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clcdrag.F90 @ 3627

Last change on this file since 3627 was 2311, checked in by Ehouarn Millour, 9 years ago

Further modifications to enforce physics/dynamics separation:

moved iniprint.h and misc_mod back to dyn3d_common, as these should only be used by dynamics.
created print_control_mod in the physics to store flags prt_level, lunout, debug to be local to physics (should be used rather than iniprint.h)
created abort_physic.F90 , which does the same job as abort_gcm() did, but should be used instead when in physics.
reactivated inifis (turned it into a module, inifis_mod.F90) to initialize physical constants and print_control_mod flags.

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: 5.2 KB

Line
1	!
2	!$Id: clcdrag.F90 2311 2015-06-25 07:45:24Z lguez $
3	!
4	SUBROUTINE clcdrag(knon, nsrf, paprs, pplay,&
5	u1, v1, t1, q1, &
6	tsurf, qsurf, rugos, &
7	pcfm, pcfh)
8
9	USE dimphy
10	USE indice_sol_mod
11
12	IMPLICIT NONE
13	! ================================================================= c
14	!
15	! Objet : calcul des cdrags pour le moment (pcfm) et
16	! les flux de chaleur sensible et latente (pcfh).
17	!
18	! ================================================================= c
19	!
20	! knon----input-I- nombre de points pour un type de surface
21	! nsrf----input-I- indice pour le type de surface; voir indice_sol_mod.F90
22	! u1-------input-R- vent zonal au 1er niveau du modele
23	! v1-------input-R- vent meridien au 1er niveau du modele
24	! t1-------input-R- temperature de l'air au 1er niveau du modele
25	! q1-------input-R- humidite de l'air au 1er niveau du modele
26	! tsurf------input-R- temperature de l'air a la surface
27	! qsurf---input-R- humidite de l'air a la surface
28	! rugos---input-R- rugosite
29	!
30	! pcfm---output-R- cdrag pour le moment
31	! pcfh---output-R- cdrag pour les flux de chaleur latente et sensible
32	!
33	INTEGER, INTENT(IN) :: knon, nsrf
34	REAL, DIMENSION(klon,klev+1), INTENT(IN) :: paprs
35	REAL, DIMENSION(klon,klev), INTENT(IN) :: pplay
36	REAL, DIMENSION(klon), INTENT(IN) :: u1, v1, t1, q1
37	REAL, DIMENSION(klon), INTENT(IN) :: tsurf, qsurf
38	REAL, DIMENSION(klon), INTENT(IN) :: rugos
39	REAL, DIMENSION(klon), INTENT(OUT) :: pcfm, pcfh
40	!
41	! ================================================================= c
42	!
43	INCLUDE "YOMCST.h"
44	INCLUDE "YOETHF.h"
45	INCLUDE "clesphys.h"
46	!
47	! Quelques constantes et options:
48	!!$PB REAL, PARAMETER :: ckap=0.35, cb=5.0, cc=5.0, cd=5.0, cepdu2=(0.1)**2
49	REAL, PARAMETER :: ckap=0.40, cb=5.0, cc=5.0, cd=5.0, cepdu2=(0.1)**2
50	!
51	! Variables locales :
52	INTEGER :: i
53	REAL :: zdu2, ztsolv
54	REAL :: ztvd, zscf
55	REAL :: zucf, zcr
56	REAL :: friv, frih
57	REAL, DIMENSION(klon) :: zcfm1, zcfm2
58	REAL, DIMENSION(klon) :: zcfh1, zcfh2
59	REAL, DIMENSION(klon) :: zcdn
60	REAL, DIMENSION(klon) :: zri
61	REAL, DIMENSION(klon) :: zgeop1 ! geopotentiel au 1er niveau du modele
