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olwvb.F90 @ 3023

Last change on this file since 3023 was 2089, checked in by Laurent Fairhead, 10 years ago

Inclusion de la physique de MAR

Integration of MAR physics

File size: 7.0 KB

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[2089]	1	SUBROUTINE OLWVB ( KIDIA,KFDIA,KLON,KLEV,KUAER &
	2	& , PABCU,PADJD,PADJU,PB,PBINT,PBSUI,PBSUR,PBTOP &
	3	& , PDISD,PDISU,PEMIS &
	4	& , PGA,PGB,PGASUR,PGBSUR,PGATOP,PGBTOP &
	5	& , PFLUC )
	6	!
	7	!**** LWVB - L.W., VERTICAL INTEGRATION, EXCHANGE WITH BOUNDARIES
	8	!
	9	! PURPOSE.
	10	! --------
	11	! INTRODUCES THE EFFECTS OF THE BOUNDARIES IN THE VERTICAL
	12	! INTEGRATION
	13	!
	14	!** INTERFACE.
	15	! ----------
	16	!
	17	! EXPLICIT ARGUMENTS :
	18	! --------------------
	19	! ==== INPUTS ===
	20	! PABCU : (KLON,NUA,3*KLEV+1); ABSORBER AMOUNTS
	21	! PADJ.. : (KLON,KLEV+1) ; CONTRIBUTION BY ADJACENT LAYERS
	22	! PB : (KLON,NISP,KLEV+1); SPECTRAL HALF-LEVEL PLANCK FUNCTIONS
	23	! PBINT : (KLON,KLEV+1) ; HALF-LEVEL PLANCK FUNCTIONS
	24	! PBSUI : (KLON) ; SURFACE PLANCK FUNCTION
	25	! PBSUR : (KLON,NISP) ; SPECTRAL SURFACE PLANCK FUNCTION
	26	! PBTOP : (KLON,NISP) ; SPECTRAL T.O.A. PLANCK FUNCTION
	27	! PDIS.. : (KLON,KLEV+1) ; CONTRIBUTION BY DISTANT LAYERS
	28	! PEMIS : (KLON) ; SURFACE EMISSIVITY
	29	! PGA, PGB ; PADE APPROXIMANTS
	30	! PGASUR, PGBSUR ; SURFACE PADE APPROXIMANTS
	31	! PGATOP, PGBTOP ; T.O.A. PADE APPROXIMANTS
	32	! ==== OUTPUTS ===
	33	! PFLUC(KLON,2,KLEV) ; RADIATIVE FLUXES CLEAR-SKY:
	34	! 1 ==> UPWARD FLUX TOTAL
	35	!
	36	! IMPLICIT ARGUMENTS : NONE
	37	! --------------------
	38	!
	39	! METHOD.
	40	! -------
	41	!
	42	! 1. COMPUTES THE ENERGY EXCHANGE WITH TOP AND SURFACE OF THE
	43	! ATMOSPHERE
	44	! 2. COMPUTES THE COOLING-TO-SPACE AND HEATING-FROM-GROUND
	45	! TERMS FOR THE APPROXIMATE COOLING RATE ABOVE 10 HPA
	46	! 3. ADDS UP ALL CONTRIBUTIONS TO GET THE CLEAR-SKY FLUXES
	47	!
	48	! EXTERNALS.
	49	! ----------
	50	!
	51	! LWTT
	52	!
	53	! REFERENCE.
	54	! ----------
	55	!
	56	! SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND
	57	! ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS
	58	!
	59	! AUTHOR.
	60	! -------
	61	! JEAN-JACQUES MORCRETTE ECMWF
	62	!
	63	! MODIFICATIONS.
	64	! --------------
	65	! ORIGINAL : 89-07-14
	66	!-----------------------------------------------------------------------
	67
	68	#include "tsmbkind.h"
	69
	70	USE YOEOLW , ONLY : NISP ,NIPD ,NTRA ,NUA ,NG1P1
	71
	72
	73	IMPLICIT NONE
	74
	75
	76	! DUMMY INTEGER SCALARS
	77	INTEGER_M :: KFDIA
