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srtm_setcoef.F90 @ 5018

Last change on this file since 5018 was 1990, checked in by Laurent Fairhead, 11 years ago

Corrections à la version r1989 pour permettre la compilation avec RRTM
Inclusion de la licence CeCILL_V2 pour RRTM

Changes to revision r1989 to enable RRTM code compilation
RRTM part put under CeCILL_V2 licence

Property copyright set to
Name of program: LMDZ
Creation date: 1984
Version: LMDZ5
License: CeCILL version 2
Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
See the license file in the root directory

File size: 8.8 KB

Line
1	SUBROUTINE SRTM_SETCOEF &
2	& ( KLEV , KNMOL ,&
3	& PAVEL , PTAVEL , PZ , PTZ , PTBOUND ,&
4	& PCOLDRY , PWKL ,&
5	& KLAYTROP, KLAYSWTCH, KLAYLOW ,&
6	& PCO2MULT, PCOLCH4 , PCOLCO2 , PCOLH2O , PCOLMOL , PCOLN2O , PCOLO2 , PCOLO3 ,&
7	& PFORFAC , PFORFRAC , KINDFOR , PSELFFAC, PSELFFRAC, KINDSELF ,&
8	& PFAC00 , PFAC01 , PFAC10 , PFAC11 ,&
9	& KJP , KJT , KJT1 &
10	& )
11
12	! J. Delamere, AER, Inc. (version 2.5, 02/04/01)
13
14	! Modifications:
15	! JJMorcrette 030224 rewritten / adapted to ECMWF F90 system
16	! M.Hamrud 01-Oct-2003 CY28 Cleaning
17
18	! Purpose: For a given atmosphere, calculate the indices and
19	! fractions related to the pressure and temperature interpolations.
20
21	USE PARKIND1 ,ONLY : JPIM ,JPRB
22	USE YOMHOOK ,ONLY : LHOOK, DR_HOOK
23
24	USE PARSRTM , ONLY : JPLAY
25	USE YOESRTWN, ONLY : PREFLOG, TREF
26	!! USE YOESWN , ONLY : NDBUG
27
28	IMPLICIT NONE
29
30	!-- Input arguments
31
32	INTEGER(KIND=JPIM),INTENT(IN) :: KLEV
33	INTEGER(KIND=JPIM) :: KNMOL ! Argument NOT used
34	REAL(KIND=JPRB) ,INTENT(IN) :: PAVEL(JPLAY)
35	REAL(KIND=JPRB) ,INTENT(IN) :: PTAVEL(JPLAY)
36	REAL(KIND=JPRB) :: PZ(0:JPLAY) ! Argument NOT used
37	REAL(KIND=JPRB) ,INTENT(IN) :: PTZ(0:JPLAY)
38	REAL(KIND=JPRB) ,INTENT(IN) :: PTBOUND
39	REAL(KIND=JPRB) ,INTENT(IN) :: PCOLDRY(JPLAY)
40	REAL(KIND=JPRB) ,INTENT(IN) :: PWKL(35,JPLAY)
41	INTEGER(KIND=JPIM),INTENT(OUT) :: KLAYTROP
42	INTEGER(KIND=JPIM),INTENT(OUT) :: KLAYSWTCH
43	INTEGER(KIND=JPIM),INTENT(OUT) :: KLAYLOW
44	REAL(KIND=JPRB) ,INTENT(OUT) :: PCO2MULT(JPLAY)
45	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLCH4(JPLAY)
46	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLCO2(JPLAY)
47	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLH2O(JPLAY)
48	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLMOL(JPLAY)
