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C $Header: /u/gcmpack/MITgcm/pkg/fizhi/fizhi_step_diag.F,v 1.11 2004/08/29 19:43:43 molod Exp $ |
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C $Name: $ |
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|
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#include "FIZHI_OPTIONS.h" |
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subroutine fizhi_step_diag(myThid,p,uphy,vphy,thphy,sphy,qq,pk,dp, |
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. radswt,radswg,swgclr,osr,osrclr,st4,dst4,tgz,tg0,radlwg,lwgclr, |
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. turbu,turbv,turbt,turbq,moistu,moistv,moistt,moistq, |
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. lwdt,swdt,lwdtclr,swdtclr,dlwdtg, |
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. im1,im2,jm1,jm2,Nrphys,Nbi,Nbj,bi,bj,ntracer) |
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C*********************************************************************** |
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implicit none |
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|
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#ifdef ALLOW_DIAGNOSTICS |
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#include "SIZE.h" |
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#include "diagnostics_SIZE.h" |
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#include "diagnostics.h" |
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#endif |
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|
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integer myThid,im1,im2,jm1,jm2,Nrphys,Nbi,Nbj,bi,bj,ntracer |
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_RL p(im2,jm2,Nbi,Nbj) |
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_RL uphy(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL vphy(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL thphy(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL sphy(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL qq(im2,jm2,Nrphys),pk(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL dp(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL radswt(im2,jm2,Nbi,Nbj),radswg(im2,jm2,Nbi,Nbj) |
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_RL swgclr(im2,jm2,Nbi,Nbj),osr(im2,jm2,Nbi,Nbj) |
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_RL osrclr(im2,jm2,Nbi,Nbj),st4(im2,jm2,Nbi,Nbj) |
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_RL dst4(im2,jm2,Nbi,Nbj),tgz(im2,jm2,Nbi,Nbj) |
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_RL tg0(im2,jm2,Nbi,Nbj),radlwg(im2,jm2,Nbi,Nbj) |
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_RL lwgclr(im2,jm2,Nbi,Nbj) |
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_RL turbu(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL turbv(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL turbt(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL turbq(im2,jm2,Nrphys,ntracer,Nbi,Nbj) |
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_RL moistu(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL moistv(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL moistt(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL moistq(im2,jm2,Nrphys,ntracer,Nbi,Nbj) |
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_RL lwdt(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL swdt(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL lwdtclr(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL swdtclr(im2,jm2,Nrphys,Nbi,Nbj) |
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_RL dlwdtg(im2,jm2,Nrphys,Nbi,Nbj) |
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|
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integer i,j,L |
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_RL pinv(im2,jm2), qbar(im2,jm2) |
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|
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C ********************************************************************** |
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|
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#ifdef ALLOW_DIAGNOSTICS |
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do j=jm1,jm2 |
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do i=im1,im2 |
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pinv(i,j) = 1.0 / p(i,j,bi,bj) |
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enddo |
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enddo |
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|
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c Incident Solar Radiation (W/m**2) |
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c --------------------------------- |
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if (iradswt.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iradswt,bi,bj)= qdiag(i,j,iradswt,bi,bj) + |
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. radswt(i,j,bi,bj) |
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enddo |
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enddo |
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endif |
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|
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c Net Solar Radiation at the Ground (W/m**2) |
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c ------------------------------------------ |
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if (iradswg.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iradswg,bi,bj) = qdiag(i,j,iradswg,bi,bj) + |
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. radswg(i,j,bi,bj)*radswt(i,j,bi,bj) |
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enddo |
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enddo |
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endif |
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|
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c Net Clear Sky Solar Radiation at the Ground (W/m**2) |
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c ---------------------------------------------------- |
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if (iswgclr.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iswgclr,bi,bj) = qdiag(i,j,iswgclr,bi,bj) + |
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. swgclr(i,j,bi,bj)*radswt(i,j,bi,bj) |
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enddo |
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enddo |
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endif |
