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aeropt.F @ 1907

Last change on this file since 1907 was 1907, checked in by lguez, 10 years ago

Added a copyright property to every file of the distribution, except
for the fcm files (which have their own copyright). Use svn propget on
a file to see the copyright. For instance:

$ svn propget copyright libf/phylmd/physiq.F90
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

Also added the files defining the CeCILL version 2 license, in French
and English, at the top of the LMDZ tree.

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
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 5.1 KB

Line
1	!
2	! $Id: aeropt.F 1907 2013-11-26 13:10:46Z lguez $
3	!
4	SUBROUTINE aeropt(pplay, paprs, t_seri, msulfate, RHcl,
5	. tau_ae, piz_ae, cg_ae, ai )
6	c
7	USE dimphy
8	IMPLICIT none
9	c
10	c
11	c
12	cym#include "dimensions.h"
13	cym#include "dimphy.h"
14	#include "YOMCST.h"
15	c
16	c Arguments:
17	c
18	REAL, INTENT(in) :: paprs(klon,klev+1)
19	REAL, INTENT(in) :: pplay(klon,klev), t_seri(klon,klev)
20	REAL, INTENT(in) :: msulfate(klon,klev) ! masse sulfate ug SO4/m3 [ug/m^3]
21	REAL, INTENT(in) :: RHcl(klon,klev) ! humidite relative ciel clair
22	REAL, INTENT(out) :: tau_ae(klon,klev,2) ! epaisseur optique aerosol
23	REAL, INTENT(out) :: piz_ae(klon,klev,2) ! single scattering albedo aerosol
24	REAL, INTENT(out) :: cg_ae(klon,klev,2) ! asymmetry parameter aerosol
25	REAL, INTENT(out) :: ai(klon) ! POLDER aerosol index
26	c
27	c Local
28	c
29	INTEGER i, k, inu
30	INTEGER RH_num, nbre_RH
31	PARAMETER (nbre_RH=12)
32	REAL RH_tab(nbre_RH)
33	REAL RH_MAX, DELTA, rh
34	PARAMETER (RH_MAX=95.)
35	DATA RH_tab/0.,10.,20.,30.,40.,50.,60.,70.,80.,85.,90.,95./
36	REAL zrho, zdz
37	REAL taue670(klon) ! epaisseur optique aerosol absorption 550 nm
38	REAL taue865(klon) ! epaisseur optique aerosol extinction 865 nm
39	REAL alpha_aer_sulfate(nbre_RH,5) !--unit m2/g SO4
40	REAL alphasulfate
41
42	CHARACTER (LEN=20) :: modname='aeropt'
43	CHARACTER (LEN=80) :: abort_message
44
45	c
46	c Proprietes optiques
47	c
48	REAL alpha_aer(nbre_RH,2) !--unit m2/g SO4
49	REAL cg_aer(nbre_RH,2)
50	DATA alpha_aer/.500130E+01, .500130E+01, .500130E+01,
51	. .500130E+01, .500130E+01, .616710E+01,
52	. .826850E+01, .107687E+02, .136976E+02,
53	. .162972E+02, .211690E+02, .354833E+02,
54	. .139460E+01, .139460E+01, .139460E+01,
55	. .139460E+01, .139460E+01, .173910E+01,
56	. .244380E+01, .332320E+01, .440120E+01,
57	. .539570E+01, .734580E+01, .136038E+02 /
58	DATA cg_aer/.619800E+00, .619800E+00, .619800E+00,
59	. .619800E+00, .619800E+00, .662700E+00,
