvf7xsil7kyggcm	323	4	Modelling	modelling	NN
work_4ncc75ijpnflvf7xsil7kyggcm	323	5	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	323	6	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	323	7	Primer	Primer	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	8	;	;	,
work_4ncc75ijpnflvf7xsil7kyggcm	323	9	Wiley	Wiley	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	10	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	323	11	Blackwell	Blackwell	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	12	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	323	13	Oxford	Oxford	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	323	15	UK	UK	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	323	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	323	17	2012	2012	CD
work_4ncc75ijpnflvf7xsil7kyggcm	323	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	324	1	16	16	CD
work_4ncc75ijpnflvf7xsil7kyggcm	324	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	325	1	Biswas	Biswas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	325	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	325	3	A.K.	A.K.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	1	History	history	NN
work_4ncc75ijpnflvf7xsil7kyggcm	326	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	326	3	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	326	5	North	North	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	326	7	Holland	Holland	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	8	Publishing	Publishing	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	9	Co.	Co.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	10	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	326	11	Amsterdam	Amsterdam	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	326	13	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	326	14	Netherlands	Netherlands	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	326	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	326	16	1970	1970	CD
work_4ncc75ijpnflvf7xsil7kyggcm	326	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	327	1	17	17	CD
work_4ncc75ijpnflvf7xsil7kyggcm	327	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	328	1	Mulvany	Mulvany	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	328	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	328	3	T.	T.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	328	4	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	5	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	328	6	use	use	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	7	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	8	self	self	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	9	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	328	10	registering	register	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	328	11	rain	rain	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	328	13	flood	flood	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	14	gauges	gauge	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	328	15	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	16	making	make	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	328	17	observations	observation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	328	18	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	19	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	328	20	relations	relation	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	328	21	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	22	rain	rain	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	23	fall	fall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	24	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	328	25	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	26	flood	flood	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	27	discharges	discharge	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	328	28	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	328	29	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	328	30	given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	328	31	catchment	catchment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	328	32	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	329	1	Proc	Proc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	329	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	330	1	Inst	inst	RB
work_4ncc75ijpnflvf7xsil7kyggcm	330	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	331	1	Civ	civ	NN
work_4ncc75ijpnflvf7xsil7kyggcm	331	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	332	1	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	332	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	333	1	Irel	Irel	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	333	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	334	1	1851	1851	CD
work_4ncc75ijpnflvf7xsil7kyggcm	334	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	334	3	4	4	CD
work_4ncc75ijpnflvf7xsil7kyggcm	334	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	334	5	18–33	18–33	CD
work_4ncc75ijpnflvf7xsil7kyggcm	334	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	335	1	18	18	CD
work_4ncc75ijpnflvf7xsil7kyggcm	335	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	336	1	Chow	Chow	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	336	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	336	3	V.	V.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	336	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	336	5	Maidment	Maidment	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	336	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	336	7	D.R.	D.R.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	337	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	337	2	Mays	Mays	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	337	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	337	4	L.W.	L.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	1	Applied	Applied	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	2	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	3	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	338	4	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	5	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	338	6	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	7	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	338	8	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	9	York	York	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	338	11	NY	NY	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	338	13	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	338	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	338	15	1988	1988	CD
work_4ncc75ijpnflvf7xsil7kyggcm	338	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	339	1	19	19	CD
work_4ncc75ijpnflvf7xsil7kyggcm	339	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	340	1	Betson	Betson	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	340	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	340	3	R.P.	R.P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	341	1	What	what	WP
work_4ncc75ijpnflvf7xsil7kyggcm	341	2	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	341	3	watershed	watershed	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	341	4	runoff	runoff	NN
work_4ncc75ijpnflvf7xsil7kyggcm	341	5	?	?	.
