4 |
#include "FIZHI_OPTIONS.h" |
#include "FIZHI_OPTIONS.h" |
5 |
subroutine moistio (ndmoist,istrip,npcs, |
subroutine moistio (ndmoist,istrip,npcs, |
6 |
. lowlevel,midlevel,nltop,nsubmin,nsubmax,Lup, |
. lowlevel,midlevel,nltop,nsubmin,nsubmax,Lup, |
7 |
. pz,plz,plze,dpres,pkht,pkl,tz,qz,bi,bj,ntracer,ptracer, |
. pz,plz,plze,dpres,pkht,pkl,uz,vz,tz,qz,bi,bj,ntracerin,ptracer, |
8 |
. qqz,dumoist,dvmoist,dtmoist,dqmoist, |
. qqz,dumoist,dvmoist,dtmoist,dqmoist,cumfric, |
9 |
. im,jm,lm,ptop, |
. im,jm,lm,ptop, |
10 |
. iras,rainlsp,rainconv,snowfall, |
. iras,rainlsp,rainconv,snowfall, |
11 |
. nswcld,cldtot_sw,cldras_sw,cldlsp_sw,nswlz,swlz, |
. nswcld,cldtot_sw,cldras_sw,cldlsp_sw,nswlz,swlz, |
16 |
|
|
17 |
#ifdef ALLOW_DIAGNOSTICS |
#ifdef ALLOW_DIAGNOSTICS |
18 |
#include "SIZE.h" |
#include "SIZE.h" |
19 |
#include "diagnostics_SIZE.h" |
#include "DIAGNOSTICS_SIZE.h" |
20 |
#include "diagnostics.h" |
#include "DIAGNOSTICS.h" |
21 |
#endif |
#endif |
22 |
|
|
23 |
c Input Variables |
c Input Variables |
24 |
c --------------- |
c --------------- |
25 |
integer im,jm,lm |
integer im,jm,lm |
26 |
integer ndmoist,istrip,npcs |
integer ndmoist,istrip,npcs |
27 |
integer bi,bj,ntracer,ptracer |
integer bi,bj,ntracerin,ptracer |
28 |
integer lowlevel,midlevel,nltop,nsubmin,nsubmax,Lup |
integer lowlevel,midlevel,nltop,nsubmin,nsubmax,Lup |
29 |
_RL pz(im,jm),plz(im,jm,lm),plze(im,jm,lm+1),dpres(im,jm,lm) |
_RL pz(im,jm),plz(im,jm,lm),plze(im,jm,lm+1),dpres(im,jm,lm) |
30 |
_RL pkht(im,jm,lm+1),pkl(im,jm,lm) |
_RL pkht(im,jm,lm+1),pkl(im,jm,lm) |
31 |
_RL tz(im,jm,lm),qz(im,jm,lm,ntracer) |
_RL tz(im,jm,lm),qz(im,jm,lm,ntracerin) |
32 |
|
_RL uz(im,jm,lm),vz(im,jm,lm) |
33 |
_RL qqz(im,jm,lm) |
_RL qqz(im,jm,lm) |
34 |
_RL dumoist(im,jm,lm),dvmoist(im,jm,lm) |
_RL dumoist(im,jm,lm),dvmoist(im,jm,lm) |
35 |
_RL dtmoist(im,jm,lm),dqmoist(im,jm,lm,ntracer) |
_RL dtmoist(im,jm,lm),dqmoist(im,jm,lm,ntracerin) |
36 |
|
logical cumfric |
37 |
_RL ptop |
_RL ptop |
38 |
integer iras |
integer iras |
39 |
_RL rainlsp(im,jm),rainconv(im,jm),snowfall(im,jm) |
_RL rainlsp(im,jm),rainconv(im,jm),snowfall(im,jm) |
90 |
_RL tmpgather(im*jm,lm) |
_RL tmpgather(im*jm,lm) |
91 |
_RL deltgather(im*jm,lm) |
_RL deltgather(im*jm,lm) |
92 |
_RL delqgather(im*jm,lm) |
_RL delqgather(im*jm,lm) |
93 |
_RL ugather(im*jm,lm,ntracer) |
_RL ugather(im*jm,lm,ntracerin+2-ptracer) |
94 |
_RL delugather(im*jm,lm,ntracer) |
_RL delugather(im*jm,lm,ntracerin+2-ptracer) |
95 |
_RL deltrnev(im*jm,lm) |
_RL deltrnev(im*jm,lm) |
96 |
_RL delqrnev(im*jm,lm) |
_RL delqrnev(im*jm,lm) |
97 |
|
|
103 |
c --------------- |
c --------------- |
104 |
_RL saveth (istrip,lm) |
_RL saveth (istrip,lm) |
105 |
_RL saveq (istrip,lm) |
_RL saveq (istrip,lm) |
106 |
_RL saveu (istrip,lm,ntracer) |
_RL saveu (istrip,lm,ntracerin+2-ptracer) |
107 |
_RL usubcl (istrip, ntracer) |
_RL usubcl (istrip, ntracerin+2-ptracer) |
108 |
|
|
109 |
_RL ple(istrip,lm+1) |
_RL ple(istrip,lm+1) |
110 |
_RL dp(istrip,lm) |
_RL dp(istrip,lm) |
113 |
_RL PLKE(ISTRIP,lm+1) |
_RL PLKE(ISTRIP,lm+1) |
114 |
_RL TH(ISTRIP,lm) ,CVTH(ISTRIP,lm) |
_RL TH(ISTRIP,lm) ,CVTH(ISTRIP,lm) |
115 |
_RL CVQ(ISTRIP,lm) |
_RL CVQ(ISTRIP,lm) |
116 |
_RL UL(ISTRIP,lm,ntracer) |
_RL UL(ISTRIP,lm,ntracerin+2-ptracer) |
117 |
_RL cvu(istrip,lm,ntracer) |
_RL cvu(istrip,lm,ntracerin+2-ptracer) |
118 |
_RL CLMAXO(ISTRIP,lm),CLBOTH(ISTRIP,lm) |
_RL CLMAXO(ISTRIP,lm),CLBOTH(ISTRIP,lm) |
119 |
_RL CLSBTH(ISTRIP,lm) |
_RL CLSBTH(ISTRIP,lm) |
120 |
