Changeset 3492
- Timestamp:
- May 4, 2019, 12:35:08 PM (5 years ago)
- Location:
- LMDZ6/trunk/libf/phylmd
- Files:
-
- 4 edited
-
cv3_routines.F90 (modified) (8 diffs)
-
cv3param.h (modified) (2 diffs)
-
cv_driver.F90 (modified) (3 diffs)
-
cvflag.h (modified) (1 diff)
Legend:
- Unmodified
- Added
- Removed
-
LMDZ6/trunk/libf/phylmd/cv3_routines.F90
r3435 r3492 125 125 tlcrit=-55.0 126 126 CALL getin_p('tlcrit',tlcrit) 127 qsat_depends_on_qt = .FALSE. 128 CALL getin_p('qsat_depends_on_qt',qsat_depends_on_qt) 127 129 128 130 WRITE (*, *) 't_top_max=', t_top_max … … 236 238 ! debug lv(i,k)= lv0-clmcpv*(t(i,k)-t0) 237 239 lv(i, k) = lv0 - clmcpv*(t(i,k)-273.15) 238 lf(i, k) = lf0 - clmci*(t(i,k)-273.15) 240 !! lf(i, k) = lf0 - clmci*(t(i,k)-273.15) ! erreur de signe !! 241 lf(i, k) = lf0 + clmci*(t(i,k)-273.15) 239 242 cpn(i, k) = cpd*(1.0-q(i,k)) + cpv*q(i, k) 240 243 cpx(i, k) = cpd*(1.0-q(i,k)) + cl*q(i, k) … … 1153 1156 REAL, DIMENSION (nloc, nd), INTENT (OUT) :: ep, sigp, hp 1154 1157 REAL, DIMENSION (nloc, nd), INTENT (OUT) :: buoy 1155 REAL, DIMENSION (nloc, nd), INTENT (OUT) :: frac 1158 REAL, DIMENSION (nloc, nd), INTENT (OUT) :: frac ! ice fraction 1156 1159 1157 1160 !local variables: 1158 1161 INTEGER i, j, k 1159 REAL tg, qg, ahg, alv, alf, s, tc, es, esi, denom, rg, tca, elacrit 1162 REAL smallestreal 1163 REAL tg, qg, dqgdT, ahg, alv, alf, s, tc, es, esi, denom, rg, tca, elacrit 1160 1164 REAL als 1161 REAL qsat_new, snew, qi(nloc, nd) 1162 REAL by, defrac, pden, tbis 1163 REAL ah0(nloc), cape(nloc), capem(nloc), byp(nloc) 1164 LOGICAL lcape(nloc) 1165 INTEGER iposit(nloc) 1166 REAL fracg 1167 REAL deltap 1165 REAL :: qsat_new, snew 1166 REAL, DIMENSION (nloc,nd) :: qi 1167 REAL, DIMENSION (nloc,nd) :: qhsat ! specific humidity at saturation 1168 REAL, DIMENSION (nloc,nd) :: dqhsatdT ! dqhsat/dT 1169 REAL, DIMENSION (nloc) :: ah0, cape, capem, byp 1170 LOGICAL, DIMENSION (nloc) :: lcape 1171 INTEGER, DIMENSION (nloc) :: iposit 1172 REAL :: by, defrac, pden, tbis 1173 REAL :: fracg 1174 REAL :: deltap 1175 REAL, SAVE :: Tx, Tm 1176 DATA Tx/263.15/, Tm/243.15/ 1177 !$OMP THREADPRIVATE(Tx, Tm) 1178 REAL :: aa, bb, dd, ddelta, discr 1179 REAL :: ff, fp 1180 REAL :: coefx, coefm, Zx, Zm, Ux, U, Um 1168 1181 1169 1182 IF (prt_level >= 10) THEN 1170 print *,'cv3_undilute2.0. t(1,k), q(1,k), qs(1,k) ', &1171 (k, t(1,k), q(1,k), qs(1,k), k = 1,nl)1183 print *,'cv3_undilute2.0. icvflag_Tpa, t(1,k), q(1,k), qs(1,k) ', & 1184 icvflag_Tpa, (k, t(1,k), q(1,k), qs(1,k), k = 1,nl) 1172 1185 ENDIF 1186 smallestreal=tiny(smallestreal) 1173 1187 1174 1188 ! ===================================================================== … … 1198 1212 END DO 1199 1213 1214 DO k = minorig, nl 1215 DO i = 1,ncum 1216 qhsat(i,k) = qs(i,k) 1217 ENDDO 1218 ENDDO 1219 1220 !jyg< 1221 ! ===================================================================== 1222 ! --- SET THE THE FRACTION OF PRECIPITATION FALLING OUTSIDE OF CLOUD 1223 ! ===================================================================== 1224 DO k = 1, nl 1225 DO i = 1, ncum 1226 ep(i, k) = 0.0 1227 sigp(i, k) = spfac 1228 END DO 1229 END DO 1230 !