	78	INTEGER_M :: KIDIA
	79	INTEGER_M :: KLEV
	80	INTEGER_M :: KLON
	81	INTEGER_M :: KUAER
	82
	83
	84	!-----------------------------------------------------------------------
	85	!
	86	!* 0.1 ARGUMENTS
	87	! ---------
	88	!
	89	!
	90	REAL_B :: PABCU(KLON,NUA,3*KLEV+1) &
	91	& , PADJD(KLON,KLEV+1), PADJU(KLON,KLEV+1) &
	92	& , PB(KLON,NISP,KLEV+1), PBINT(KLON,KLEV+1) &
	93	& , PBSUR(KLON,NISP), PBSUI(KLON), PBTOP(KLON,NISP) &
	94	& , PDISD(KLON,KLEV+1), PDISU(KLON,KLEV+1) &
	95	& , PEMIS(KLON) &
	96	& , PGA(KLON,8,2,KLEV), PGB(KLON,8,2,KLEV) &
	97	& , PGASUR(KLON,8,2), PGBSUR(KLON,8,2) &
	98	& , PGATOP(KLON,8,2), PGBTOP(KLON,8,2)
	99	!
	100	REAL_B :: PFLUC(KLON,2,KLEV+1)
	101	!
	102	!-----------------------------------------------------------------------
	103	!
	104	!* 0.2 LOCAL ARRAYS
	105	! ------------
	106	!
	107	INTEGER_M :: ITX(KLON)
	108	!
	109	REAL_B :: ZBGND(KLON), ZFD(KLON), ZFDN(KLON,KLEV+1) &
	110	& , ZFN10(KLON), ZFU(KLON), ZFUP(KLON,KLEV+1) &
	111	& , ZTT(KLON,NTRA), ZTT1(KLON,NTRA), ZTT2(KLON,NTRA) &
	112	& , ZUU(KLON,NUA) , ZCNSOL(KLON), ZCNTOP(KLON)
	113	!
	114
	115	! LOCAL INTEGER SCALARS
	116	INTEGER_M :: IN, JA, JK, JL, IND1, IND2, IND3, IND4, JLIM
	117
	118	! LOCAL REAL SCALARS
	119	REAL_B :: ZCNTOP1, ZCNTOP2, ZCNTOP3, ZCNTOP4, ZCNTOP5, ZCNTOP6
	120
	121	!-----------------------------------------------------------------------
	122	!
	123	!* 1. INITIALIZATION
	124	! --------------
	125	!
	126	!
	127	!* 1.2 INITIALIZE TRANSMISSION FUNCTIONS
	128	! ---------------------------------
	129	!
	130	DO JA=1,NTRA
	131	DO JL=KIDIA,KFDIA
	132	ZTT (JL,JA)=1.0
	133	ZTT1(JL,JA)=1.0
	134	ZTT2(JL,JA)=1.0
	135	END DO
	136	END DO
	137	!
	138	DO JA=1,NUA
	139	DO JL=KIDIA,KFDIA
	140	ZUU(JL,JA)=1.0
	141	END DO
	142	END DO
	143	!
	144	! ------------------------------------------------------------------
	145	!
	146	!* 2. VERTICAL INTEGRATION
	147	! --------------------
	148	!
	149	IND1=0
	150	IND3=0
	151	IND4=1
	152	IND2=1
	153	!
	154	!
	155	!* 2.3 EXCHANGE WITH TOP OF THE ATMOSPHERE
	156	! -----------------------------------
	157	!
	158	DO JK = 1 , KLEV
	159	IN=(JK-1)*NG1P1+1
	160	!
	161	DO JA=1,KUAER
	162	DO JL=KIDIA,KFDIA
	163	ZUU(JL,JA)=PABCU(JL,JA,IN)
	164	END DO
	165	END DO
	166	!
	167	!
	168	CALL LWTT ( KIDIA,KFDIA,KLON &
	169	& , PGATOP(1,1,1), PGBTOP(1,1,1), ZUU, ZTT )
	170	!
	171	DO JL = KIDIA,KFDIA
	172	ZCNTOP(JL)=PBTOP(JL,1)ZTT(JL,1) ZTT(JL,10) &
	173	& +PBTOP(JL,2)ZTT(JL,2)ZTT(JL,7)*ZTT(JL,11) &
	174	& +PBTOP(JL,3)ZTT(JL,4)ZTT(JL,8)*ZTT(JL,12) &
	175	& +PBTOP(JL,4)ZTT(JL,5)ZTT(JL,9)*ZTT(JL,13) &
