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surf_ocean_mod.F90 @ 3797

Last change on this file since 3797 was 3797, checked in by lguez, 3 years ago
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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: 14.3 KB

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1	!
2	! $Id: surf_ocean_mod.F90 3797 2021-01-07 21:18:41Z lguez $
3	!
4	MODULE surf_ocean_mod
5
6	IMPLICIT NONE
7
8	CONTAINS
9	!
10	!******************************************************************************
11	!
12	SUBROUTINE surf_ocean(rlon, rlat, swnet, lwnet, alb1, &
13	windsp, rmu0, fder, tsurf_in, &
14	itime, dtime, jour, knon, knindex, &
15	p1lay, z1lay, cdragh, cdragm, precip_rain, precip_snow, temp_air, spechum, &
16	AcoefH, AcoefQ, BcoefH, BcoefQ, &
17	AcoefU, AcoefV, BcoefU, BcoefV, &
18	ps, u1, v1, gustiness, rugoro, pctsrf, &
19	snow, qsurf, agesno, &
20	z0m, z0h, SFRWL, alb_dir_new, alb_dif_new, evap, fluxsens, fluxlat, &
21	tsurf_new, dflux_s, dflux_l, lmt_bils, &
22	flux_u1, flux_v1, delta_sst, delta_sal, ds_ns, dt_ns, dter, dser, tkt, tks, &
23	taur, sss)
24
25	use albedo, only: alboc, alboc_cd
26	use bulk_flux_m, only: bulk_flux
27	USE dimphy, ONLY: klon, zmasq
28	USE surface_data, ONLY : type_ocean
29	USE ocean_forced_mod, ONLY : ocean_forced_noice
30	USE ocean_slab_mod, ONLY : ocean_slab_noice
31	USE ocean_cpl_mod, ONLY : ocean_cpl_noice
32	USE indice_sol_mod, ONLY : nbsrf, is_oce
33	USE limit_read_mod
34	use config_ocean_skin_m, only: activate_ocean_skin
35	!
36	! This subroutine will make a call to ocean_XXX_noice according to the ocean mode (force,
37	! slab or couple). The calculations of albedo and rugosity for the ocean surface are
38	! done in here because they are identical for the different modes of ocean.
39
40
41	INCLUDE "YOMCST.h"
42
43	include "clesphys.h"
44	! for cycle_diurne and for iflag_z0_oce==-1 (prescribed z0)
45
46	! Input variables
47	!******************************************************************************
48	INTEGER, INTENT(IN) :: itime, jour, knon
49	INTEGER, DIMENSION(klon), INTENT(IN) :: knindex
50	REAL, INTENT(IN) :: dtime
51	REAL, DIMENSION(klon), INTENT(IN) :: rlon, rlat
52	REAL, DIMENSION(klon), INTENT(IN) :: swnet ! net shortwave radiation at surface
53	REAL, DIMENSION(klon), INTENT(IN) :: lwnet ! net longwave radiation at surface
54	REAL, DIMENSION(klon), INTENT(IN) :: alb1 ! albedo in visible SW interval
55	REAL, DIMENSION(klon), INTENT(IN) :: windsp ! wind at 10 m, in m s-1
56	REAL, DIMENSION(klon), INTENT(IN) :: rmu0
57	REAL, DIMENSION(klon), INTENT(IN) :: fder
58	REAL, INTENT(IN):: tsurf_in(klon) ! defined only for subscripts 1:knon
59	REAL, DIMENSION(klon), INTENT(IN) :: p1lay,z1lay ! pression (Pa) et altitude (m) du premier niveau
60	REAL, DIMENSION(klon), INTENT(IN) :: cdragh
61	REAL, DIMENSION(klon), INTENT(IN) :: cdragm
62	REAL, DIMENSION(klon), INTENT(IN) :: precip_rain, precip_snow
63	REAL, DIMENSION(klon), INTENT(IN) :: temp_air, spechum
64	REAL, DIMENSION(klon), INTENT(IN) :: AcoefH, AcoefQ, BcoefH, BcoefQ
65	REAL, DIMENSION(klon), INTENT(IN) :: AcoefU, AcoefV, BcoefU, BcoefV
66	REAL, DIMENSION(klon), INTENT(IN) :: ps
67	REAL, DIMENSION(klon), INTENT(IN) :: u1, v1, gustiness
68	REAL, DIMENSION(klon), INTENT(IN) :: rugoro
69	REAL, DIMENSION(klon,nbsrf), INTENT(IN) :: pctsrf
70
71	! In/Output variables
72	!******************************************************************************
73	REAL, DIMENSION(klon), INTENT(INOUT) :: snow
74	REAL, DIMENSION(klon), INTENT(INOUT) :: qsurf
75	REAL, DIMENSION(klon), INTENT(INOUT) :: agesno
76	REAL, DIMENSION(klon), INTENT(inOUT):: z0h
77
78	REAL, intent(inout):: delta_sst(:) ! (knon)
79	! Ocean-air interface temperature minus bulk SST, in K. Defined
80	! only if activate_ocean_skin >= 1.