60	. .682100E+00, .698500E+00, .712500E+00,
61	. .721800E+00, .734600E+00, .755800E+00,
62	. .545600E+00, .545600E+00, .545600E+00,
63	. .545600E+00, .545600E+00, .583700E+00,
64	. .607100E+00, .627700E+00, .645800E+00,
65	. .658400E+00, .676500E+00, .708500E+00 /
66	DATA alpha_aer_sulfate/
67	. 4.910,4.910,4.910,4.910,6.547,7.373,
68	. 8.373,9.788,12.167,14.256,17.924,28.433,
69	. 1.453,1.453,1.453,1.453,2.003,2.321,
70	. 2.711,3.282,4.287,5.210,6.914,12.305,
71	. 4.308,4.308,4.308,4.308,5.753,6.521,
72	. 7.449,8.772,11.014,12.999,16.518,26.772,
73	. 3.265,3.265,3.265,3.265,4.388,5.016,
74	. 5.775,6.868,8.745,10.429,13.457,22.538,
75	. 2.116,2.116,2.116,2.116,2.882,3.330,
76	. 3.876,4.670,6.059,7.327,9.650,16.883/
77	c
78	DO i=1, klon
79	taue670(i)=0.0
80	taue865(i)=0.0
81	ENDDO
82	c
83	DO k=1, klev
84	DO i=1, klon
85	if (t_seri(i,k).eq.0) write (,) 'aeropt T ',i,k,t_seri(i,k)
86	if (pplay(i,k).eq.0) write (,) 'aeropt p ',i,k,pplay(i,k)
87	zrho=pplay(i,k)/t_seri(i,k)/RD ! kg/m3
88	zdz=(paprs(i,k)-paprs(i,k+1))/zrho/RG ! m
89	rh=MIN(RHcl(i,k)*100.,RH_MAX)
90	RH_num = INT( rh/10. + 1.)
91	IF (rh.LT.0.) THEN
92	abort_message = 'aeropt: RH < 0 not possible'
93	CALL abort_gcm (modname,abort_message,1)
94	ENDIF
95	IF (rh.gt.85.) RH_num=10
96	IF (rh.gt.90.) RH_num=11
97	DELTA=(rh-RH_tab(RH_num))/(RH_tab(RH_num+1)-RH_tab(RH_num))
98	c
99	inu=1
100	tau_ae(i,k,inu)=alpha_aer(RH_num,inu) +
101	. DELTA*(alpha_aer(RH_num+1,inu)-alpha_aer(RH_num,inu))
102	tau_ae(i,k,inu)=tau_ae(i,k,inu)msulfate(i,k)zdz*1.e-6
103	piz_ae(i,k,inu)=1.0
104	cg_ae(i,k,inu)=cg_aer(RH_num,inu) +
105	. DELTA*(cg_aer(RH_num+1,inu)-cg_aer(RH_num,inu))
106	c
107	inu=2
108	tau_ae(i,k,inu)=alpha_aer(RH_num,inu) +
109	. DELTA*(alpha_aer(RH_num+1,inu)-alpha_aer(RH_num,inu))
110	tau_ae(i,k,inu)=tau_ae(i,k,inu)msulfate(i,k)zdz*1.e-6
111	piz_ae(i,k,inu)=1.0
112	cg_ae(i,k,inu)=cg_aer(RH_num,inu) +
113	. DELTA*(cg_aer(RH_num+1,inu)-cg_aer(RH_num,inu))
114	cjq
115	cjq for aerosol index
116	c
117	alphasulfate=alpha_aer_sulfate(RH_num,4) +
118	. DELTA*(alpha_aer_sulfate(RH_num+1,4)-
119	. alpha_aer_sulfate(RH_num,4)) !--m2/g
120	c
121	taue670(i)=taue670(i)+
122	. alphasulfatemsulfate(i,k)zdz*1.e-6
123	c
124	alphasulfate=alpha_aer_sulfate(RH_num,5) +
125	. DELTA*(alpha_aer_sulfate(RH_num+1,5)-
126	. alpha_aer_sulfate(RH_num,5)) !--m2/g
127	c
128	taue865(i)=taue865(i)+
129	. alphasulfatemsulfate(i,k)zdz*1.e-6
130
131	ENDDO
132	ENDDO
133	c
134	DO i=1, klon
135	ai(i)=(-log(MAX(taue670(i),0.0001)/
136	. MAX(taue865(i),0.0001))/log(670./865.)) *
137	. taue865(i)
138	ENDDO
139	c
140	RETURN
141	END

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