source: LMDZ6/trunk/libf/phylmd/StratAer/interp_sulf_input.F90 @ 3982

Last change on this file since 3982 was 3677, checked in by oboucher, 5 years ago

Changed the way to initialise nbtr_bin and other dimensions and indices
in the StratAer? module based on infotrac_phy rather than infotrac.

Also added a missing $OMP THREADPRIVATE(nqperes)

  • Property svn:keywords set to Id
File size: 9.5 KB
Line 
1!
2! $Id: interp_sulf_input.F90 3677 2020-05-06 15:18:32Z fairhead $
3!
4SUBROUTINE interp_sulf_input(debutphy,pdtphys,paprs,tr_seri)
5
6  USE netcdf95, ONLY: nf95_close, nf95_gw_var, nf95_inq_dimid, &
7                      nf95_inq_varid, nf95_inquire_dimension, nf95_open
8  USE netcdf, ONLY: nf90_get_var, nf90_noerr, nf90_nowrite
9
10  USE mod_grid_phy_lmdz
11  USE mod_phys_lmdz_mpi_data, ONLY :  is_mpi_root
12  USE mod_phys_lmdz_omp_data, ONLY :  is_omp_root
13  USE phys_local_var_mod, ONLY : budg_3D_backgr_ocs, budg_3D_backgr_so2
14  USE phys_local_var_mod, ONLY : OCS_lifetime, SO2_lifetime
15  USE mod_phys_lmdz_para
16  USE dimphy
17  USE phys_cal_mod
18  USE infotrac_phy
19  USE aerophys
20  USE YOMCST
21
22  IMPLICIT NONE
23
24  include "dimensions.h"
25
26! Variable input
27  REAL paprs(klon,klev+1)
28  REAL tr_seri(klon,klev,nbtr)
29  REAL, INTENT(IN)    :: pdtphys    ! Pas d'integration pour la physique (seconde)
30  LOGICAL, INTENT(IN) :: debutphy   ! le flag de l'initialisation de la physique
31
32! Variables locales
33  INTEGER n_lat   ! number of latitudes in the input data
34  INTEGER n_lon   ! number of longitudes in the input data
35  INTEGER, SAVE :: n_lev   ! number of levels in the input data
36!$OMP THREADPRIVATE(n_lev)
37  INTEGER n_mth   ! number of months in the input data
38  INTEGER, SAVE :: mth_pre
39!$OMP THREADPRIVATE(mth_pre)
40
41! Champs reconstitues
42  REAL paprs_glo(klon_glo,klev+1)
43
44  REAL, POINTER:: latitude(:)
45! (of input data sorted in strictly ascending order)
46
47  REAL, POINTER:: longitude(:)
48! (of input data sorted in strictly ascending order)
49
50  REAL, POINTER:: time(:)
51! (of input data sorted in strictly ascending order)
52
53  REAL, POINTER:: lev(:)
54! levels of input data
55
56  REAL, ALLOCATABLE :: OCS_clim_in(:, :, :, :)
57  REAL, ALLOCATABLE :: SO2_clim_in(:, :, :, :)
58  REAL, ALLOCATABLE :: OCS_clim_mth(:, :, :)
59  REAL, ALLOCATABLE :: SO2_clim_mth(:, :, :)
60  REAL, ALLOCATABLE :: OCS_clim_tmp(:, :)
61  REAL, ALLOCATABLE :: SO2_clim_tmp(:, :)
62  REAL OCS_clim_glo(klon_glo,klev)
63  REAL SO2_clim_glo(klon_glo,klev)
64  REAL, ALLOCATABLE :: OCS_lifetime_in(:, :, :, :)
65  REAL, ALLOCATABLE :: SO2_lifetime_in(:, :, :, :)
66  REAL, ALLOCATABLE :: OCS_lifetime_mth(:, :, :)
67  REAL, ALLOCATABLE :: SO2_lifetime_mth(:, :, :)
68  REAL, ALLOCATABLE :: OCS_lifetime_tmp(:, :)
69  REAL, ALLOCATABLE :: SO2_lifetime_tmp(:, :)
70  REAL OCS_lifetime_glo(klon_glo,klev)
71  REAL SO2_lifetime_glo(klon_glo,klev)
72!