49	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLN2O(JPLAY)
50	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLO2(JPLAY)
51	REAL(KIND=JPRB) ,INTENT(OUT) :: PCOLO3(JPLAY)
52	REAL(KIND=JPRB) ,INTENT(OUT) :: PFORFAC(JPLAY)
53	REAL(KIND=JPRB) ,INTENT(OUT) :: PFORFRAC(JPLAY)
54	INTEGER(KIND=JPIM),INTENT(OUT) :: KINDFOR(JPLAY)
55	REAL(KIND=JPRB) ,INTENT(OUT) :: PSELFFAC(JPLAY)
56	REAL(KIND=JPRB) ,INTENT(OUT) :: PSELFFRAC(JPLAY)
57	INTEGER(KIND=JPIM),INTENT(OUT) :: KINDSELF(JPLAY)
58	REAL(KIND=JPRB) ,INTENT(OUT) :: PFAC00(JPLAY)
59	REAL(KIND=JPRB) ,INTENT(OUT) :: PFAC01(JPLAY)
60	REAL(KIND=JPRB) ,INTENT(OUT) :: PFAC10(JPLAY)
61	REAL(KIND=JPRB) ,INTENT(OUT) :: PFAC11(JPLAY)
62	INTEGER(KIND=JPIM),INTENT(OUT) :: KJP(JPLAY)
63	INTEGER(KIND=JPIM),INTENT(OUT) :: KJT(JPLAY)
64	INTEGER(KIND=JPIM),INTENT(OUT) :: KJT1(JPLAY)
65	!-- Output arguments
66
67	!-- local integers
68
69	INTEGER(KIND=JPIM) :: I_NLAYERS, INDBOUND, INDLEV0, JK
70	INTEGER(KIND=JPIM) :: JP1
71
72	!-- local reals
73
74	REAL(KIND=JPRB) :: Z_STPFAC, Z_TBNDFRAC, Z_T0FRAC, Z_PLOG, Z_FP, Z_FT, Z_FT1, Z_WATER, Z_SCALEFAC
75	REAL(KIND=JPRB) :: Z_FACTOR, Z_CO2REG, Z_COMPFP
76	REAL(KIND=JPRB) :: ZHOOK_HANDLE
77
78
79
80
81	IF (LHOOK) CALL DR_HOOK('SRTM_SETCOEF',0,ZHOOK_HANDLE)
82	I_NLAYERS = KLEV
83
84	Z_STPFAC = 296._JPRB/1013._JPRB
85
86	INDBOUND = PTBOUND - 159._JPRB
87	Z_TBNDFRAC = PTBOUND - INT(PTBOUND)
88	INDLEV0 = PTZ(0) - 159._JPRB
89	Z_T0FRAC = PTZ(0) - INT(PTZ(0))
90
91	KLAYTROP = 0
92	KLAYSWTCH = 0
93	KLAYLOW = 0
94
95	!IF (NDBUG.LE.3) THEN
96	! print *,'-------- Computed in SETCOEF --------'
97	! print 8990
98	8990 format(18x,' T PFAC00, 01, 10, 11 PCO2MULT MOL &
99	& CH4 CO2 H2O N2O O2 O3 SFAC &
100	& SFRAC FFAC FFRAC ISLF IFOR')
101	!END IF
102
103	DO JK = 1, I_NLAYERS
104	! Find the two reference pressures on either side of the
105	! layer pressure. Store them in JP and JP1. Store in FP the
106	! fraction of the difference (in ln(pressure)) between these
107	! two values that the layer pressure lies.
108
109	Z_PLOG = LOG(PAVEL(JK))
110	KJP(JK) = INT(36. - 5*(Z_PLOG+0.04))
111	IF (KJP(JK) < 1) THEN
112	KJP(JK) = 1
113	ELSEIF (KJP(JK) > 58) THEN
114	KJP(JK) = 58
115	ENDIF
116	JP1 = KJP(JK) + 1
117	Z_FP = 5. * (PREFLOG(KJP(JK)) - Z_PLOG)
118
119	! Determine, for each reference pressure (JP and JP1), which
120	! reference temperature (these are different for each
121	! reference pressure) is nearest the layer temperature but does
122	! not exceed it. Store these indices in JT and JT1, resp.