work_4ncc75ijpnflvf7xsil7kyggcm	342	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	342	2	Geophys	Geophys	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	342	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	343	1	Res	Res	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	343	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	344	1	1964	1964	CD
work_4ncc75ijpnflvf7xsil7kyggcm	344	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	344	3	69	69	CD
work_4ncc75ijpnflvf7xsil7kyggcm	344	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	344	5	1541–1552	1541–1552	CD
work_4ncc75ijpnflvf7xsil7kyggcm	344	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	345	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	345	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	345	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	345	4	20	20	CD
work_4ncc75ijpnflvf7xsil7kyggcm	345	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	346	1	Hinks	Hinks	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	346	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	346	3	R.W.	R.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	347	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	347	2	Mays	Mays	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	347	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	347	4	L.W.	L.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	348	1	Hydrology	hydrology	NN
work_4ncc75ijpnflvf7xsil7kyggcm	348	2	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	348	3	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	348	4	Excess	Excess	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	348	5	Management	Management	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	348	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	349	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	349	2	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	349	3	Resources	Resources	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	349	4	Handbook	Handbook	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	349	5	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	349	6	Mays	Mays	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	349	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	349	8	L.	L.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	349	9	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	349	10	Ed	Ed	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	349	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	350	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	350	2	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	350	4	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	5	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	350	6	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	7	York	York	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	350	9	NY	NY	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	350	11	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	350	13	1996	1996	CD
work_4ncc75ijpnflvf7xsil7kyggcm	350	14	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	350	15	pp	pp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	350	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	351	1	23–24	23–24	LS
work_4ncc75ijpnflvf7xsil7kyggcm	351	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	352	1	21	21	CD
work_4ncc75ijpnflvf7xsil7kyggcm	352	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	353	1	Schmid	Schmid	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	353	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	353	3	B.H.	B.H.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	354	1	Critical	critical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	354	2	rainfall	rainfall	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	3	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	354	5	overland	overland	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	6	flow	flow	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	7	from	from	IN
work_4ncc75ijpnflvf7xsil7kyggcm	354	8	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	354	9	infiltrating	infiltrate	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	354	10	plane	plane	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	11	surface	surface	NN
work_4ncc75ijpnflvf7xsil7kyggcm	354	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	355	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	355	2	Hydrol	Hydrol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	355	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	356	1	1997	1997	CD
work_4ncc75ijpnflvf7xsil7kyggcm	356	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	356	3	193	193	CD
work_4ncc75ijpnflvf7xsil7kyggcm	356	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	356	5	45–60	45–60	CD
work_4ncc75ijpnflvf7xsil7kyggcm	356	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	357	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	357	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	357	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	357	4	22	22	CD
work_4ncc75ijpnflvf7xsil7kyggcm	357	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	358	1	Debo	Debo	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	358	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	358	3	T.N.	T.N.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	359	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	359	2	Reese	reese	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	359	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	359	4	A.	a.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	360	1	Municipal	Municipal	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	2	Stormwater	Stormwater	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	3	Management	Management	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	360	5	CRC	CRC	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	6	Press	Press	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	7	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	360	8	Boca	Boca	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	9	Raton	Raton	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	360	11	FL	FL	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	360	13	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	360	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	360	15	2002	2002	CD
work_4ncc75ijpnflvf7xsil7kyggcm	360	16	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	361	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	361	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	361	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	361	4	23	23	CD