_RL TMP1(ISTRIP,lm), TMP2(ISTRIP,lm) |
_RL TMP1(ISTRIP,lm), TMP2(ISTRIP,lm) |
146 |
_RL tmstp,tminv,sday,grav,alhl,cp,elocp,gamfac |
_RL tmstp,tminv,sday,grav,alhl,cp,elocp,gamfac |
147 |
_RL rkappa,p0kappa,p0kinv,ptopkap,pcheck |
_RL rkappa,p0kappa,p0kinv,ptopkap,pcheck |
148 |
_RL tice,getcon,pi |
_RL tice,getcon,pi |
149 |
integer ntracedim |
integer ntracer,ntracedim, ntracex |
150 |
|
|
151 |
C ********************************************************************** |
C ********************************************************************** |
152 |
C **** INITIALIZATION **** |
C **** INITIALIZATION **** |
153 |
C ********************************************************************** |
C ********************************************************************** |
154 |
|
|
155 |
|
C Add U and V components to tracer array for cumulus friction |
156 |
|
|
157 |
|
if(cumfric) then |
158 |
|
ntracer = ntracerin + 2 |
159 |
|
else |
160 |
|
ntracer = ntracerin |
161 |
|
endif |
162 |
ntracedim= max(ntracer-ptracer,1) |
ntracedim= max(ntracer-ptracer,1) |
163 |
|
ntracex= ntracer-ptracer |
164 |
IMSTP = nsecf(NDMOIST) |
IMSTP = nsecf(NDMOIST) |
165 |
TMSTP = FLOAT(IMSTP) |
TMSTP = FLOAT(IMSTP) |
166 |
TMINV = 1. / TMSTP |
TMINV = 1. / TMSTP |
272 |
dpgather(indx,L) = dpres(pblindex(indx),1,L) |
dpgather(indx,L) = dpres(pblindex(indx),1,L) |
273 |
enddo |
enddo |
274 |
enddo |
enddo |
275 |
c do nt = 1,ntracer-ptracer |
C General Tracers |
276 |
c do L = 1,lm |
C---------------- |
277 |
c do indx = 1,im*jm |
do nt = 1,ntracerin-ptracer |
278 |
c ugather(indx,L,nt) = qz(pblindex(indx),1,L,nt+ptracer) |
do L = 1,lm |
279 |
c enddo |
do indx = 1,im*jm |
280 |
c enddo |
ugather(indx,L,nt) = qz(pblindex(indx),1,L,nt+ptracer) |
281 |
c enddo |
enddo |
282 |
|
enddo |
283 |
|
enddo |
284 |
|
|
285 |
|
if(cumfric) then |
286 |
|
C Cumulus Friction - load u and v wind components into tracer array |
287 |
|
C------------------------------------------------------------------ |
288 |
|
do L = 1,lm |
289 |
|
do indx = 1,im*jm |
290 |
|
ugather(indx,L,ntracerin-ptracer+1) = uz(pblindex(indx),1,L) |
291 |
|
ugather(indx,L,ntracerin-ptracer+2) = vz(pblindex(indx),1,L) |
292 |
|
enddo |
293 |
|
enddo |
294 |
|
|
295 |
|
endif |
296 |
|
|
297 |
c bump the counter for number of calls to convection |
c bump the counter for number of calls to convection |
298 |
c -------------------------------------------------- |
c -------------------------------------------------- |
306 |
do l=1,lm |
do l=1,lm |
307 |
do j=1,jm |
do j=1,jm |
308 |
do i=1,im |
do i=1,im |
309 |
|
dumoist(i,j,l) = 0. |
310 |
|
dvmoist(i,j,l) = 0. |
311 |
dtmoist(i,j,l) = 0. |
dtmoist(i,j,l) = 0. |
312 |
do nt = 1,ntracer |
do nt = 1,ntracerin |
313 |
dqmoist(i,j,l,nt) = 0. |
dqmoist(i,j,l,nt) = 0. |
314 |
enddo |
enddo |
315 |
enddo |
enddo |
336 |
CALL STRIP ( shgather, SHL ,im*jm,ISTRIP,lm,NN ) |
CALL STRIP ( shgather, SHL ,im*jm,ISTRIP,lm,NN ) |
337 |
CALL STRINT( levgather, pbl ,im*jm,ISTRIP,1 ,NN ) |
CALL STRINT( levgather, pbl ,im*jm,ISTRIP,1 ,NN ) |
338 |
|
|
339 |
c do nt = 1,ntracer-ptracer |
do nt = 1,ntracer-ptracer |
340 |
c call strip ( ugather(1,1,nt), ul(1,1,nt),im*jm,istrip,lm,nn ) |
call strip ( ugather(1,1,nt), ul(1,1,nt),im*jm,istrip,lm,nn ) |
341 |
c enddo |
enddo |
342 |
|
|
343 |
C ********************************************************************** |
C ********************************************************************** |
344 |
C **** SETUP FOR RAS CUMULUS PARAMETERIZATION **** |
C **** SETUP FOR RAS CUMULUS PARAMETERIZATION **** |