>jyg 1231 ! 1200 1232 1201 1233 ! *** Find lifted parcel quantities above cloud base *** 1202 1234 1203 1235 !---------------------------------------------------------------------------- 1236 ! 1237 IF (icvflag_Tpa == 2) THEN 1238 ! 1239 !---------------------------------------------------------------------------- 1240 ! 1241 DO k = minorig + 1, nl 1242 DO i = 1,ncum 1243 tp(i,k) = t(i,k) 1244 ENDDO 1245 !! alv = lv0 - clmcpv*(t(i,k)-273.15) 1246 !! alf = lf0 + clmci*(t(i,k)-273.15) 1247 !! als = alf + alv 1248 DO j = 1,4 1249 DO i = 1, ncum 1250 ! ori if(k.ge.(icb(i)+1))then 1251 IF (k>=(icbs(i)+1)) THEN ! convect3 1252 tg = tp(i, k) 1253 IF (tg .gt. Tx) THEN 1254 es = 6.112*exp(17.67*(tg - 273.15)/(tg + 243.5 - 273.15)) 1255 qg = eps*es/(p(i,k)-es*(1.-eps)) 1256 ELSE 1257 esi = exp(23.33086-(6111.72784/tg)+0.15215*log(tg)) 1258 qg = eps*esi/(p(i,k)-esi*(1.-eps)) 1259 ENDIF 1260 ! Ice fraction 1261 ff = 0. 1262 fp = 1./(Tx - Tm) 1263 IF (tg < Tx) THEN 1264 IF (tg > Tm) THEN 1265 ff = (Tx - tg)*fp 1266 ELSE 1267 ff = 1. 1268 ENDIF ! (tg > Tm) 1269 ENDIF ! (tg < Tx) 1270 ! Intermediate variables 1271 aa = cpd + (cl-cpd)*qnk(i) + lv(i,k)*lv(i,k)*qg/(rrv*tg*tg) 1272 ahg = (cpd + (cl-cpd)*qnk(i))*tg + lv(i,k)*qg - & 1273 lf(i,k)*ff*(qnk(i) - qg) + gz(i,k) 1274 dd = lf(i,k)*lv(i,k)*qg/(rrv*tg*tg) 1275 ddelta = lf(i,k)*(qnk(i) - qg) 1276 bb = aa + ddelta*fp + dd*fp*(Tx-tg) 1277 ! Compute Zx and Zm 1278 coefx = aa 1279 coefm = aa + dd 1280 IF (tg .gt. Tx) THEN 1281 Zx = ahg + coefx*(Tx - tg) 1282 Zm = ahg - ddelta + coefm*(Tm - tg) 1283 ELSE 1284 IF (tg .gt. Tm) THEN 1285 Zx = ahg + (coefx +fp*ddelta)*(Tx - Tg) 1286 Zm = ahg + (coefm +fp*ddelta)*(Tm - Tg) 1287 ELSE 1288 Zx = ahg + ddelta + coefx*(Tx - tg) 1289 Zm = ahg + coefm*(Tm - tg) 1290 ENDIF ! (tg .gt. Tm) 1291 ENDIF ! (tg .gt. Tx) 1292 ! Compute the masks Um, U, Ux 1293 Um = (sign(1., Zm-ah0(i))+1.)/2. 1294 Ux = (sign(1., ah0(i)-Zx)+1.)/2. 1295 U = (1. - Um)*(1. - Ux) 1296 ! Compute the updated parcell temperature Tp : 3 cases depending on tg value 1297 IF (tg .gt. Tx) THEN 1298 discr = bb*bb - 4*dd*fp*(ah0(i) - ahg + ddelta*fp*(Tx-tg)) 1299 Tp(i,k) = tg + & 1300 Um* (ah0(i) - ahg + ddelta) /(aa + dd) + & 1301 U *2*(ah0(i) - ahg + ddelta*fp*(Tx-tg))/(bb + sqrt(discr)) + & 1302 Ux* (ah0(i) - ahg) /aa 1303 ELSEIF (tg .gt. Tm) THEN 1304 discr = bb*bb - 4*dd*fp*(ah0(i) - ahg) 1305 Tp(i,k) = tg + & 1306 Um* (ah0(i) - ahg + ddelta*fp*(tg-Tm))/(aa + dd) + & 1307 U *2*(ah0(i) - ahg) /(bb + sqrt(discr)) + & 1308 Ux* (ah0(i) - ahg + ddelta*fp*(tg-Tx))/aa 1309 ELSE 1310 discr = bb*bb - 4*dd*fp*(ah0(i) - ahg + ddelta*fp*(Tm-tg)) 1311 Tp(i,k) = tg + & 1312 Um* (ah0(i) - ahg) /(aa + dd) + & 1313 U *2*(ah0(i) - ahg + ddelta*fp*(Tm-tg))/(bb + sqrt(discr)) + & 1314 Ux* (ah0(i) - ahg - ddelta) /aa 1315 ENDIF ! (tg .gt. Tx) 1316 ! 