work_4ncc75ijpnflvf7xsil7kyggcm	361	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	362	1	Rigon	Rigon	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	362	3	R.	R.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	362	5	Odorico	Odorico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	362	7	P.	P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	8	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	362	9	Bertoldi	Bertoldi	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	362	11	G.	G.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	362	12	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	362	13	geomorphic	geomorphic	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	362	14	structure	structure	NN
work_4ncc75ijpnflvf7xsil7kyggcm	362	15	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	362	16	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	362	17	runoff	runoff	NN
work_4ncc75ijpnflvf7xsil7kyggcm	362	18	peak	peak	NN
work_4ncc75ijpnflvf7xsil7kyggcm	362	19	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	363	1	Hydrol	hydrol	NN
work_4ncc75ijpnflvf7xsil7kyggcm	363	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	364	1	Earth	Earth	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	364	2	Syst	Syst	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	364	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	365	1	Sci	Sci	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	365	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	366	1	2011	2011	CD
work_4ncc75ijpnflvf7xsil7kyggcm	366	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	366	3	15	15	CD
work_4ncc75ijpnflvf7xsil7kyggcm	366	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	366	5	1853–1863	1853–1863	CD
work_4ncc75ijpnflvf7xsil7kyggcm	366	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	367	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	367	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	367	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	367	4	24	24	CD
work_4ncc75ijpnflvf7xsil7kyggcm	367	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	368	1	Burke	Burke	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	368	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	368	3	C.C.	C.C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	369	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	369	2	Burke	Burke	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	369	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	369	4	T.T.	T.T.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	1	Stormwater	Stormwater	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	2	Drainage	Drainage	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	3	Manual	Manual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	4	2015	2015	CD
work_4ncc75ijpnflvf7xsil7kyggcm	370	5	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	370	6	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	7	Local	Local	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	8	Technical	Technical	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	9	Assistance	Assistance	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	10	Program	Program	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	11	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	370	12	LTAP	LTAP	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	13	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	370	14	Publications	publication	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	370	15	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	370	16	West	West	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	17	Lafayette	Lafayette	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	370	19	IN	IN	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	370	21	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	370	22	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	370	23	2015	2015	CD
work_4ncc75ijpnflvf7xsil7kyggcm	370	24	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	371	1	25	25	CD
work_4ncc75ijpnflvf7xsil7kyggcm	371	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	372	1	Pruski	Pruski	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	372	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	372	3	F.F.	F.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	373	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	373	2	Teixeira	Teixeira	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	373	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	373	4	A.F.	A.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	374	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	374	2	Silva	Silva	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	374	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	374	4	D.D.	D.D.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	375	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	375	2	Cecílio	Cecílio	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	375	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	375	4	R.A.	R.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	375	5	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	375	6	Silva	Silva	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	375	7	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	375	8	J.M.A.	J.M.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	376	1	Plúvio	Plúvio	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	376	2	2.1	2.1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	376	3	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	376	4	Chuvas	Chuvas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	376	5	intensas	intensas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	376	6	para	para	VBP
work_4ncc75ijpnflvf7xsil7kyggcm	376	7	o	o	IN
work_4ncc75ijpnflvf7xsil7kyggcm	376	8	Brasil	Brasil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	376	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	377	1	In	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	377	2	HIDROS	HIDROS	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	377	3	Dimens	Dimens	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	377	4	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	378	1	Sist	sist	NN
work_4ncc75ijpnflvf7xsil7kyggcm	378	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	379	1	Hidroagrícolas	Hidroagrícolas	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	2	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	379	3	Pruski	Pruski	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	5	F.F.	F.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	7	Silva	Silva	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	9	D.D.	D.D.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	11	Teixeira	Teixeira	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	13	A.F.	A.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	15	Cecílio	Cecílio	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	17	R.A.	R.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	18	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	19	Silva	Silva	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	20	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	21	J.M.A.	J.M.A.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	22	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	23	Griebeler	Griebeler	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	24	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	25	N.P.	N.P.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	26	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	379	27	Eds	Eds	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	379	28	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	380	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	380	2	Editora	Editora	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	380	3	UFV	UFV	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	380	4	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	380	5	Viçosa	Viçosa	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	380	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	380	7	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	380	8	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	380	9	2006	2006	CD