370 |
endif |
endif |
371 |
enddo |
enddo |
372 |
|
|
|
|
|
373 |
C Initiate a do-loop around RAS for the number of different |
C Initiate a do-loop around RAS for the number of different |
374 |
C sub-cloud layer depths in this strip |
C sub-cloud layer depths in this strip |
375 |
C --If all subcloud depths are the same, execute loop once |
C --If all subcloud depths are the same, execute loop once |
402 |
|
|
403 |
c Save initial value of tracers and compute sub-cloud value |
c Save initial value of tracers and compute sub-cloud value |
404 |
c --------------------------------------------------------- |
c --------------------------------------------------------- |
405 |
c DO NT = 1,ntracer-ptracer |
DO NT = 1,ntracer-ptracer |
406 |
c do L = 1,lm |
do L = 1,lm |
407 |
c do i = num,num+nindeces(nsubcl)-1 |
do i = num,num+nindeces(nsubcl)-1 |
408 |
c saveu(i,L,nt) = ul(i,L,nt) |
saveu(i,L,nt) = ul(i,L,nt) |
409 |
c enddo |
enddo |
410 |
c enddo |
enddo |
411 |
c DO I=num,num+nindeces(nsubcl)-1 |
DO I=num,num+nindeces(nsubcl)-1 |
412 |
c TMP1(I,2) = 0. |
TMP1(I,2) = 0. |
413 |
c ENDDO |
ENDDO |
414 |
c DO L=NSUBCL,lm |
DO L=NSUBCL,lm |
415 |
c DO I=num,num+nindeces(nsubcl)-1 |
DO I=num,num+nindeces(nsubcl)-1 |
416 |
c TMP1(I,2) = TMP1(I,2)+(PLE(I,L+1)-PLE(I,L))*UL(I,L,NT)/sp(i) |
TMP1(I,2) = TMP1(I,2)+(PLE(I,L+1)-PLE(I,L))*UL(I,L,NT)/sp(i) |
417 |
c ENDDO |
ENDDO |
418 |
c ENDDO |
ENDDO |
419 |
c DO I=num,num+nindeces(nsubcl)-1 |
DO I=num,num+nindeces(nsubcl)-1 |
420 |
c UL(I,NSUBCL,NT) = TMP1(I,2)*TMP1(I,4) |
UL(I,NSUBCL,NT) = TMP1(I,2)*TMP1(I,4) |
421 |
c usubcl(i,nt) = ul(i,nsubcl,nt) |
usubcl(i,nt) = ul(i,nsubcl,nt) |
422 |
c ENDDO |
ENDDO |
423 |
c ENDDO |
ENDDO |
424 |
|
|
425 |
c Compute Pressure Arrays for RAS |
c Compute Pressure Arrays for RAS |
426 |
c ------------------------------- |
c ------------------------------- |
505 |
enddo |
enddo |
506 |
|
|
507 |
CALL RAS ( NN,istrip,nindeces(nsubcl),NLRAS,NLTOP,lm,TMSTP |
CALL RAS ( NN,istrip,nindeces(nsubcl),NLRAS,NLTOP,lm,TMSTP |
508 |
1, UL(num,1,1),ntracedim,TH(num,NLTOP),SHL(num,NLTOP) |
1, UL(num,1,1),ntracedim,ntracex,TH(num,NLTOP),SHL(num,NLTOP) |
509 |
2, TMP4(num,NLTOP), TMP5(num,NLTOP),rnd, ncrnd, PCPEN(num,NLTOP) |
2, TMP4(num,NLTOP), TMP5(num,NLTOP),rnd, ncrnd, PCPEN(num,NLTOP) |
510 |
3, CLBOTH(num,NLTOP), CLFRAC(num,NLTOP) |
3, CLBOTH(num,NLTOP), CLFRAC(num,NLTOP) |
511 |
4, cldmas(num,nltop), detrain(num,nltop) |
4, cldmas(num,nltop), detrain(num,nltop) |
550 |
|
|
551 |
c Compute Tracer Tendency due to RAS |
c Compute Tracer Tendency due to RAS |
552 |
c ---------------------------------- |
c ---------------------------------- |
553 |
c do nt = 1,ntracer-ptracer |
do nt = 1,ntracer-ptracer |
554 |
c DO L=1,nsubcl-1 |
DO L=1,nsubcl-1 |
555 |
c DO I=num,num+nindeces(nsubcl)-1 |
DO I=num,num+nindeces(nsubcl)-1 |
556 |
c CVU(I,L,nt) = ( UL(I,L,nt)-saveu(i,l,nt) )*sp(i)*tminv |
CVU(I,L,nt) = ( UL(I,L,nt)-saveu(i,l,nt) )*sp(i)*tminv |
557 |
c ENDDO |
ENDDO |
558 |
c ENDDO |
ENDDO |
559 |
c DO L=nsubcl,lm |
DO L=nsubcl,lm |
560 |
c DO I=num,num+nindeces(nsubcl)-1 |
DO I=num,num+nindeces(nsubcl)-1 |
561 |
c if( usubcl(i,nt).ne.0.0 ) then |
if( usubcl(i,nt).ne.0.0 ) then |
562 |
c cvu(i,L,nt) = ( ul(i,nsubcl,nt)-usubcl(i,nt) ) * |
cvu(i,L,nt) = ( ul(i,nsubcl,nt)-usubcl(i,nt) ) * |
563 |
c . ( saveu(i,L,nt)/usubcl(i,nt) )*sp(i)*tminv |
. ( saveu(i,L,nt)/usubcl(i,nt) )*sp(i)*tminv |
564 |
c else |
else |
565 |
c cvu(i,L,nt) = 0.0 |
cvu(i,L,nt) = 0.0 |
566 |
c endif |
endif |
567 |
c ENDDO |