123	! Store in FT (resp. FT1) the fraction of the way between JT
124	! (JT1) and the next highest reference temperature that the
125	! layer temperature falls.
126
127	KJT(JK) = INT(3. + (PTAVEL(JK)-TREF(KJP(JK)))/15.)
128	IF (KJT(JK) < 1) THEN
129	KJT(JK) = 1
130	ELSEIF (KJT(JK) > 4) THEN
131	KJT(JK) = 4
132	ENDIF
133	Z_FT = ((PTAVEL(JK)-TREF(KJP(JK)))/15.) - REAL(KJT(JK)-3)
134	KJT1(JK) = INT(3. + (PTAVEL(JK)-TREF(JP1))/15.)
135	IF (KJT1(JK) < 1) THEN
136	KJT1(JK) = 1
137	ELSEIF (KJT1(JK) > 4) THEN
138	KJT1(JK) = 4
139	ENDIF
140	Z_FT1 = ((PTAVEL(JK)-TREF(JP1))/15.) - REAL(KJT1(JK)-3)
141
142	Z_WATER = PWKL(1,JK)/PCOLDRY(JK)
143	Z_SCALEFAC = PAVEL(JK) * Z_STPFAC / PTAVEL(JK)
144
145	! If the pressure is less than ~100mb, perform a different
146	! set of species interpolations.
147
148	IF (Z_PLOG <= 4.56) GO TO 5300
149	KLAYTROP = KLAYTROP + 1
150	IF (Z_PLOG >= 6.62) KLAYLOW = KLAYLOW + 1
151
152	! Set up factors needed to separately include the water vapor
153	! foreign-continuum in the calculation of absorption coefficient.
154
155	PFORFAC(JK) = Z_SCALEFAC / (1.+Z_WATER)
156	Z_FACTOR = (332.0-PTAVEL(JK))/36.0
157	KINDFOR(JK) = MIN(2, MAX(1, INT(Z_FACTOR)))
158	PFORFRAC(JK) = Z_FACTOR - REAL(KINDFOR(JK))
159
160	! Set up factors needed to separately include the water vapor
161	! self-continuum in the calculation of absorption coefficient.
162
163	PSELFFAC(JK) = Z_WATER * PFORFAC(JK)
164	Z_FACTOR = (PTAVEL(JK)-188.0)/7.2
165	KINDSELF(JK) = MIN(9, MAX(1, INT(Z_FACTOR)-7))
166	PSELFFRAC(JK) = Z_FACTOR - REAL(KINDSELF(JK) + 7)
167
168	! Calculate needed column amounts.
169
170	PCOLH2O(JK) = 1.E-20 * PWKL(1,JK)
171	PCOLCO2(JK) = 1.E-20 * PWKL(2,JK)
172	PCOLO3(JK) = 1.E-20 * PWKL(3,JK)
173	! COLO3(LAY) = 0.
174	! COLO3(LAY) = colo3(lay)/1.16
175	PCOLN2O(JK) = 1.E-20 * PWKL(4,JK)
176	PCOLCH4(JK) = 1.E-20 * PWKL(6,JK)
177	PCOLO2(JK) = 1.E-20 * PWKL(7,JK)
178	PCOLMOL(JK) = 1.E-20 * PCOLDRY(JK) + PCOLH2O(JK)
179	! colco2(lay) = 0.
180	! colo3(lay) = 0.
181	! coln2o(lay) = 0.
182	! colch4(lay) = 0.
183	! colo2(lay) = 0.
184	! colmol(lay) = 0.
185	IF (PCOLCO2(JK) == 0.) PCOLCO2(JK) = 1.E-32 * PCOLDRY(JK)
186	IF (PCOLN2O(JK) == 0.) PCOLN2O(JK) = 1.E-32 * PCOLDRY(JK)
187	IF (PCOLCH4(JK) == 0.) PCOLCH4(JK) = 1.E-32 * PCOLDRY(JK)
188	IF (PCOLO2(JK) == 0.) PCOLO2(JK) = 1.E-32 * PCOLDRY(JK)
189	! Using E = 1334.2 cm-1.
190	Z_CO2REG = 3.55E-24 * PCOLDRY(JK)
191	PCO2MULT(JK)= (PCOLCO2(JK) - Z_CO2REG) * &