1317 !! print *,' j, k, Um, U, Ux, aa, bb, discr, dd, ddelta ', j, k, Um, U, Ux, aa, bb, discr, dd, ddelta 1318 !! print *,' j, k, ah0(i), ahg, tg, qg, tp(i,k), ff ', j, k, ah0(i), ahg, tg, qg, tp(i,k), ff 1319 END IF ! (k>=(icbs(i)+1)) 1320 END DO ! i = 1, ncum 1321 END DO ! j = 1,4 1322 DO i = 1, ncum 1323 IF (k>=(icbs(i)+1)) THEN ! convect3 1324 tg = tp(i, k) 1325 IF (tg .gt. Tx) THEN 1326 es = 6.112*exp(17.67*(tg - 273.15)/(tg + 243.5 - 273.15)) 1327 qg = eps*es/(p(i,k)-es*(1.-eps)) 1328 ELSE 1329 esi = exp(23.33086-(6111.72784/tg)+0.15215*log(tg)) 1330 qg = eps*esi/(p(i,k)-esi*(1.-eps)) 1331 ENDIF 1332 clw(i, k) = qnk(i) - qg 1333 clw(i, k) = max(0.0, clw(i,k)) 1334 tvp(i, k) = max(0., tp(i,k)*(1.+qg/eps-qnk(i))) 1335 ! print*,tvp(i,k),'tvp' 1336 IF (clw(i,k)<1.E-11) THEN 1337 tp(i, k) = tv(i, k) 1338 tvp(i, k) = tv(i, k) 1339 END IF ! (clw(i,k)<1.E-11) 1340 END IF ! (k>=(icbs(i)+1)) 1341 END DO ! i = 1, ncum 1342 END DO ! k = minorig + 1, nl 1343 !---------------------------------------------------------------------------- 1344 ! 1345 ELSE IF (icvflag_Tpa == 1) THEN ! (icvflag_Tpa == 2) 1346 ! 1347 !---------------------------------------------------------------------------- 1348 ! 1349 ! Ice fraction 1350 ! 1351 DO k = minorig + 1, nl 1352 DO i = 1, ncum 1353 frac(i, k) = (Tx - t(i,k))/(Tx - Tm) 1354 frac(i, k) = min(max(frac(i,k),0.0), 1.0) 1355 END DO 1356 END DO 1357 ! Below cloud base, set ice fraction to cloud base value 1358 DO k = 1, nl 1359 DO i = 1, ncum 1360 IF (k<icb(i)) THEN 1361 frac(i,k) = frac(i,icb(i)) 1362 END IF 1363 END DO 1364 END DO 1365 1366 DO k = minorig + 1, nl 1367 DO i = 1,ncum 1368 tp(i,k) = t(i,k) 1369 ENDDO 1370 !! alv = lv0 - clmcpv*(t(i,k)-273.15) 1371 !! alf = lf0 + clmci*(t(i,k)-273.15) 1372 !! als = alf + alv 1373 DO j = 1,4 1374 DO i = 1, ncum 1375 ! ori if(k.ge.(icb(i)+1))then 1376 IF (k>=(icbs(i)+1)) THEN ! convect3 1377 tg = tp(i, k) 1378 IF (tg .gt. Tx) THEN 1379 es = 6.112*exp(17.67*(tg - 273.15)/(tg + 243.5 - 273.15)) 1380 qg = eps*es/(p(i,k)-es*(1.-eps)) 1381 dqgdT = lv(i,k)*qg/(rrv*tg*tg) 1382 ELSE 1383 esi = exp(23.33086-(6111.72784/tg)+0.15215*log(tg)) 1384 qg = eps*esi/(p(i,k)-esi*(1.-eps)) 1385 dqgdT = (lv(i,k)+lf(i,k))*qg/(rrv*tg*tg) 1386 ENDIF 1387 IF (qsat_depends_on_qt) THEN 1388 dqgdT = dqgdT*(1.-qnk(i))/(1.-qg)**2 1389 qg = qg*(1.-qnk(i))/(1.