ENDDO |
568 |
c ENDDO |
ENDDO |
569 |
c enddo |
enddo |
570 |
|
|
571 |
c Compute Diagnostic PSUBCLD (Subcloud Layer Pressure) |
c Compute Diagnostic PSUBCLD (Subcloud Layer Pressure) |
572 |
c ---------------------------------------------------- |
c ---------------------------------------------------- |
597 |
|
|
598 |
call paste( CVTH,deltgather,istrip,im*jm,lm,NN ) |
call paste( CVTH,deltgather,istrip,im*jm,lm,NN ) |
599 |
call paste( CVQ,delqgather,istrip,im*jm,lm,NN ) |
call paste( CVQ,delqgather,istrip,im*jm,lm,NN ) |
600 |
c do nt = 1,ntracer-ptracer |
do nt = 1,ntracer-ptracer |
601 |
c call paste( CVU(1,1,nt),delugather(1,1,nt),istrip,im*jm,lm,NN ) |
call paste( CVU(1,1,nt),delugather(1,1,nt),istrip,im*jm,lm,NN ) |
602 |
c enddo |
enddo |
603 |
|
|
604 |
C ********************************************************************** |
C ********************************************************************** |
605 |
C And now paste some arrays for filling diagnostics |
C And now paste some arrays for filling diagnostics |
789 |
. cldsr(1,1,L),im*jm) |
. cldsr(1,1,L),im*jm) |
790 |
enddo |
enddo |
791 |
|
|
792 |
c Tracers |
c General Tracers |
793 |
c ------- |
c --------------- |
794 |
c do nt = 1,ntracer-ptracer |
do nt = 1,ntracerin-ptracer |
795 |
c do L = 1,lm |
do L = 1,lm |
796 |
c call back2grd (delugather(1,L,nt),pblindex, |
call back2grd (delugather(1,L,nt),pblindex, |
797 |
c . dqmoist(1,1,L,ptracer+nt),im*jm) |
. dqmoist(1,1,L,ptracer+nt),im*jm) |
798 |
c enddo |
enddo |
799 |
c enddo |
enddo |
800 |
|
|
801 |
|
if(cumfric) then |
802 |
|
|
803 |
|
c U and V for cumulus friction |
804 |
|
c ---------------------------- |
805 |
|
do L = 1,lm |
806 |
|
call back2grd (delugather(1,L,ntracerin-ptracer+1),pblindex, |
807 |
|
. dumoist(1,1,L),im*jm) |
808 |
|
call back2grd (delugather(1,L,ntracerin-ptracer+2),pblindex, |
809 |
|
. dvmoist(1,1,L),im*jm) |
810 |
|
enddo |
811 |
|
|
812 |
|
C Remove pi-weighting for u and v tendencies |
813 |
|
do j = 1,jm |
814 |
|
do i = 1,im |
815 |
|
tmpimjm(i,j) = 1./pz(i,j) |
816 |
|
enddo |
817 |
|
enddo |
818 |
|
do L = 1,lm |
819 |
|
do j = 1,jm |
820 |
|
do i = 1,im |
821 |
|
dumoist(i,j,L) = dumoist(i,j,L) * tmpimjm(i,j) |
822 |
|
dvmoist(i,j,L) = dvmoist(i,j,L) * tmpimjm(i,j) |
823 |
|
enddo |
824 |
|
enddo |
825 |
|
enddo |
826 |
|
|
827 |
|
|
828 |
|
endif |
829 |
|
|
830 |
C ********************************************************************** |
C ********************************************************************** |
831 |
C BUMP DIAGNOSTICS |
C BUMP DIAGNOSTICS |
886 |
enddo |
enddo |
887 |
endif |
endif |
888 |
|
|
889 |
|
c Moist Processes Change in U-Momentum (Cumulus Friction) |
890 |
|
c ------------------------------------------------------ |
891 |
|
if(iudiag1.gt.0) then |
892 |
|
do L = 1,lm |
893 |
|
do j = 1,jm |
894 |
|
do i = 1,im |
895 |
|
indgath = (j-1)*im + i |
896 |
|
qdiag(i,j,iudiag1+L-1,bi,bj) = qdiag(i,j,iudiag1+L-1,bi,bj) + |
897 |
|
. dumoist(i,j,L)*sday |
898 |
|
enddo |
899 |
|
enddo |
900 |
|
enddo |
901 |
|
endif |
902 |
|
|
903 |
|
c Moist Processes Change in V-Momentum (Cumulus Friction) |
904 |
|
c ------------------------------------------------------ |
905 |
|
if(iudiag2.gt.0) then |
906 |
|
do L = 1,lm |
907 |
|
do j = 1,jm |
908 |
|
do i = 1,im |
909 |
|
indgath = (j-1)*im + i |
910 |
|
qdiag(i,j,iudiag2+L-1,bi,bj) = qdiag(i,j,iudiag2+L-1,bi,bj) + |
911 |
|
. dvmoist(i,j,L)*sday |
912 |
|
enddo |
913 |
|
enddo |
914 |
|
enddo |
915 |
|
endif |
916 |
|
|
917 |
c Cloud Mass Flux |