81
82	real, intent(inout):: delta_sal(:) ! (knon)
83	! Ocean-air interface salinity minus bulk salinity, in ppt. Defined
84	! only if activate_ocean_skin >= 1.
85
86	REAL, intent(inout):: ds_ns(:) ! (knon)
87	! "delta salinity near surface". Salinity variation in the
88	! near-surface turbulent layer. That is subskin salinity minus
89	! foundation salinity. In ppt.
90
91	REAL, intent(inout):: dt_ns(:) ! (knon)
92	! "delta temperature near surface". Temperature variation in the
93	! near-surface turbulent layer. That is subskin temperature
94	! minus foundation temperature. (Can be negative.) In K.
95
96	! Output variables
97	!**************************************************************************
98	REAL, DIMENSION(klon), INTENT(OUT) :: z0m
99	!albedo SB >>>
100	! REAL, DIMENSION(klon), INTENT(OUT) :: alb1_new ! new albedo in visible SW interval
101	! REAL, DIMENSION(klon), INTENT(OUT) :: alb2_new ! new albedo in near IR interval
102	REAL, DIMENSION(6), INTENT(IN) :: SFRWL
103	REAL, DIMENSION(klon,nsw), INTENT(OUT) :: alb_dir_new,alb_dif_new
104	!albedo SB <<<
105	REAL, DIMENSION(klon), INTENT(OUT) :: evap, fluxsens, fluxlat
106	REAL, INTENT(OUT):: tsurf_new(klon) ! sea surface temperature, in K
107	REAL, DIMENSION(klon), INTENT(OUT) :: dflux_s, dflux_l
108	REAL, DIMENSION(klon), INTENT(OUT) :: lmt_bils
109	REAL, DIMENSION(klon), INTENT(OUT) :: flux_u1, flux_v1
110
111	REAL, intent(out):: dter(:) ! (knon)
112	! Temperature variation in the diffusive microlayer, that is
113	! ocean-air interface temperature minus subskin temperature. In
114	! K.
115
116	REAL, intent(out):: dser(:) ! (knon)
117	! Salinity variation in the diffusive microlayer, that is
118	! ocean-air interface salinity minus subskin salinity. In ppt.
119
120	REAL, intent(out):: tkt(:) ! (knon)
121	! épaisseur (m) de la couche de diffusion thermique (microlayer)
122	! cool skin thickness
123
124	REAL, intent(out):: tks(:) ! (knon)
125	! épaisseur (m) de la couche de diffusion de masse (microlayer)
126
127	REAL, intent(out):: taur(:) ! (knon)
128	! momentum flux due to rain, in Pa
129
130	real, intent(out):: sss(:) ! (klon)
131	! Bulk salinity of the surface layer of the ocean, in ppt. (Only
132	! defined for subscripts 1:knon, but we have to declare it with
133	! size klon because of the coupling machinery.)
134
135	! Local variables
136	!*************************************************************************
137	INTEGER :: i, k
138	REAL :: tmp
139	REAL, PARAMETER :: cepdu2=(0.1)**2
140	REAL, DIMENSION(klon) :: alb_eau, z0_lim
141	REAL, DIMENSION(klon) :: radsol
142	REAL, DIMENSION(klon) :: cdragq ! Cdrag pour l'evaporation
143	CHARACTER(len=20),PARAMETER :: modname="surf_ocean"
144	real rhoa(knon) ! density of moist air (kg / m3)
145	REAL sens_prec_liq(knon)
146
147	REAL t_int(knon) ! ocean-air interface temperature, in K
148	real s_int(knon) ! ocean-air interface salinity, in ppt
149
150	!**************************************************************************
151
152
153	!******************************************************************************
154	! Calculate total net radiance at surface
155	!
156	!******************************************************************************
157	radsol(1:klon) = 0.0 ! initialisation a priori inutile
158	radsol(1:knon) = swnet(1:knon) + lwnet(1:knon)
159
160	!******************************************************************************
161	! Cdragq computed from cdrag
162	! The difference comes only from a factor (f_z0qh_oce) on z0, so that
163	! it can be computed inside surf_ocean
164	! More complicated appraches may require the propagation through
165	! pbl_surface of an independant cdragq variable.