73  REAL, ALLOCATABLE, SAVE :: OCS_clim(:,:)
74  REAL, ALLOCATABLE, SAVE :: SO2_clim(:,:)
75!$OMP THREADPRIVATE(OCS_clim,SO2_clim)
76!
77  INTEGER i, k, kk, j
78  REAL p_bound
79
80! For NetCDF:
81  INTEGER ncid_in  ! IDs for input files
82  INTEGER varid, ncerr
83   
84  INTEGER, PARAMETER :: lev_input=17
85!--pressure at interfaces of input data (in Pa)
86  REAL, DIMENSION(lev_input+1), PARAMETER ::          &
87                    paprs_input=(/                    &
88  1.00000002e+05,   6.06530673e+04,   3.67879449e+04, &
89  2.23130165e+04,   1.35335286e+04,   8.20850004e+03, &
90  4.97870695e+03,   3.01973841e+03,   1.83156393e+03, &
91  1.11089968e+03,   6.73794715e+02,   4.08677153e+02, &
92  2.47875223e+02,   1.50343923e+02,   9.11881985e+01, &
93  5.53084382e+01,   3.35462635e+01,   0.0           /)
94!
95 IF (.NOT.ALLOCATED(OCS_clim)) ALLOCATE(OCS_clim(klon,klev))
96 IF (.NOT.ALLOCATED(SO2_clim)) ALLOCATE(SO2_clim(klon,klev))
97
98  IF (debutphy.OR.mth_cur.NE.mth_pre) THEN
99
100!--preparation of global fields
101  CALL gather(paprs, paprs_glo)
102
103  IF (is_mpi_root.AND.is_omp_root) THEN
104
105!--reading emission files
106    CALL nf95_open("ocs_so2_annual_lmdz.nc", nf90_nowrite, ncid_in)
107
108    CALL nf95_inq_varid(ncid_in, "LEV", varid)
109    CALL nf95_gw_var(ncid_in, varid, lev)
110    n_lev = size(lev)
111
112    CALL nf95_inq_varid(ncid_in, "lat", varid)
113    CALL nf95_gw_var(ncid_in, varid, latitude)
114    n_lat = size(latitude)
115
116    CALL nf95_inq_varid(ncid_in, "lon", varid)
117    CALL nf95_gw_var(ncid_in, varid, longitude)
118    n_lon = size(longitude)
119
120    CALL nf95_inq_varid(ncid_in, "TIME", varid)
121    CALL nf95_gw_var(ncid_in, varid, time)
122    n_mth = size(time)
123
124    IF (.NOT.ALLOCATED(OCS_clim_in))     ALLOCATE(OCS_clim_in(n_lon, n_lat, n_lev, n_mth))
125    IF (.NOT.ALLOCATED(SO2_clim_in))     ALLOCATE(SO2_clim_in(n_lon, n_lat, n_lev, n_mth))
126    IF (.NOT.ALLOCATED(OCS_lifetime_in)) ALLOCATE(OCS_lifetime_in(n_lon, n_lat, n_lev, n_mth))
127    IF (.NOT.ALLOCATED(SO2_lifetime_in)) ALLOCATE(SO2_lifetime_in(n_lon, n_lat, n_lev, n_mth))
128
129    CALL nf95_inq_varid(ncid_in, "OCS", varid)
130    ncerr = nf90_get_var(ncid_in, varid, OCS_clim_in)
131    print *,'code erreur OCS=', ncerr, varid
132
133    CALL nf95_inq_varid(ncid_in, "SO2", varid)
134    ncerr = nf90_get_var(ncid_in, varid, SO2_clim_in)
135    print *,'code erreur SO2=', ncerr, varid
136
137    CALL nf95_inq_varid(ncid_in, "OCS_LIFET", varid)
138    ncerr = nf90_get_var(ncid_in, varid, OCS_lifetime_in)
139    print *,'code erreur OCS_lifetime_in=', ncerr, varid
140