c Cloud Mass Flux |
918 |
c --------------- |
c --------------- |
919 |
if(icldmas.gt.0) then |
if(icldmas.gt.0) then |
1094 |
enddo |
enddo |
1095 |
enddo |
enddo |
1096 |
|
|
1097 |
c Compute Instantanious Total 2-D Cloud Fraction |
c Compute Instantaneous Total 2-D Cloud Fraction |
1098 |
c ---------------------------------------------- |
c ---------------------------------------------- |
1099 |
do j = 1,jm |
do j = 1,jm |
1100 |
do i = 1,im |
do i = 1,im |
1157 |
|
|
1158 |
ndtls = ndtls + 1 |
ndtls = ndtls + 1 |
1159 |
ndqls = ndqls + 1 |
ndqls = ndqls + 1 |
1160 |
|
|
1161 |
|
nudiag1 = nudiag1 + 1 |
1162 |
|
nudiag2 = nudiag2 + 1 |
1163 |
|
|
1164 |
endif |
endif |
1165 |
#endif |
#endif |
1166 |
|
|
1167 |
RETURN |
RETURN |
1168 |
END |
END |
1169 |
SUBROUTINE RAS( NN, LNG, LENC, K, NLTOP, nlayr, DT |
SUBROUTINE RAS( NN, LNG, LENC, K, NLTOP, nlayr, DT |
1170 |
*, UOI, ntracer, POI, QOI, PRS, PRJ, rnd, ncrnd |
*, UOI, ntracedim, ntracer, POI, QOI, PRS, PRJ, rnd, ncrnd |
1171 |
*, RAINS, CLN, CLF, cldmas, detrain |
*, RAINS, CLN, CLF, cldmas, detrain |
1172 |
*, cp,grav,rkappa,alhl,rhfrac,rasmax ) |
*, cp,grav,rkappa,alhl,rhfrac,rasmax ) |
1173 |
C |
C |
1174 |
C********************************************************************* |
C********************************************************************* |
1175 |
C********************* SUBROUTINE RAS ***************************** |
C********************* SUBROUTINE RAS ***************************** |
1180 |
|
|
1181 |
C Argument List |
C Argument List |
1182 |
integer nn,lng,lenc,k,nltop,nlayr |
integer nn,lng,lenc,k,nltop,nlayr |
1183 |
integer ntracer |
integer ntracedim, ntracer |
1184 |
integer ncrnd |
integer ncrnd |
1185 |
_RL dt |
_RL dt |
1186 |
_RL UOI(lng,nlayr,ntracer), POI(lng,K) |
_RL UOI(lng,nlayr,ntracedim), POI(lng,K) |
1187 |
_RL QOI(lng,K), PRS(lng,K+1), PRJ(lng,K+1) |
_RL QOI(lng,K), PRS(lng,K+1), PRJ(lng,K+1) |
1188 |
_RL rnd(ncrnd) |
_RL rnd(ncrnd) |
1189 |
_RL RAINS(lng,K), CLN(lng,K), CLF(lng,K) |
_RL RAINS(lng,K), CLN(lng,K), CLF(lng,K) |
1192 |
|
|
1193 |
C Local Variables |
C Local Variables |
1194 |
_RL TCU(lng,K), QCU(lng,K) |
_RL TCU(lng,K), QCU(lng,K) |
1195 |
_RL ucu(lng,K,ntracer) |
_RL ucu(lng,K,ntracedim) |
1196 |
_RL ALF(lng,K), BET(lng,K), GAM(lng,K) |
_RL ALF(lng,K), BET(lng,K), GAM(lng,K) |
1197 |
*, ETA(lng,K), HOI(lng,K) |
*, ETA(lng,K), HOI(lng,K) |
1198 |
*, PRH(lng,K), PRI(lng,K) |
*, PRH(lng,K), PRI(lng,K) |
1200 |
|
|
1201 |
_RL TX1(lng), TX2(lng), TX3(lng), TX4(lng), TX5(lng) |
_RL TX1(lng), TX2(lng), TX3(lng), TX4(lng), TX5(lng) |
1202 |
*, TX6(lng), TX7(lng), TX8(lng), TX9(lng) |
*, TX6(lng), TX7(lng), TX8(lng), TX9(lng) |
1203 |
*, TX11(lng), TX12(lng), TX13(lng), TX14(lng,ntracer) |
*, TX11(lng), TX12(lng), TX13(lng), TX14(lng,ntracedim) |
1204 |
*, TX15(lng) |
*, TX15(lng) |
1205 |
*, WFN(lng) |
*, WFN(lng) |
1206 |
integer IA1(lng), IA2(lng), IA3(lng) |
integer IA1(lng), IA2(lng), IA3(lng) |
1216 |
integer IC(ICM), IRND(icm) |
integer IC(ICM), IRND(icm) |
1217 |
_RL cmass(lng,K) |
_RL cmass(lng,K) |
1218 |
LOGICAL SETRAS |
LOGICAL SETRAS |
1219 |
|
integer ifound |
1220 |
|
_RL temp |
1221 |
|
_RL thbef(lng,K) |
1222 |
|
|
1223 |
integer i,L,nc,ib,nt |
integer i,L,nc,ib,nt |
1224 |
integer km1,kp1,kprv,kcr,kfx,ncmx |
integer km1,kp1,kprv,kcr,kfx,ncmx |
1237 |
C allowed to entrain into the cloud |
C allowed to entrain into the cloud |
1238 |
|
|
1239 |
CCC FRAC = 1./dt |
CCC FRAC = 1./dt |
1240 |
|
CCC FRAC = 0.5/dt |
1241 |
FRAC = 0.5/dt |
FRAC = 0.5/dt |