-qg) 1390 ENDIF 1391 ahg = (cpd + (cl-cpd)*qnk(i))*tg + lv(i,k)*qg - & 1392 lf(i,k)*frac(i,k)*(qnk(i) - qg) + gz(i,k) 1393 Tp(i,k) = tg + (ah0(i) - ahg)/ & 1394 (cpd + (cl-cpd)*qnk(i) + (lv(i,k)+frac(i,k)*lf(i,k))*dqgdT) 1395 !! print *,'undilute2 iterations k, Tp(i,k), ah0(i), ahg ', & 1396 !! k, Tp(i,k), ah0(i), ahg 1397 END IF ! (k>=(icbs(i)+1)) 1398 END DO ! i = 1, ncum 1399 END DO ! j = 1,4 1400 DO i = 1, ncum 1401 IF (k>=(icbs(i)+1)) THEN ! convect3 1402 tg = tp(i, k) 1403 IF (tg .gt. Tx) THEN 1404 es = 6.112*exp(17.67*(tg - 273.15)/(tg + 243.5 - 273.15)) 1405 qg = eps*es/(p(i,k)-es*(1.-eps)) 1406 ELSE 1407 esi = exp(23.33086-(6111.72784/tg)+0.15215*log(tg)) 1408 qg = eps*esi/(p(i,k)-esi*(1.-eps)) 1409 ENDIF 1410 IF (qsat_depends_on_qt) THEN 1411 qg = qg*(1.-qnk(i))/(1.-qg) 1412 ENDIF 1413 clw(i, k) = qnk(i) - qg 1414 clw(i, k) = max(0.0, clw(i,k)) 1415 tvp(i, k) = max(0., tp(i,k)*(1.+qg/eps-qnk(i))) 1416 ! print*,tvp(i,k),'tvp' 1417 IF (clw(i,k)<1.E-11) THEN 1418 tp(i, k) = tv(i, k) 1419 tvp(i, k) = tv(i, k) 1420 END IF ! (clw(i,k)<1.E-11) 1421 END IF ! (k>=(icbs(i)+1)) 1422 END DO ! i = 1, ncum 1423 END DO ! k = minorig + 1, nl 1424 ! 1425 !---------------------------------------------------------------------------- 1426 ! 1427 ELSE ! (icvflag_Tpa == 2) ELSE IF(icvflag_Tpa == 1) 1428 ! 1429 !---------------------------------------------------------------------------- 1430 ! 1204 1431 DO k = minorig + 1, nl 1205 1432 DO i = 1, ncum … … 1358 1585 END DO 1359 1586 1360 IF (prt_level >= 10) THEN 1361 print *,'cv3_undilute2.1. tp(1,k), tvp(1,k) ', & 1362 (k, tp(1,k), tvp(1,k), k = 1,nl) 1363 ENDIF 1364 1587 !---------------------------------------------------------------------------- 1588 ! 1589 ENDIF ! (icvflag_Tpa == 2) ELSEIF (icvflag_Tpa == 1) ELSE 1590 ! 1591 !---------------------------------------------------------------------------- 1592 ! 1365 1593 ! ===================================================================== 1366 ! --- SET THE PRECIPITATION EFFICIENCIES AND THE FRACTION OF 1367 ! --- PRECIPITATION FALLING OUTSIDE OF CLOUD 1594 ! --- SET THE PRECIPITATION EFFICIENCIES 1368 1595 ! --- THESE MAY BE FUNCTIONS OF TP(I), P(I) AND CLW(I) 1369 1596 ! ===================================================================== 1370 !1371 !jyg<1372 DO k = 1, nl1373 DO i = 1, ncum1374 ep(i, k) = 0.01375 sigp(i, k) = spfac1376 END DO1377 END DO1378 !>jyg1379 1597 ! 1380 1598 IF (flag_epkeorig/=1) THEN … … 1413 1631 END DO 1414 1632 END IF 1633 ! 1634 ! ========================================================================= 1635 IF (prt_level >= 10) THEN 1636 print *,'cv3_undilute2.1. tp(1,k), tvp(1,k) ', & 1637 (k, tp(1,k), tvp(1,k), k = 1,nl) 1638 ENDIF 1415 1639 ! 