work_4ncc75ijpnflvf7xsil7kyggcm	380	10	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	380	11	pp	pp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	380	12	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	381	1	15–25	15–25	LS
work_4ncc75ijpnflvf7xsil7kyggcm	381	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	382	1	26	26	CD
work_4ncc75ijpnflvf7xsil7kyggcm	382	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	383	1	Manzano	Manzano	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	2	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	383	3	Agugliaro	Agugliaro	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	383	5	F.	F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	6	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	383	7	Zapata	Zapata	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	8	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	383	9	Sierra	Sierra	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	383	11	A.	a.	NN
work_4ncc75ijpnflvf7xsil7kyggcm	383	12	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	383	13	Rubí	Rubí	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	14	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	383	15	Maldonado	Maldonado	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	383	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	383	17	J.F.	J.F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	384	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	384	2	Hernández	Hernández	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	384	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	384	4	Escobedo	Escobedo	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	384	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	384	6	Q.	Q.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	385	1	Assessment	assessment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	385	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	385	3	obtaining	obtain	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	385	4	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	385	5	curve	curve	NN
work_4ncc75ijpnflvf7xsil7kyggcm	385	6	methods	method	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	385	7	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	385	8	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	385	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	386	1	Technol	Technol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	386	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	387	1	Cienc	Cienc	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	387	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	388	1	Del.	Delaware	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	389	1	Agua	Agua	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	389	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	390	1	2014	2014	CD
work_4ncc75ijpnflvf7xsil7kyggcm	390	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	390	3	5	5	CD
work_4ncc75ijpnflvf7xsil7kyggcm	390	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	390	5	151–161	151–161	CD
work_4ncc75ijpnflvf7xsil7kyggcm	390	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	391	1	27	27	CD
work_4ncc75ijpnflvf7xsil7kyggcm	391	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	392	1	Chen	Chen	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	392	3	C.	C.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	4	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	5	Intensity	Intensity	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	6	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	392	7	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	8	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	392	9	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	392	10	Formulas	Formulas	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	392	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	393	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	393	2	Hydraul	Hydraul	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	393	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	394	1	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	394	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	395	1	1983	1983	CD
work_4ncc75ijpnflvf7xsil7kyggcm	395	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	395	3	109	109	CD
work_4ncc75ijpnflvf7xsil7kyggcm	395	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	395	5	1603–1621	1603–1621	CD
work_4ncc75ijpnflvf7xsil7kyggcm	395	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	396	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	396	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	396	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	396	4	28	28	CD
work_4ncc75ijpnflvf7xsil7kyggcm	396	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	397	1	Zapata	Zapata	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	397	2	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	397	3	Sierra	Sierra	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	397	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	397	5	A.J.	A.J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	398	2	Manzano	Manzano	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	3	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	398	4	Agugliaro	Agugliaro	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	398	6	F.	F.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	7	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	398	8	Ayuso	Ayuso	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	9	Muñoz	Muñoz	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	398	10	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	398	11	J.L.	J.L.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	399	1	Assessment	assessment	NN
work_4ncc75ijpnflvf7xsil7kyggcm	399	2	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	399	3	methods	method	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	399	4	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	399	5	obtaining	obtain	VBG