1242 |
|
|
1243 |
KM1 = K - 1 |
KM1 = K - 1 |
1285 |
|
|
1286 |
CALL CLOUD(nn,lng, LENC, K, NLTOP, nlayr, IB, RASBLF,SETRAS,FRAC |
CALL CLOUD(nn,lng, LENC, K, NLTOP, nlayr, IB, RASBLF,SETRAS,FRAC |
1287 |
*, CP, ALHL, RKAPPA, GRAV, P00, CRTMSF |
*, CP, ALHL, RKAPPA, GRAV, P00, CRTMSF |
1288 |
*, POI, QOI, UOI, Ntracer, PRS, PRJ |
*, POI, QOI, UOI, ntracedim, Ntracer, PRS, PRJ |
1289 |
*, PCU, CLOUDN, TCU, QCU, UCU, CMASS |
*, PCU, CLOUDN, TCU, QCU, UCU, CMASS |
1290 |
*, ALF, BET, GAM, PRH, PRI, HOI, ETA |
*, ALF, BET, GAM, PRH, PRI, HOI, ETA |
1291 |
*, HST, QOL, GMH |
*, HST, QOL, GMH |
1328 |
|
|
1329 |
DO L=IB,K |
DO L=IB,K |
1330 |
DO I=1,LENC |
DO I=1,LENC |
1331 |
|
thbef(I,L) = POI(I,L) |
1332 |
POI(I,L) = POI(I,L) + TCU(I,L) * DT * rhfrac(i) |
POI(I,L) = POI(I,L) + TCU(I,L) * DT * rhfrac(i) |
1333 |
QOI(I,L) = QOI(I,L) + QCU(I,L) * DT * rhfrac(i) |
QOI(I,L) = QOI(I,L) + QCU(I,L) * DT * rhfrac(i) |
1334 |
ENDDO |
ENDDO |
1335 |
ENDDO |
ENDDO |
1336 |
c DO NT=1,Ntracer |
DO NT=1,Ntracer |
1337 |
c DO L=IB,K |
DO L=IB,K |
1338 |
c DO I=1,LENC |
DO I=1,LENC |
1339 |
c UOI(I,L+nltop-1,NT)=UOI(I,L+nltop-1,NT)+UCU(I,L,NT)*DT*rhfrac(i) |
UOI(I,L+nltop-1,NT)=UOI(I,L+nltop-1,NT)+UCU(I,L,NT)*DT*rhfrac(i) |
1340 |
c ENDDO |
ENDDO |
1341 |
c ENDDO |
ENDDO |
1342 |
c ENDDO |
ENDDO |
1343 |
DO I=1,LENC |
DO I=1,LENC |
1344 |
rains(I,ib) = rains(I,ib) + PCU(I)*dt * rhfrac(i) |
rains(I,ib) = rains(I,ib) + PCU(I)*dt * rhfrac(i) |
1345 |
ENDDO |
ENDDO |
1346 |
|
|
1347 |
|
do i = 1,lenc |
1348 |
|
ifound = 0 |
1349 |
|
do L = 1,k |
1350 |
|
if(tcu(i,L).ne.0.)ifound = ifound + 1 |
1351 |
|
enddo |
1352 |
|
if(ifound.ne.0) then |
1353 |
|
c print *,i,' made a cloud detraining at ',ib |
1354 |
|
do L = 1,k |
1355 |
|
temp = TCU(I,L) * DT * rhfrac(i) |
1356 |
|
c write(6,122)L,thbef(i,L),poi(i,L),temp |
1357 |
|
enddo |
1358 |
|
endif |
1359 |
|
enddo |
1360 |
|
|
1361 |
100 CONTINUE |
100 CONTINUE |
1362 |
|
|
1363 |
|
122 format(' ',i3,' TH B ',e10.3,' TH A ',e10.3,' DTH ',e10.3) |
1364 |
|
|
1365 |
c Fill Convective Cloud Fractions based on 3-D Rain Amounts |
c Fill Convective Cloud Fractions based on 3-D Rain Amounts |
1366 |
c --------------------------------------------------------- |
c --------------------------------------------------------- |
1400 |
|
|
1401 |
c First Time In From a Continuing RESTART (IRAS.GT.1) or Reading a New RESTART |
c First Time In From a Continuing RESTART (IRAS.GT.1) or Reading a New RESTART |
1402 |
c ---------------------------------------------------------------------------- |
c ---------------------------------------------------------------------------- |
1403 |
|
c print *,' RNDCLOUD: first ',first,' iras ',iras,' iras0 ',iras0 |
1404 |
|
c print *,' RNDCLOUD: irm,nrnd,mcheck=',irm,nrnd,mcheck |
1405 |
if( first.and.(iras.gt.1) .or. iras.ne.iras0+1 )then |
if( first.and.(iras.gt.1) .or. iras.ne.iras0+1 )then |
1406 |
print *,' first ',first,' iras ',iras,' iras0 ',iras0 |
print *,' first ',first,' iras ',iras,' iras0 ',iras0 |
1407 |
if( myid.eq.1 ) print *, 'Recreating Rand Numb Array in RNDCLOUD' |
if( myid.eq.1 ) print *, 'Recreating Rand Numb Array in RNDCLOUD' |
1447 |
integer iseed |
integer iseed |
1448 |
real *8 seed,port_rand |
real *8 seed,port_rand |
1449 |
_RL random_numbx |
_RL random_numbx |
|
random_numbx = 0 |
|
1450 |
#ifdef CRAY |
#ifdef CRAY |
1451 |
_RL ranf |
_RL ranf |
1452 |
random_numbx = ranf() |
random_numbx = ranf() |
1454 |
#ifdef SGI |
#ifdef SGI |
1455 |
_RL rand |
_RL rand |
1456 |
random_numbx = rand() |