	176	& +PBTOP(JL,5)ZTT(JL,3) ZTT(JL,14) &
	177	& +PBTOP(JL,6)ZTT(JL,6) ZTT(JL,15)
	178	ZFD(JL)=ZCNTOP(JL)-PBINT(JL,JK)-PDISD(JL,JK)-PADJD(JL,JK)
	179	ZFDN(JL,JK)=ZFD(JL)
	180	PFLUC(JL,2,JK)=ZFD(JL)
	181	END DO
	182	!
	183	END DO
	184	!
	185	JK = KLEV+1
	186	IN=(JK-1)*NG1P1+1
	187	!
	188	DO JL = KIDIA,KFDIA
	189	ZCNTOP(JL)= PBTOP(JL,1) &
	190	& + PBTOP(JL,2) &
	191	& + PBTOP(JL,3) &
	192	& + PBTOP(JL,4) &
	193	& + PBTOP(JL,5) &
	194	& + PBTOP(JL,6)
	195	ZFD(JL)=ZCNTOP(JL)-PBINT(JL,JK)-PDISD(JL,JK)-PADJD(JL,JK)
	196	ZFDN(JL,JK)=ZFD(JL)
	197	PFLUC(JL,2,JK)=ZFD(JL)
	198	END DO
	199	!
	200	!* 2.4 COOLING-TO-SPACE OF LAYERS ABOVE 10 HPA
	201	! ---------------------------------------
	202	!
	203	!
	204	!* 2.4.1 INITIALIZATION
	205	! --------------
	206	!
	207	!
	208	!* 2.5 EXCHANGE WITH LOWER LIMIT
	209	! -------------------------
	210	!
	211	DO JL = KIDIA,KFDIA
	212	ZBGND(JL)=PBSUI(JL)*PEMIS(JL)-(1.-PEMIS(JL)) &
	213	& *PFLUC(JL,2,1)-PBINT(JL,1)
	214	END DO
	215	!
	216	JK = 1
	217	IN=(JK-1)*NG1P1+1
	218	!
	219	DO JL = KIDIA,KFDIA
	220	ZCNSOL(JL)=PBSUR(JL,1) &
	221	& +PBSUR(JL,2) &
	222	& +PBSUR(JL,3) &
	223	& +PBSUR(JL,4) &
	224	& +PBSUR(JL,5) &
	225	& +PBSUR(JL,6)
	226	ZCNSOL(JL)=ZCNSOL(JL)*ZBGND(JL)/PBSUI(JL)
	227	ZFU(JL)=ZCNSOL(JL)+PBINT(JL,JK)-PDISU(JL,JK)-PADJU(JL,JK)
	228	ZFUP(JL,JK)=ZFU(JL)
	229	PFLUC(JL,1,JK)=ZFU(JL)
	230	END DO
	231	!
	232	DO JK = 2 , KLEV+1
	233	IN=(JK-1)*NG1P1+1
	234	!
	235	!
	236	DO JA=1,KUAER
	237	DO JL=KIDIA,KFDIA
	238	ZUU(JL,JA)=PABCU(JL,JA,1)-PABCU(JL,JA,IN)
	239	END DO
	240	END DO
	241	!
	242	!
	243	CALL LWTT ( KIDIA,KFDIA,KLON &
	244	& , PGASUR(1,1,1), PGBSUR(1,1,1), ZUU, ZTT )
	245	!
	246	DO JL = KIDIA,KFDIA
	247	ZCNSOL(JL)=PBSUR(JL,1)ZTT(JL,1) ZTT(JL,10) &
	248	& +PBSUR(JL,2)ZTT(JL,2)ZTT(JL,7)*ZTT(JL,11) &
	249	& +PBSUR(JL,3)ZTT(JL,4)ZTT(JL,8)*ZTT(JL,12) &
	250	& +PBSUR(JL,4)ZTT(JL,5)ZTT(JL,9)*ZTT(JL,13) &
	251	& +PBSUR(JL,5)ZTT(JL,3) ZTT(JL,14) &
	252	& +PBSUR(JL,6)ZTT(JL,6) ZTT(JL,15)
	253	ZCNSOL(JL)=ZCNSOL(JL)*ZBGND(JL)/PBSUI(JL)
	254	ZFU(JL)=ZCNSOL(JL)+PBINT(JL,JK)-PDISU(JL,JK)-PADJU(JL,JK)
	255	ZFUP(JL,JK)=ZFU(JL)
	256	PFLUC(JL,1,JK)=ZFU(JL)
	257	END DO
	258	!
	259	!
	260	END DO
	261	!
	262	!
	263	!
	264	!* 2.7 CLEAR-SKY FLUXES
	265	! ----------------
	266	!
	267	DO JK = 1 , KLEV+1
	268	DO JL = KIDIA,KFDIA
	269	PFLUC(JL,1,JK) = ZFUP(JL,JK)
	270	PFLUC(JL,2,JK) = ZFDN(JL,JK)
	271	END DO
	272	END DO
	273	!
	274	! ------------------------------------------------------------------
	275	!
	276	RETURN
	277	END SUBROUTINE OLWVB

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