work_4ncc75ijpnflvf7xsil7kyggcm	399	6	rainfall	rainfall	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	399	7	intensity	intensity	NN
work_4ncc75ijpnflvf7xsil7kyggcm	399	8	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	399	9	duration	duration	NN
work_4ncc75ijpnflvf7xsil7kyggcm	399	10	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	399	11	frequency	frequency	NN
work_4ncc75ijpnflvf7xsil7kyggcm	399	12	ratios	ratio	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	399	13	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	399	14	various	various	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	399	15	geographical	geographical	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	399	16	areas	area	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	399	17	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	400	1	Span	span	VB
work_4ncc75ijpnflvf7xsil7kyggcm	400	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	401	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	401	2	Agric	Agric	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	401	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	402	1	Res	Res	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	402	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	403	1	2009	2009	CD
work_4ncc75ijpnflvf7xsil7kyggcm	403	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	403	3	7	7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	403	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	403	5	699	699	CD
work_4ncc75ijpnflvf7xsil7kyggcm	403	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	404	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	4	http://dx.doi.org/10.1080/02626667.2014.880546	http://dx.doi.org/10.1080/02626667.2014.880546	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	404	5	http://dx.doi.org/10.1080/02626667.2011.644244	http://dx.doi.org/10.1080/02626667.2011.644244	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	6	http://dx.doi.org/10.1016/j.biosystemseng.2009.07.004	http://dx.doi.org/10.1016/j.biosystemseng.2009.07.004	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	7	http://dx.doi.org/10.1061/(ASCE)0733-9437(2005)131:2(210	http://dx.doi.org/10.1061/(asce)0733-9437(2005)131:2(210	NN
work_4ncc75ijpnflvf7xsil7kyggcm	404	8	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	9	http://dx.doi.org/10.1016/S0022-1694(98)00097-3	http://dx.doi.org/10.1016/s0022-1694(98)00097-3	UH
work_4ncc75ijpnflvf7xsil7kyggcm	404	10	http://dx.doi.org/10.1061/(ASCE)1084-0699(2002)7:4(270	http://dx.doi.org/10.1061/(asce)1084-0699(2002)7:4(270	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	404	11	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	12	http://dx.doi.org/10.1029/JZ069i008p01541	http://dx.doi.org/10.1029/JZ069i008p01541	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	13	http://dx.doi.org/10.1016/S0022-1694(96)03152-6	http://dx.doi.org/10.1016/S0022-1694(96)03152-6	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	14	http://dx.doi.org/10.1201/9781420032260	http://dx.doi.org/10.1201/9781420032260	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	15	http://dx.doi.org/10.5194/hess-15-1853-2011	http://dx.doi.org/10.5194/hess-15-1853-2011	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	16	http://dx.doi.org/10.1061/(ASCE)0733-9429(1983)109:12(1603	http://dx.doi.org/10.1061/(ASCE)0733-9429(1983)109:12(1603	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	17	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	404	18	http://dx.doi.org/10.5424/sjar/2009073-455	http://dx.doi.org/10.5424/sjar/2009073-455	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	19	Water	Water	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	404	20	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	21	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	404	22	12	12	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	23	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	404	24	2730	2730	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	25	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	26	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	404	27	11	11	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	28	29	29	CD
work_4ncc75ijpnflvf7xsil7kyggcm	404	29	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	405	1	Wenzel	Wenzel	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	405	3	H.G.	H.G.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	405	5	Jr.	Jr.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	6	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	7	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	405	8	Urban	Urban	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	9	Stormwater	Stormwater	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	10	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	405	11	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	406	1	Urban	Urban	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	2	Stormwater	Stormwater	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	3	Hydrol	Hydrol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	406	5	American	American	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	6	Geophysical	Geophysical	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	7	Union	Union	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	8	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	406	9	AGU	AGU	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	10	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	406	11	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	406	12	Washington	Washington	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	406	14	DC	DC	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	15	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	406	16	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	17	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	406	18	2013	2013	CD
work_4ncc75ijpnflvf7xsil7kyggcm	406	19	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	406	20	pp	pp	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	406	21	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	407	1	35–67	35–67	NN
work_4ncc75ijpnflvf7xsil7kyggcm	407	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	408	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	408	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	408	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	408	4	30	30	CD
work_4ncc75ijpnflvf7xsil7kyggcm	408	5	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	409	1	Subramanya	Subramanya	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	409	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	409	3	K.	K.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	409	4	Engineering	Engineering	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	409	5	Hydrology	Hydrology	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	409	6	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	409	7	4th	4th	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	409	8	ed	ed	NN