random_numbx = rand() |
1457 |
#endif |
#else |
1458 |
|
seed = iseed |
1459 |
random_numbx = port_rand(seed) |
random_numbx = port_rand(seed) |
1460 |
#endif |
#endif |
1461 |
|
#endif |
1462 |
return |
return |
1463 |
end |
end |
1464 |
subroutine random_seedx (iseed) |
subroutine random_seedx (iseed) |
1477 |
SUBROUTINE CLOUD(nn,lng, LENC, K, NLTOP, nlayr, IC, RASALF |
SUBROUTINE CLOUD(nn,lng, LENC, K, NLTOP, nlayr, IC, RASALF |
1478 |
*, SETRAS, FRAC |
*, SETRAS, FRAC |
1479 |
*, CP, ALHL, RKAP, GRAV, P00, CRTMSF |
*, CP, ALHL, RKAP, GRAV, P00, CRTMSF |
1480 |
*, POI, QOI, UOI, Ntracer, PRS, PRJ |
*, POI, QOI, UOI, ntracedim, Ntracer, PRS, PRJ |
1481 |
*, PCU, CLN, TCU, QCU, UCU, CMASS |
*, PCU, CLN, TCU, QCU, UCU, CMASS |
1482 |
*, ALF, BET, GAM, PRH, PRI, HOL, ETA |
*, ALF, BET, GAM, PRH, PRI, HOL, ETA |
1483 |
*, HST, QOL, GMH |
*, HST, QOL, GMH |
1610 |
C************************************************************************ |
C************************************************************************ |
1611 |
implicit none |
implicit none |
1612 |
C Argument List declarations |
C Argument List declarations |
1613 |
integer nn,lng,LENC,K,NLTOP,nlayr,ic,ntracer |
integer nn,lng,LENC,K,NLTOP,nlayr,ic,ntracedim, ntracer |
1614 |
_RL rasalf |
_RL rasalf |
1615 |
LOGICAL SETRAS |
LOGICAL SETRAS |
1616 |
_RL frac, cp, alhl, rkap, grav, p00, crtmsf |
_RL frac, cp, alhl, rkap, grav, p00, crtmsf |
1617 |
_RL POI(lng,K),QOI(lng,K),PRS(lng,K+1),PRJ(lng,K+1) |
_RL POI(lng,K),QOI(lng,K),PRS(lng,K+1),PRJ(lng,K+1) |
1618 |
_RL uoi(lng,nlayr,ntracer) |
_RL uoi(lng,nlayr,ntracedim) |
1619 |
_RL PCU(LENC), CLN(lng) |
_RL PCU(LENC), CLN(lng) |
1620 |
_RL TCU(lng,K), QCU(lng,K), ucu(lng,k,ntracer), CMASS(lng,K) |
_RL TCU(lng,K),QCU(lng,K),ucu(lng,k,ntracedim),CMASS(lng,K) |
1621 |
_RL ALF(lng,K), BET(lng,K), GAM(lng,K), PRH(lng,K), PRI(lng,K) |
_RL ALF(lng,K), BET(lng,K), GAM(lng,K), PRH(lng,K), PRI(lng,K) |
1622 |
_RL HOL(LENC,K), ETA(LENC,K), HST(LENC,K), QOL(LENC,K) |
_RL HOL(LENC,K), ETA(LENC,K), HST(LENC,K), QOL(LENC,K) |
1623 |
_RL GMH(LENC,K) |
_RL GMH(LENC,K) |
1625 |
_RL TX5(LENC), TX6(LENC), TX7(LENC), TX8(LENC) |
_RL TX5(LENC), TX6(LENC), TX7(LENC), TX8(LENC) |
1626 |
_RL ALM(LENC), WFN(LENC), AKM(LENC), QS1(LENC) |
_RL ALM(LENC), WFN(LENC), AKM(LENC), QS1(LENC) |
1627 |
_RL WLQ(LENC), CLF(LENC) |
_RL WLQ(LENC), CLF(LENC) |
1628 |
_RL uht(lng,ntracer) |
_RL uht(lng,ntracedim) |
1629 |
integer IA(LENC), I1(LENC),I2(LENC) |
integer IA(LENC), I1(LENC),I2(LENC) |
1630 |
_RL rhfrac(lng) |
_RL rhfrac(lng) |
1631 |
|
|
1654 |
ONEBG = 1.0 / GRAV |
ONEBG = 1.0 / GRAV |
1655 |
CPBG = CP * ONEBG |
CPBG = CP * ONEBG |
1656 |
TWOBAL = 2.0 / ALHL |
TWOBAL = 2.0 / ALHL |
1657 |
|
|
1658 |
C |
C |
1659 |
KM1 = K - 1 |
KM1 = K - 1 |
1660 |
IC1 = IC + 1 |
IC1 = IC + 1 |
1694 |
CMASS(I,L) = 0.0 |
CMASS(I,L) = 0.0 |
1695 |
10 CONTINUE |
10 CONTINUE |
1696 |
|
|
1697 |
c do nt = 1,ntracer |
do nt = 1,ntracer |
1698 |
c do L=1,K |
do L=1,K |
1699 |
c do I=1,LENC |
do I=1,LENC |
1700 |
c ucu(I,L,nt) = 0.0 |
ucu(I,L,nt) = 0.0 |
1701 |
c enddo |
enddo |
1702 |
c enddo |
enddo |
1703 |
c enddo |
enddo |
1704 |
C |
C |
1705 |
DO 30 I=1,LENC |
DO 30 I=1,LENC |
1706 |
TX1(I) = PRJ(I,K+1) * POI(I,K) |
TX1(I) = PRJ(I,K+1) * POI(I,K) |
1937 |
WLQ(I) = QOL(II,K) - QS1(I) * ETA(I,IC) |
WLQ(I) = QOL(II,K) - QS1(I) * ETA(I,IC) |
1938 |
TX7(I) = HOL(II,K) |
TX7(I) = HOL(II,K) |
1939 |
620 CONTINUE |
620 CONTINUE |
1940 |
c DO NT=1,Ntracer |
DO NT=1,Ntracer |
1941 |
c DO 621 I=1,LENB |
DO 621 I=1,LENB |