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|
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c Outgoing Solar Radiation at top (W/m**2) |
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c ----------------------------------------- |
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if (iosr.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iosr,bi,bj) = qdiag(i,j,iosr,bi,bj) + |
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. (1.0-osr(i,j,bi,bj))*radswt(i,j,bi,bj) |
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enddo |
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enddo |
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endif |
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|
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c Outgoing Clear Sky Solar Radiation at top (W/m**2) |
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c --------------------------------------------------- |
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if (iosrclr.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iosrclr,bi,bj) = qdiag(i,j,iosrclr,bi,bj) + |
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. (1.0-osrclr(i,j,bi,bj))*radswt(i,j,bi,bj) |
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enddo |
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enddo |
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endif |
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|
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c Upward Longwave Flux at the Ground (W/m**2) |
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c ------------------------------------------- |
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if (ilwgup.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,ilwgup,bi,bj) = qdiag(i,j,ilwgup,bi,bj) + st4(i,j,bi,bj) |
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. + dst4(i,j,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) |
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enddo |
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enddo |
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endif |
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|
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c Net Longwave Flux at the Ground (W/m**2) |
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c ---------------------------------------- |
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if (iradlwg.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iradlwg,bi,bj) = qdiag(i,j,iradlwg,bi,bj) + |
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. radlwg(i,j,bi,bj) + |
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. dst4(i,j,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) |
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enddo |
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enddo |
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endif |
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|
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c Net Longwave Flux at the Ground Clear Sky (W/m**2) |
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c -------------------------------------------------- |
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if (ilwgclr.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,ilwgclr,bi,bj) = qdiag(i,j,ilwgclr,bi,bj) + |
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. lwgclr(i,j,bi,bj) + |
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. dst4(i,j,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) |
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enddo |
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enddo |
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endif |
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|
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if( (bi.eq.1) .and. (bj.eq.1) ) then |
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nradswt = nradswt + 1 |
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nradswg = nradswg + 1 |
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nswgclr = nswgclr + 1 |
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nosr = nosr + 1 |
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nosrclr = nosrclr + 1 |
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nradlwg = nradlwg + 1 |
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nlwgclr = nlwgclr + 1 |
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nlwgup = nlwgup + 1 |
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endif |
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|
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C ********************************************************************** |
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do L=1,Nrphys |
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|
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c Total Diabatic U-Tendency (m/sec/day) |
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c ------------------------------------- |
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if( idiabu.ne.0 ) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,idiabu+L-1,bi,bj) = qdiag(i,j,idiabu+L-1,bi,bj) |
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. + ( moistu (i,j,L,bi,bj) + turbu(i,j,L,bi,bj) )*86400 |
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enddo |
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enddo |
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endif |
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|
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c Total Diabatic V-Tendency (m/sec/day) |
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c ------------------------------------- |
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if( idiabv.ne.0 ) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,idiabv+L-1,bi,bj) = qdiag(i,j,idiabv+L-1,bi,bj) |
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. + ( moistv (i,j,L,bi,bj) + turbv(i,j,L,bi,bj) )*86400 |
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enddo |
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enddo |
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endif |
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|
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c Total Diabatic T-Tendency (deg/day) |
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c ----------------------------------- |