62	LOGICAL, PARAMETER :: zxli=.FALSE. ! calcul des cdrags selon Laurent Li
63
64	CHARACTER (LEN=80) :: abort_message
65	CHARACTER (LEN=20) :: modname = 'clcdrag'
66
67
68	!
69	! Fonctions thermodynamiques et fonctions d'instabilite
70	REAL :: fsta, fins, x
71	fsta(x) = 1.0 / (1.0+10.0x(1+8.0*x))
72	fins(x) = SQRT(1.0-18.0*x)
73
74	abort_message='obsolete, remplace par cdrag, use at you own risk'
75	CALL abort_physic(modname,abort_message,1)
76
77
78
79	! ================================================================= c
80	!
81	! Calculer le geopotentiel du premier couche de modele
82	!
83	DO i = 1, knon
84	zgeop1(i) = RD * t1(i) / (0.5*(paprs(i,1)+pplay(i,1))) &
85	* (paprs(i,1)-pplay(i,1))
86	END DO
87	! ================================================================= c
88	!
89	! Calculer le frottement au sol (Cdrag)
90	!
91	DO i = 1, knon
92	zdu2 = MAX(cepdu2,u1(i)2+v1(i)2)
93	ztsolv = tsurf(i) * (1.0+RETV*qsurf(i))
94	ztvd = (t1(i)+zgeop1(i)/RCPD/(1.+RVTMP2*q1(i))) &
95	(1.+RETVq1(i))
96	zri(i) = zgeop1(i)(ztvd-ztsolv)/(zdu2ztvd)
97	zcdn(i) = (ckap/LOG(1.+zgeop1(i)/(RGrugos(i))))*2
98
99	!!$ IF (zri(i) .ge. 0.) THEN ! situation stable
100	IF (zri(i) .GT. 0.) THEN ! situation stable
101	zri(i) = MIN(20.,zri(i))
102	IF (.NOT.zxli) THEN
103	zscf = SQRT(1.+cd*ABS(zri(i)))
104	FRIV = AMAX1(1. / (1.+2.CBzri(i)/ZSCF), f_ri_cd_min)
105	zcfm1(i) = zcdn(i) * FRIV
106	FRIH = AMAX1(1./ (1.+3.CBzri(i)*ZSCF), f_ri_cd_min )
107	!!$ PB zcfh1(i) = zcdn(i) * FRIH
108	!!$ PB zcfh1(i) = f_cdrag_stable * zcdn(i) * FRIH
109	zcfh1(i) = f_cdrag_ter * zcdn(i) * FRIH
110	IF(nsrf.EQ.is_oce) zcfh1(i) = f_cdrag_oce * zcdn(i) * FRIH
111	!!$ PB
112	pcfm(i) = zcfm1(i)
113	pcfh(i) = zcfh1(i)
114	ELSE
115	pcfm(i) = zcdn(i)* fsta(zri(i))
116	pcfh(i) = zcdn(i)* fsta(zri(i))
117	ENDIF
118	ELSE ! situation instable
119	IF (.NOT.zxli) THEN
120	zucf = 1./(1.+3.0cbcczcdn(i)SQRT(ABS(zri(i)) &
121	(1.0+zgeop1(i)/(RGrugos(i)))))
122	zcfm2(i) = zcdn(i)amax1((1.-2.0cbzri(i)zucf),f_ri_cd_min)
123	!!$PB zcfh2(i) = zcdn(i)amax1((1.-3.0cbzri(i)zucf),f_ri_cd_min)
124	zcfh2(i) = f_cdrag_terzcdn(i)amax1((1.-3.0cbzri(i)*zucf),f_ri_cd_min)
125	pcfm(i) = zcfm2(i)
126	pcfh(i) = zcfh2(i)
127	ELSE
128	pcfm(i) = zcdn(i)* fins(zri(i))
129	pcfh(i) = zcdn(i)* fins(zri(i))
130	ENDIF
131	IF(iflag_gusts==0) THEN
132	! cdrah sur l'ocean cf. Miller et al. (1992) - only active when gustiness parameterization is not active
133	zcr = (0.0016/(zcdn(i)SQRT(zdu2)))ABS(ztvd-ztsolv)**(1./3.)
134	IF(nsrf.EQ.is_oce) pcfh(i) =f_cdrag_oce* zcdn(i)(1.0+zcr1.25)*(1./1.25)
135	ENDIF
136	ENDIF
137	END DO
138
139	! ================================================================= c
140
141	! IM cf JLD : on seuille cdrag_m et cdrag_h
142	IF (nsrf == is_oce) THEN
143	DO i=1,knon
144	pcfm(i)=MIN(pcfm(i),cdmmax)
145	pcfh(i)=MIN(pcfh(i),cdhmax)
146	END DO
147	END IF
148
149	END SUBROUTINE clcdrag

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