1942 |
c II = I1(I) |
II = I1(I) |
1943 |
c UHT(I,NT) = UOI(II,K+nltop-1,NT)-UOI(II,IC+nltop-1,NT) * ETA(I,IC) |
UHT(I,NT) = UOI(II,K+nltop-1,NT)-UOI(II,IC+nltop-1,NT) * ETA(I,IC) |
1944 |
c 621 CONTINUE |
621 CONTINUE |
1945 |
c ENDDO |
ENDDO |
1946 |
C |
C |
1947 |
DO 635 L=KM1,IC,-1 |
DO 635 L=KM1,IC,-1 |
1948 |
DO 630 I=1,LENB |
DO 630 I=1,LENB |
1951 |
WLQ(I) = WLQ(I) + TEM * QOL(II,L) |
WLQ(I) = WLQ(I) + TEM * QOL(II,L) |
1952 |
630 CONTINUE |
630 CONTINUE |
1953 |
635 CONTINUE |
635 CONTINUE |
1954 |
c DO NT=1,Ntracer |
DO NT=1,Ntracer |
1955 |
c DO L=KM1,IC,-1 |
DO L=KM1,IC,-1 |
1956 |
c DO I=1,LENB |
DO I=1,LENB |
1957 |
c II = I1(I) |
II = I1(I) |
1958 |
c TEM = ETA(I,L) - ETA(I,L+1) |
TEM = ETA(I,L) - ETA(I,L+1) |
1959 |
c UHT(I,NT) = UHT(I,NT) + TEM * UOI(II,L+nltop-1,NT) |
UHT(I,NT) = UHT(I,NT) + TEM * UOI(II,L+nltop-1,NT) |
1960 |
c ENDDO |
ENDDO |
1961 |
c ENDDO |
ENDDO |
1962 |
c ENDDO |
ENDDO |
1963 |
C |
C |
1964 |
C CALCULATE GS AND PART OF AKM (THAT REQUIRES ETA) |
C CALCULATE GS AND PART OF AKM (THAT REQUIRES ETA) |
1965 |
C |
C |
2175 |
C |
C |
2176 |
c Compute Tracer Tendencies |
c Compute Tracer Tendencies |
2177 |
c ------------------------- |
c ------------------------- |
2178 |
c do nt = 1,ntracer |
do nt = 1,ntracer |
2179 |
c |
c |
2180 |
c Tracer Tendency at the Bottom Layer |
c Tracer Tendency at the Bottom Layer |
2181 |
c ----------------------------------- |
c ----------------------------------- |
2182 |
c DO 995 I=1,LENB |
DO 995 I=1,LENB |
2183 |
c II = I1(I) |
II = I1(I) |
2184 |
c TEM = half*TX5(I) * PRI(II,K) |
TEM = half*TX5(I) * PRI(II,K) |
2185 |
c TX1(I) = (UOI(II,KM1+nltop-1,nt) - UOI(II,K+nltop-1,nt)) |
TX1(I) = ( UOI(II,KM1+nltop-1,nt) - UOI(II,K+nltop-1,nt)) |
2186 |
c ucu(II,K,nt) = TEM * TX1(I) |
ucu(II,K,nt) = TEM * TX1(I) |
2187 |
c 995 CONTINUE |
995 CONTINUE |
2188 |
c |
c |
2189 |
c Tracer Tendency at all other Levels |
c Tracer Tendency at all other Levels |
2190 |
c ----------------------------------- |
c ----------------------------------- |
2191 |
c DO 1020 L=KM1,IC1,-1 |
DO 1020 L=KM1,IC1,-1 |
2192 |
c DO 1010 I=1,LENB |
DO 1010 I=1,LENB |
2193 |
c II = I1(I) |
II = I1(I) |
2194 |
c TEM = half*TX5(I) * PRI(II,L) |
TEM = half*TX5(I) * PRI(II,L) |
2195 |
c TEM1 = TX1(I) |
TEM1 = TX1(I) |
2196 |
c TX1(I) = (UOI(II,L-1+nltop-1,nt)-UOI(II,L+nltop-1,nt)) * ETA(I,L) |
TX1(I) = (UOI(II,L-1+nltop-1,nt)-UOI(II,L+nltop-1,nt)) * ETA(I,L) |
2197 |
c TX3(I) = (TX1(I) + TEM1) * TEM |
TX3(I) = (TX1(I) + TEM1) * TEM |
2198 |
c1010 CONTINUE |
1010 CONTINUE |
2199 |
c DO 1020 I=1,LENB |
DO 1020 I=1,LENB |
2200 |
c II = I1(I) |
II = I1(I) |
2201 |
c ucu(II,L,nt) = TX3(I) |
ucu(II,L,nt) = TX3(I) |
2202 |
c1020 CONTINUE |
1020 CONTINUE |
2203 |
c |
|
2204 |
c DO 1030 I=1,LENB |
DO 1030 I=1,LENB |
2205 |
c II = I1(I) |
II = I1(I) |
2206 |
c IF (TX6(I) .GE. 1.0) THEN |
IF (TX6(I) .GE. 1.0) THEN |
2207 |
c TEM = half*TX5(I) * PRI(II,IC) |
TEM = half*TX5(I) * PRI(II,IC) |
2208 |
c ELSE |
ELSE |
2209 |
c TEM = 0.0 |
TEM = 0.0 |
2210 |
c ENDIF |
ENDIF |
2211 |
c TX1(I) = (TX1(I) + UHT(I,nt) + UHT(I,nt)) * TEM |
TX1(I) = (TX1(I) + UHT(I,nt) + UHT(I,nt)) * TEM |
2212 |
c1030 CONTINUE |
1030 CONTINUE |
2213 |
c DO 1040 I=1,LENB |
DO 1040 I=1,LENB |
2214 |
c II = I1(I) |
II = I1(I) |
2215 |
c ucu(II,IC,nt) = TX1(I) |
ucu(II,IC,nt) = TX1(I) |
2216 |
c1040 CONTINUE |
1040 CONTINUE |
2217 |
c |
|
2218 |
c enddo |
enddo |
2219 |
C |
C |
2220 |
C PENETRATIVE CONVECTION CALCULATION OVER |
C PENETRATIVE CONVECTION CALCULATION OVER |
2221 |
C |
C |