work_4ncc75ijpnflvf7xsil7kyggcm	409	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	410	1	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	410	2	Tata	Tata	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	3	McGraw	McGraw	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	4	Hill	Hill	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	5	Publishing	Publishing	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	6	Company	Company	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	7	Limited	Limited	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	8	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	410	9	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	10	Delhi	Delhi	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	11	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	410	12	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	410	13	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	410	14	2013	2013	CD
work_4ncc75ijpnflvf7xsil7kyggcm	410	15	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	411	1	31	31	CD
work_4ncc75ijpnflvf7xsil7kyggcm	411	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	412	1	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	412	2	Jersey	Jersey	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	412	3	Department	Department	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	412	4	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	412	5	Transportation	Transportation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	412	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	413	1	Roadway	Roadway	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	2	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	3	Manual	Manual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	4	;	;	:
work_4ncc75ijpnflvf7xsil7kyggcm	413	5	New	New	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	6	Jersey	Jersey	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	7	Department	Department	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	8	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	413	9	Transportation	Transportation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	10	:	:	:
work_4ncc75ijpnflvf7xsil7kyggcm	413	11	Trenton	Trenton	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	12	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	413	13	NJ	NJ	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	14	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	413	15	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	413	16	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	413	17	2015	2015	CD
work_4ncc75ijpnflvf7xsil7kyggcm	413	18	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	414	1	32	32	CD
work_4ncc75ijpnflvf7xsil7kyggcm	414	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	415	1	Wong	Wong	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	415	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	415	3	T.S.W.	T.S.W.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	416	1	Call	call	VB
work_4ncc75ijpnflvf7xsil7kyggcm	416	2	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	416	3	Awakenings	awakening	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	416	4	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	416	5	Storm	Storm	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	416	6	Drainage	Drainage	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	416	7	Design	Design	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	416	8	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	417	1	J.	J.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	417	2	Hydrol	Hydrol	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	417	3	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	418	1	Eng	Eng	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	418	2	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	419	1	2002	2002	CD
work_4ncc75ijpnflvf7xsil7kyggcm	419	2	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	419	3	7	7	CD
work_4ncc75ijpnflvf7xsil7kyggcm	419	4	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	419	5	1–2	1–2	CD
work_4ncc75ijpnflvf7xsil7kyggcm	419	6	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	420	1	[	[	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	420	2	CrossRef	CrossRef	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	420	3	]	]	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	420	4	©	©	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	420	5	2020	2020	CD
work_4ncc75ijpnflvf7xsil7kyggcm	420	6	by	by	IN
work_4ncc75ijpnflvf7xsil7kyggcm	420	7	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	420	8	authors	author	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	420	9	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	421	1	Licensee	Licensee	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	421	2	MDPI	MDPI	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	421	3	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	421	4	Basel	Basel	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	421	5	,	,	,
work_4ncc75ijpnflvf7xsil7kyggcm	421	6	Switzerland	Switzerland	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	421	7	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	422	1	This	this	DT
work_4ncc75ijpnflvf7xsil7kyggcm	422	2	article	article	NN
work_4ncc75ijpnflvf7xsil7kyggcm	422	3	is	be	VBZ
work_4ncc75ijpnflvf7xsil7kyggcm	422	4	an	an	DT
work_4ncc75ijpnflvf7xsil7kyggcm	422	5	open	open	JJ
work_4ncc75ijpnflvf7xsil7kyggcm	422	6	access	access	NN
work_4ncc75ijpnflvf7xsil7kyggcm	422	7	article	article	NN
work_4ncc75ijpnflvf7xsil7kyggcm	422	8	distributed	distribute	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	422	9	under	under	IN
work_4ncc75ijpnflvf7xsil7kyggcm	422	10	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	422	11	terms	term	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	422	12	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	422	13	conditions	condition	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	422	14	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	422	15	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	422	16	Creative	Creative	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	422	17	Commons	Commons	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	422	18	Attribution	Attribution	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	422	19	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	422	20	CC	CC	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	422	21	BY	BY	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	422	22	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	422	23	license	license	NN
work_4ncc75ijpnflvf7xsil7kyggcm	422	24	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	422	25	http://creativecommons.org/licenses/by/4.0/	http://creativecommons.org/licenses/by/4.0/	ADD
work_4ncc75ijpnflvf7xsil7kyggcm	422	26	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	422	27	.	.	.