166	!******************************************************************************
167
168	IF ( f_z0qh_oce .ne. 1.) THEN
169	! Si on suit les formulations par exemple de Tessel, on
170	! a z0h=0.4nu/u, z0q=0.62nu/u, d'ou f_z0qh_oce=0.62/0.4=1.55
171	cdragq(1:knon)=cdragh(1:knon)* &
172	log(z1lay(1:knon)/z0h(1:knon))/log(z1lay(1:knon)/(f_z0qh_oce*z0h(1:knon)))
173	ELSE
174	cdragq(1:knon)=cdragh(1:knon)
175	ENDIF
176
177	rhoa = PS(:KNON) / (Rd * temp_air(:knon) * (1. + retv * spechum(:knon)))
178	!******************************************************************************
179	! Switch according to type of ocean (couple, slab or forced)
180	!******************************************************************************
181	SELECT CASE(type_ocean)
182	CASE('couple')
183	CALL ocean_cpl_noice( &
184	swnet, lwnet, alb1, &
185	windsp, fder, &
186	itime, dtime, knon, knindex, &
187	p1lay, cdragh, cdragq, cdragm, precip_rain, precip_snow,temp_air,spechum,&
188	AcoefH, AcoefQ, BcoefH, BcoefQ, &
189	AcoefU, AcoefV, BcoefU, BcoefV, &
190	ps, u1, v1, gustiness, tsurf_in, &
191	radsol, snow, agesno, &
192	qsurf, evap, fluxsens, fluxlat, flux_u1, flux_v1, &
193	tsurf_new, dflux_s, dflux_l, sens_prec_liq, sss, delta_sal, rhoa, &
194	delta_sst)
195
196	CASE('slab')
197	CALL ocean_slab_noice( &
198	itime, dtime, jour, knon, knindex, &
199	p1lay, cdragh, cdragq, cdragm, precip_rain, precip_snow, temp_air, spechum,&
200	AcoefH, AcoefQ, BcoefH, BcoefQ, &
201	AcoefU, AcoefV, BcoefU, BcoefV, &
202	ps, u1, v1, gustiness, tsurf_in, &
203	radsol, snow, &
204	qsurf, evap, fluxsens, fluxlat, flux_u1, flux_v1, &
205	tsurf_new, dflux_s, dflux_l, lmt_bils)
206
207	CASE('force')
208	CALL ocean_forced_noice( &
209	itime, dtime, jour, knon, knindex, &
210	p1lay, cdragh, cdragq, cdragm, precip_rain, precip_snow, &
211	temp_air, spechum, &
212	AcoefH, AcoefQ, BcoefH, BcoefQ, &
213	AcoefU, AcoefV, BcoefU, BcoefV, &
214	ps, u1, v1, gustiness, tsurf_in, &
215	radsol, snow, agesno, &
216	qsurf, evap, fluxsens, fluxlat, flux_u1, flux_v1, &
217	tsurf_new, dflux_s, dflux_l, sens_prec_liq, rhoa)
218	END SELECT
219
220	!******************************************************************************
221	! fcodron: compute lmt_bils forced case (same as wfbils_oce / 1.-contfracatm)
222	!******************************************************************************
223	IF (type_ocean.NE.'slab') THEN
224	lmt_bils(1:klon)=0.
225	DO i=1,knon
226	lmt_bils(knindex(i))=(swnet(i)+lwnet(i)+fluxsens(i)+fluxlat(i)) &
227	*pctsrf(knindex(i),is_oce)/(1.-zmasq(knindex(i)))
228	END DO
229	END IF
230
231	!******************************************************************************
232	! Calculate ocean surface albedo
233	!******************************************************************************
234	!albedo SB >>>
235	IF (iflag_albedo==0) THEN
236	!--old parametrizations of ocean surface albedo
237	!
238	IF (iflag_cycle_diurne.GE.1) THEN
239	!
240	CALL alboc_cd(rmu0,alb_eau)
241	!
242	!--ad-hoc correction for model radiative balance tuning
243	!--now outside alboc_cd routine
244	alb_eau(1:klon) = fmagic*alb_eau(1:klon) + pmagic
245	alb_eau(1:klon)=MIN(MAX(alb_eau(1:klon),0.0),1.0)
246	!
247	ELSE
248	!
249	CALL alboc(REAL(jour),rlat,alb_eau)
250	!--ad-hoc correction for model radiative balance tuning
251	!--now outside alboc routine
252	alb_eau(1:klon) = fmagic*alb_eau(1:klon) + pmagic
253	alb_eau(1:klon)=MIN(MAX(alb_eau(1:klon),0.04),0.60)
254	!