141    CALL nf95_inq_varid(ncid_in, "SO2_LIFET", varid)
142    ncerr = nf90_get_var(ncid_in, varid, SO2_lifetime_in)
143    print *,'code erreur SO2_lifetime_in=', ncerr, varid
144
145    CALL nf95_close(ncid_in)
146
147    IF (.NOT.ALLOCATED(OCS_clim_mth)) ALLOCATE(OCS_clim_mth(n_lon, n_lat, n_lev))
148    IF (.NOT.ALLOCATED(SO2_clim_mth)) ALLOCATE(SO2_clim_mth(n_lon, n_lat, n_lev))
149    IF (.NOT.ALLOCATED(OCS_clim_tmp)) ALLOCATE(OCS_clim_tmp(klon_glo, n_lev))
150    IF (.NOT.ALLOCATED(SO2_clim_tmp)) ALLOCATE(SO2_clim_tmp(klon_glo, n_lev))
151    IF (.NOT.ALLOCATED(OCS_lifetime_mth)) ALLOCATE(OCS_lifetime_mth(n_lon, n_lat, n_lev))
152    IF (.NOT.ALLOCATED(SO2_lifetime_mth)) ALLOCATE(SO2_lifetime_mth(n_lon, n_lat, n_lev))
153    IF (.NOT.ALLOCATED(OCS_lifetime_tmp)) ALLOCATE(OCS_lifetime_tmp(klon_glo, n_lev))
154    IF (.NOT.ALLOCATED(SO2_lifetime_tmp)) ALLOCATE(SO2_lifetime_tmp(klon_glo, n_lev))
155
156!---select the correct month, undo multiplication with 1.e12 (precision reasons)
157!---correct latitudinal order and convert input from volume mixing ratio to mass mixing ratio
158    DO j=1,n_lat
159      SO2_clim_mth(:,j,:) = 1.e-12*SO2_clim_in(:,n_lat+1-j,:,mth_cur)*mSO2mol/mAIRmol
160      OCS_clim_mth(:,j,:) = 1.e-12*OCS_clim_in(:,n_lat+1-j,:,mth_cur)*mOCSmol/mAIRmol
161      SO2_lifetime_mth(:,j,:) = SO2_lifetime_in(:,n_lat+1-j,:,mth_cur)
162      OCS_lifetime_mth(:,j,:) = OCS_lifetime_in(:,n_lat+1-j,:,mth_cur)
163    ENDDO
164
165!---reduce to a klon_glo grid but keep the levels
166    CALL grid2dTo1d_glo(OCS_clim_mth,OCS_clim_tmp)
167    CALL grid2dTo1d_glo(SO2_clim_mth,SO2_clim_tmp)
168    CALL grid2dTo1d_glo(OCS_lifetime_mth,OCS_lifetime_tmp)
169    CALL grid2dTo1d_glo(SO2_lifetime_mth,SO2_lifetime_tmp)
170
171!--set lifetime to very high value in uninsolated areas
172    DO i=1, klon_glo
173      DO kk=1, n_lev
174        IF (OCS_lifetime_tmp(i,kk)==0.0) THEN
175          OCS_lifetime_tmp(i,kk)=1.0e12
176        ENDIF
177        IF (SO2_lifetime_tmp(i,kk)==0.0) THEN
178          SO2_lifetime_tmp(i,kk)=1.0e12
179        ENDIF
180      ENDDO
181    ENDDO
182
183  !---regrid weighted lifetime and climatologies
184  DO i=1, klon_glo
185    DO k=1, klev
186     OCS_lifetime_glo(i,k)=0.0
187     SO2_lifetime_glo(i,k)=0.0
188     OCS_clim_glo(i,k)=0.0
189     SO2_clim_glo(i,k)=0.0
190     DO kk=1, n_lev
191      OCS_lifetime_glo(i,k)=OCS_lifetime_glo(i,k)+ &
192           MAX(0.0,MIN(paprs_glo(i,k),paprs_input(kk))-MAX(paprs_glo(i,k+1),paprs_input(kk+1))) &
193           *OCS_lifetime_tmp(i,kk)/(paprs_glo(i,k)-paprs_glo(i,k+1))
194      SO2_lifetime_glo(i,k)=SO2_lifetime_glo(i,k)+ &