192	& 272.63EXP(-1919.4/PTAVEL(JK))/(8.7604E-4PTAVEL(JK))
193	GO TO 5400
194
195	! Above LAYTROP.
196	5300 CONTINUE
197
198	! Set up factors needed to separately include the water vapor
199	! foreign-continuum in the calculation of absorption coefficient.
200
201	PFORFAC(JK) = Z_SCALEFAC / (1.+Z_WATER)
202	Z_FACTOR = (PTAVEL(JK)-188.0)/36.0
203	KINDFOR(JK) = 3
204	PFORFRAC(JK) = Z_FACTOR - 1.0
205
206	! Calculate needed column amounts.
207
208	PCOLH2O(JK) = 1.E-20 * PWKL(1,JK)
209	PCOLCO2(JK) = 1.E-20 * PWKL(2,JK)
210	PCOLO3(JK) = 1.E-20 * PWKL(3,JK)
211	PCOLN2O(JK) = 1.E-20 * PWKL(4,JK)
212	PCOLCH4(JK) = 1.E-20 * PWKL(6,JK)
213	PCOLO2(JK) = 1.E-20 * PWKL(7,JK)
214	PCOLMOL(JK) = 1.E-20 * PCOLDRY(JK) + PCOLH2O(JK)
215	IF (PCOLCO2(JK) == 0.) PCOLCO2(JK) = 1.E-32 * PCOLDRY(JK)
216	IF (PCOLN2O(JK) == 0.) PCOLN2O(JK) = 1.E-32 * PCOLDRY(JK)
217	IF (PCOLCH4(JK) == 0.) PCOLCH4(JK) = 1.E-32 * PCOLDRY(JK)
218	IF (PCOLO2(JK) == 0.) PCOLO2(JK) = 1.E-32 * PCOLDRY(JK)
219	Z_CO2REG = 3.55E-24 * PCOLDRY(JK)
220	PCO2MULT(JK)= (PCOLCO2(JK) - Z_CO2REG) * &
221	& 272.63EXP(-1919.4/PTAVEL(JK))/(8.7604E-4PTAVEL(JK))
222
223	PSELFFAC(JK) =0.0_JPRB
224	PSELFFRAC(JK)=0.0_JPRB
225	KINDSELF(JK) = 0
226
227	5400 CONTINUE
228
229	! We have now isolated the layer ln pressure and temperature,
230	! between two reference pressures and two reference temperatures
231	! (for each reference pressure). We multiply the pressure
232	! fraction FP with the appropriate temperature fractions to get
233	! the factors that will be needed for the interpolation that yields
234	! the optical depths (performed in routines TAUGBn for band n).
235
236	Z_COMPFP = 1. - Z_FP
237	PFAC10(JK) = Z_COMPFP * Z_FT
238	PFAC00(JK) = Z_COMPFP * (1. - Z_FT)
239	PFAC11(JK) = Z_FP * Z_FT1
240	PFAC01(JK) = Z_FP * (1. - Z_FT1)
241
242	! IF (NDBUG.LE.3) THEN
243	! print 9000,LAY,LAYTROP,JP(LAY),JT(LAY),JT1(LAY),TAVEL(LAY) &
244	! &,FAC00(LAY),FAC01(LAY),FAC10(LAY),FAC11(LAY) &
245	! &,CO2MULT(LAY),COLMOL(LAY),COLCH4(LAY),COLCO2(LAY),COLH2O(LAY) &
246	! &,COLN2O(LAY),COLO2(LAY),COLO3(LAY),SELFFAC(LAY),SELFFRAC(LAY) &
247	! &,FORFAC(LAY),FORFRAC(LAY),INDSELF(LAY),INDFOR(LAY)
248	9000 format(1x,2I3,3I4,F6.1,4F7.2,12E9.2,2I5)
249	! END IF
250
251	ENDDO
252
253	!-----------------------------------------------------------------------
254	IF (LHOOK) CALL DR_HOOK('SRTM_SETCOEF',1,ZHOOK_HANDLE)
255	END SUBROUTINE SRTM_SETCOEF
256

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