1416 1640 ! ===================================================================== … … 1651 1875 DO i = 1, ncum 1652 1876 IF ((k>=icb(i)) .AND. (k<=inb(i))) THEN 1877 !jyg< frac computation moved to beginning of cv3_undilute2. 1878 ! kept here for compatibility test with CMip6 version 1653 1879 frac(i, k) = 1. - (t(i,k)-243.15)/(263.15-243.15) 1654 1880 frac(i, k) = min(max(frac(i,k),0.0), 1.0) … … 1659 1885 END DO 1660 1886 ! Below cloud base, set ice fraction to cloud base value 1661 DO k = 1, nl1662 DO i = 1, ncum1663 IF (k<icb(i)) THEN1664 frac(i,k) = frac(i,icb(i))1665 END IF1666 END DO1667 END DO1668 ! 1669 ELSE 1887 !! DO k = 1, nl 1888 !! DO i = 1, ncum 1889 !! IF (k<icb(i)) THEN 1890 !! frac(i,k) = frac(i,icb(i)) 1891 !! END IF 1892 !! END DO 1893 !! END DO 1894 ! 1895 ELSE ! (cvflag_ice) 1670 1896 ! 1671 1897 DO k = minorig + 1, nl -
LMDZ6/trunk/libf/phylmd/cv3param.h
r2905 r3492 12 12 logical ok_convstop 13 13 logical ok_intermittent 14 logical qsat_depends_on_qt 14 15 integer noff, minorig, nl, nlp, nlm 15 16 integer cv_flag_feed … … 45 46 ,ok_optim_yield & 46 47 ,ok_entrain & 47 ,ok_homo_tend 48 ,ok_homo_tend & 49 ,qsat_depends_on_qt 48 50 !$OMP THREADPRIVATE(/cv3param/) 49 51 -
LMDZ6/trunk/libf/phylmd/cv_driver.F90
r3409 r3492 568 568 ,cape,ep,hp,icb,inb,clw,nk,t,h,lv & 569 569 ,epmax_diag) 570 ! on écrase ep et recalcule hp570 ! on écrase ep et recalcule hp 571 571 END IF 572 572 … … 681 681 ! ================================================================== 682 682 SUBROUTINE cv_flag(iflag_ice_thermo) 683 684 USE ioipsl_getin_p_mod, ONLY : getin_p 685 683 686 IMPLICIT NONE 684 687 … … 693 696 cvflag_grav = .TRUE. 694 697 cvflag_ice = iflag_ice_thermo >= 1 698 ! 699 ! si icvflag_Tpa=0, alors la fraction de glace dans l'ascendance adiabatique est 700 ! fonction de la temperature de l'environnement et la temperature de l'ascendance est 701 ! calculee en deux itérations, une en supposant qu'il n'y a pas de glace et l'autre 702 ! en ajoutant la glace (ancien schéma d'Arnaud Jam). 703 ! si icvflag_Tpa=1, alors la fraction de glace dans l'ascendance adiabatique est 704 ! fonction de la temperature de l'environnement et la temperature de l'ascendance est 705 ! calculee en une seule iteration. 706 ! si icvflag_Tpa=2, alors la fraction de glace dans l'ascendance adiabatique est 707 ! fonction de la temperature de l'ascendance et la temperature de l'ascendance est 708 ! calculee en une seule iteration. 709 icvflag_Tpa=0 710 call getin_p('icvflag_Tpa', icvflag_Tpa) 695 711 696 712 RETURN -
LMDZ6/trunk/libf/phylmd/cvflag.h
r1992 r3492 4 4 logical cvflag_grav 5 5 logical cvflag_ice 6 integer icvflag_Tpa 6 7 7 COMMON /cvflag/ cvflag_grav, cvflag_ice8 COMMON /cvflag/ icvflag_Tpa, cvflag_grav, cvflag_ice 8 9 !$OMP THREADPRIVATE(/cvflag/)
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