255	ENDIF
256	!
257	DO i =1, knon
258	DO k=1,nsw
259	alb_dir_new(i,k) = alb_eau(knindex(i))
260	ENDDO
261	ENDDO
262	!IM 09122015 next line corresponds to the old way of doing in LMDZ5A/IPSLCM5A versions
263	!albedo for diffuse radiation is taken the same as for direct radiation
264	alb_dif_new(1:knon,:)=alb_dir_new(1:knon,:)
265	!IM 09122015 end
266	!
267	ELSE IF (iflag_albedo==1) THEN
268	!--new parametrization of ocean surface albedo by Sunghye Baek
269	!--albedo for direct and diffuse radiation are different
270	!
271	CALL ocean_albedo(knon,rmu0,knindex,windsp,SFRWL,alb_dir_new,alb_dif_new)
272	!
273	!--ad-hoc correction for model radiative balance tuning
274	alb_dir_new(1:knon,:) = fmagic*alb_dir_new(1:knon,:) + pmagic
275	alb_dif_new(1:knon,:) = fmagic*alb_dif_new(1:knon,:) + pmagic
276	alb_dir_new(1:knon,:)=MIN(MAX(alb_dir_new(1:knon,:),0.0),1.0)
277	alb_dif_new(1:knon,:)=MIN(MAX(alb_dif_new(1:knon,:),0.0),1.0)
278	!
279	ELSE IF (iflag_albedo==2) THEN
280	! F. Codron albedo read from limit.nc
281	CALL limit_read_rug_alb(itime, dtime, jour,&
282	knon, knindex, z0_lim, alb_eau)
283	DO i =1, knon
284	DO k=1,nsw
285	alb_dir_new(i,k) = alb_eau(i)
286	ENDDO
287	ENDDO
288	alb_dif_new=alb_dir_new
289	ENDIF
290	!albedo SB <<<
291
292	!******************************************************************************
293	! Calculate the rugosity
294	!******************************************************************************
295	IF (iflag_z0_oce==0) THEN
296	DO i = 1, knon
297	tmp = MAX(cepdu2,gustiness(i)+u1(i)2+v1(i)2)
298	z0m(i) = 0.018cdragm(i) (gustiness(i)+u1(i)2+v1(i)2)/RG &
299	+ 0.1114e-6 / SQRT(cdragm(i) tmp)
300	z0m(i) = MAX(1.5e-05,z0m(i))
301	ENDDO
302	z0h(1:knon)=z0m(1:knon) ! En attendant mieux
303
304	ELSE IF (iflag_z0_oce==1) THEN
305	DO i = 1, knon
306	tmp = MAX(cepdu2,gustiness(i)+u1(i)2+v1(i)2)
307	z0m(i) = 0.018cdragm(i) (gustiness(i)+u1(i)2+v1(i)2)/RG &
308	+ 0.1114e-6 / SQRT(cdragm(i) tmp)
309	z0m(i) = MAX(1.5e-05,z0m(i))
310	z0h(i)=0.414e-6 / SQRT(cdragm(i) tmp)
311	ENDDO
312	ELSE IF (iflag_z0_oce==-1) THEN
313	DO i = 1, knon
314	z0m(i) = z0min
315	z0h(i) = z0min
316	ENDDO
317	ELSE
318	CALL abort_physic(modname,'version non prevue',1)
319	ENDIF
320
321	if (activate_ocean_skin >= 1) then
322	if (type_ocean /= 'couple') sss(:knon) = 35.
323	call bulk_flux(tkt, tks, taur, dter, dser, t_int, s_int, ds_ns, dt_ns, &
324	u = windsp(:knon), t_ocean_1 = tsurf_new(:knon), s1 = sss(:knon), &
325	rain = precip_rain(:knon) + precip_snow(:knon), &
326	hf = - fluxsens(:knon), hlb = - fluxlat(:knon), &
327	rnl = - lwnet(:knon), &
328	tau = sqrt(flux_u1(:knon)2 + flux_v1(:knon)2), rhoa = rhoa, &
329	xlv = [(rlvtt, i = 1, knon)], rf = - sens_prec_liq, dtime = dtime, &
330	rns = swnet(:knon))
331	delta_sst = t_int - tsurf_new(:knon)
332	delta_sal = s_int - sss(:knon)
333	if (activate_ocean_skin >= 2) tsurf_new(:knon) = t_int
334	end if
335
336	END SUBROUTINE surf_ocean
337	!****************************************************************************
338	!
339	END MODULE surf_ocean_mod

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