work_4ncc75ijpnflvf7xsil7kyggcm	423	1	http://dx.doi.org/10.1029/WM007p0035	http://dx.doi.org/10.1029/WM007p0035	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	423	2	http://dx.doi.org/10.1061/(ASCE)1084-0699(2002)7:1(1	http://dx.doi.org/10.1061/(ASCE)1084-0699(2002)7:1(1	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	423	3	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	423	4	http://creativecommons.org/	http://creativecommons.org/	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	423	5	http://creativecommons.org/licenses/by/4.0/.	http://creativecommons.org/licenses/by/4.0/.	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	1	Introduction	introduction	NN
work_4ncc75ijpnflvf7xsil7kyggcm	424	2	Methods	method	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	424	3	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	4	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	5	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	6	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	7	Intensity	Intensity	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	8	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	424	9	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	10	–	–	:
work_4ncc75ijpnflvf7xsil7kyggcm	424	11	Frequency	Frequency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	12	Relationship	Relationship	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	13	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	14	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	15	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	424	16	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	17	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	18	Critical	Critical	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	19	Rainfall	Rainfall	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	20	Duration	Duration	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	21	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	22	a	a	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	23	Given	give	VBN
work_4ncc75ijpnflvf7xsil7kyggcm	424	24	ID	ID	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	25	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	26	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	27	Rational	Rational	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	28	Method	Method	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	29	Conceptual	Conceptual	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	30	Framework	Framework	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	31	Results	Results	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	424	32	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	424	33	Discussions	discussion	NNS
work_4ncc75ijpnflvf7xsil7kyggcm	424	34	On	on	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	35	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	36	Consistency	Consistency	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	37	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	38	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	39	Equation	Equation	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	40	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	424	41	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	42	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	43	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	424	44	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	45	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	46	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	47	Inexistence	Inexistence	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	48	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	49	Partial	Partial	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	50	-	-	HYPH
work_4ncc75ijpnflvf7xsil7kyggcm	424	51	Area	Area	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	52	Effect	Effect	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	53	for	for	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	54	Any	any	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	55	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	56	Relationship	Relationship	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	57	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	58	Equations	Equations	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	424	59	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	60	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	424	61	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	424	62	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	424	63	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	64	Different	Different	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	65	Regions	Regions	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	424	66	of	of	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	67	the	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	68	World	World	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	69	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	70	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	71	Equations	Equations	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	424	72	with	with	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	73	c	c	NN
work_4ncc75ijpnflvf7xsil7kyggcm	424	74	>	>	NN
work_4ncc75ijpnflvf7xsil7kyggcm	424	75	1	1	CD
work_4ncc75ijpnflvf7xsil7kyggcm	424	76	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	77	Brazil	Brazil	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	78	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	79	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	80	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	81	Mexico	Mexico	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	82	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	83	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	84	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	85	India	India	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	86	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	87	Equations	Equations	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	88	in	in	IN
work_4ncc75ijpnflvf7xsil7kyggcm	424	89	Indiana	Indiana	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	90	(	(	-LRB-
work_4ncc75ijpnflvf7xsil7kyggcm	424	91	USA	USA	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	92	)	)	-RRB-
work_4ncc75ijpnflvf7xsil7kyggcm	424	93	The	the	DT
work_4ncc75ijpnflvf7xsil7kyggcm	424	94	IDF	IDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	95	and	and	CC
work_4ncc75ijpnflvf7xsil7kyggcm	424	96	DDF	DDF	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	97	Curves	Curves	NNP
work_4ncc75ijpnflvf7xsil7kyggcm	424	98	Conclusions	Conclusions	NNPS
work_4ncc75ijpnflvf7xsil7kyggcm	424	99	References	References	NNPS