195           MAX(0.0,MIN(paprs_glo(i,k),paprs_input(kk))-MAX(paprs_glo(i,k+1),paprs_input(kk+1))) &
196           *SO2_lifetime_tmp(i,kk)/(paprs_glo(i,k)-paprs_glo(i,k+1))
197      OCS_clim_glo(i,k)=OCS_clim_glo(i,k)+ &
198           MAX(0.0,MIN(paprs_glo(i,k),paprs_input(kk))-MAX(paprs_glo(i,k+1),paprs_input(kk+1))) &
199           *OCS_clim_tmp(i,kk)/(paprs_glo(i,k)-paprs_glo(i,k+1))
200      SO2_clim_glo(i,k)=SO2_clim_glo(i,k)+ &
201           MAX(0.0,MIN(paprs_glo(i,k),paprs_input(kk))-MAX(paprs_glo(i,k+1),paprs_input(kk+1))) &
202           *SO2_clim_tmp(i,kk)/(paprs_glo(i,k)-paprs_glo(i,k+1))
203      ENDDO
204    ENDDO
205  ENDDO
206
207  ENDIF !--is_mpi_root and is_omp_root
208
209!--keep memory of previous month
210  mth_pre=mth_cur
211
212!--scatter global fields around
213  CALL scatter(OCS_clim_glo, OCS_clim)
214  CALL scatter(SO2_clim_glo, SO2_clim)
215  CALL scatter(OCS_lifetime_glo, OCS_lifetime)
216  CALL scatter(SO2_lifetime_glo, SO2_lifetime)
217
218  IF (is_mpi_root.AND.is_omp_root) THEN
219!
220    DEALLOCATE(OCS_clim_in,SO2_clim_in)
221    DEALLOCATE(OCS_clim_mth,SO2_clim_mth)
222    DEALLOCATE(OCS_clim_tmp,SO2_clim_tmp)
223    DEALLOCATE(OCS_lifetime_in,SO2_lifetime_in)
224    DEALLOCATE(OCS_lifetime_mth,SO2_lifetime_mth)
225    DEALLOCATE(OCS_lifetime_tmp,SO2_lifetime_tmp)
226!
227  ENDIF !--is_mpi_root and is_omp_root
228
229  ENDIF ! debutphy.OR.new month
230
231!--set to background value everywhere in the very beginning, later only in the troposphere
232!--a little dangerous as the MAXVAL is not computed on the global field
233  IF (debutphy.AND.MAXVAL(tr_seri).LT.1.e-30) THEN
234    p_bound=0.0
235  ELSE
236    p_bound=50000.
237  ENDIF
238
239!--regridding tracer concentration on the vertical
240  DO i=1, klon
241    DO k=1, klev
242      !
243      !--OCS and SO2 prescribed back to their clim values below p_bound
244      IF (paprs(i,k).GT.p_bound) THEN
245        budg_3D_backgr_ocs(i,k)=OCS_clim(i,k)-tr_seri(i,k,id_OCS_strat)
246        budg_3D_backgr_so2(i,k)=SO2_clim(i,k)-tr_seri(i,k,id_SO2_strat)
247        tr_seri(i,k,id_OCS_strat)=OCS_clim(i,k)
248        tr_seri(i,k,id_SO2_strat)=SO2_clim(i,k)
249      ENDIF
250    ENDDO
251  ENDDO
252
253  !convert SO2_backgr_tend from kg(SO2)/kgA to kg(S)/m2/layer/s for saving as diagnostic
254  DO i=1, klon
255    DO k=1, klev
256      budg_3D_backgr_ocs(i,k)=budg_3D_backgr_ocs(i,k)*mSatom/mOCSmol*(paprs(i,k)-paprs(i,k+1))/RG/pdtphys
257      budg_3D_backgr_so2(i,k)=budg_3D_backgr_so2(i,k)*mSatom/mSO2mol*(paprs(i,k)-paprs(i,k+1))/RG/pdtphys
258    ENDDO
259  ENDDO
260 
261  RETURN
262
263END SUBROUTINE interp_sulf_input
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