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if( idiabt.ne.0 ) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,idiabt+L-1,bi,bj) = qdiag(i,j,idiabt+L-1,bi,bj) + |
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. ( turbt(i,j,L,bi,bj) + moistt(i,j,L,bi,bj) + |
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. lwdt(i,j,L,bi,bj) + |
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. dlwdtg(i,j,L,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) + |
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. swdt(i,j,L,bi,bj)*radswt(i,j,bi,bj) ) |
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. * pk(i,j,L,bi,bj)*pinv(i,j)*86400 |
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enddo |
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enddo |
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endif |
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|
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c Total Diabatic Q-Tendency (g/kg/day) |
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c ------------------------------------ |
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if( idiabq.ne.0 ) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,idiabq+L-1,bi,bj) = qdiag(i,j,idiabq+L-1,bi,bj) + |
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. ( turbq(i,j,L,1,bi,bj) + moistq(i,j,L,1,bi,bj) ) * |
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. pinv(i,j)*86400*1000 |
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enddo |
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enddo |
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endif |
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|
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c Longwave Heating (deg/day) |
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c -------------------------- |
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if (iradlw.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,iradlw+l-1,bi,bj) = qdiag(i,j,iradlw+l-1,bi,bj) + |
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. ( lwdt(i,j,l,bi,bj) + |
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. dlwdtg (i,j,L,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) ) |
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. * pk(i,j,l,bi,bj)*pinv(i,j)*86400 |
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enddo |
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enddo |
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endif |
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|
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c Longwave Heating Clear-Sky (deg/day) |
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c ------------------------------------ |
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if (ilwclr.ne.0) then |
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do j=jm1,jm2 |
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do i=im1,im2 |
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qdiag(i,j,ilwclr+l-1,bi,bj) = qdiag(i,j,ilwclr+l-1,bi,bj) + |
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. ( lwdtclr(i,j,l,bi,bj) + |
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. dlwdtg(i,j,L,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) ) |
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. * pk(i,j,l,bi,bj)*pinv(i,j)*86400 |
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enddo |
235 |
enddo |
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endif |
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|
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c Solar Radiative Heating (deg/day) |
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c --------------------------------- |
240 |
if (iradsw.ne.0) then |
241 |
do j=jm1,jm2 |
242 |
do i=im1,im2 |
243 |
qdiag(i,j,iradsw+l-1,bi,bj) = qdiag(i,j,iradsw+l-1,bi,bj) |
244 |
. + swdt(i,j,l,bi,bj)*radswt(i,j,bi,bj)* |
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. pk(i,j,l,bi,bj)*pinv(i,j)*86400 |
246 |
enddo |
247 |
enddo |
248 |
endif |
249 |
|
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c Clear Sky Solar Radiative Heating (deg/day) |
251 |
c ------------------------------------------- |
252 |
if (iswclr.ne.0) then |
253 |
do j=jm1,jm2 |
254 |
do i=im1,im2 |
255 |
qdiag(i,j,iswclr+l-1,bi,bj) = qdiag(i,j,iswclr+l-1,bi,bj) + |
256 |
. swdtclr(i,j,l,bi,bj)*radswt(i,j,bi,bj)* |
257 |
. pk(i,j,l,bi,bj)*pinv(i,j)*86400 |
258 |
enddo |
259 |
enddo |
260 |
endif |
261 |
|
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c Averaged U-Field (m/sec) |
263 |
c ------------------------ |
264 |
if( iuwnd.ne.0 ) then |
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do j=jm1,jm2 |
266 |
do i=im1,im2 |
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qdiag(i,j,iuwnd+L-1,bi,bj) = qdiag(i,j,iuwnd+L-1,bi,bj) + |
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. uphy(i,j,L,bi,bj) |
269 |
enddo |
270 |
enddo |
271 |
endif |
272 |
|
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c Averaged V-Field (m/sec) |
274 |
c ------------------------ |
275 |
if( ivwnd.ne.0 ) then |
276 |
do j=jm1,jm2 |
277 |
do i=im1,im2 |
278 |
qdiag(i,j,ivwnd+L-1,bi,bj) = qdiag(i,j,ivwnd+L-1,bi,bj) + |
279 |
. vphy(i,j,L,bi,bj) |
280 |
enddo |
281 |
enddo |
282 |
endif |
283 |
|
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c Averaged T-Field (deg) |
285 |
c ---------------------- |
286 |
if( itmpu.ne.0 ) then |
287 |
do j=jm1,jm2 |
288 |
do i=im1,im2 |
289 |
qdiag(i,j,itmpu+L-1,bi,bj) = qdiag(i,j,itmpu+L-1,bi,bj) + |
290 |
. thphy(i,j,L,bi,bj)*pk(i,j,L,bi,bj) |
291 |
enddo |
292 |
enddo |
293 |
endif |
294 |
|
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c Averaged QQ-Field (m/sec)**2 |
296 |
c ---------------------------- |
297 |
if( itke.ne.0 ) then |
298 |
do j=jm1,jm2 |
299 |
do i=im1,im2 |
300 |
qdiag(i,j,itke+L-1,bi,bj) = qdiag(i,j,itke+L-1,bi,bj) + qq(i,j,L) |
301 |
enddo |
302 |
enddo |
303 |
endif |
304 |
|
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c Averaged Q-Field (g/kg) |
306 |
c ----------------------- |
307 |
if( isphu.ne.0 ) then |
308 |
do j=jm1,jm2 |
309 |
do i=im1,im2 |
310 |
qdiag(i,j,isphu+L-1,bi,bj) = qdiag(i,j,isphu+L-1,bi,bj) + |
311 |
. sphy(i,j,L,bi,bj)*1000 |
312 |
enddo |
313 |
enddo |
314 |
endif |
315 |
|
316 |
enddo |
317 |
|
318 |
if( (bi.eq.1) .and. (bj.eq.1) ) then |
319 |
|
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ndiabu = ndiabu + 1 |
321 |
ndiabv = ndiabv + 1 |
322 |
ndiabt = ndiabt + 1 |
323 |
ndiabq = ndiabq + 1 |
324 |
nradlw = nradlw + 1 |
325 |
nlwclr = nlwclr + 1 |
326 |
nradsw = nradsw + 1 |
327 |
nswclr = nswclr + 1 |
328 |
nuwnd = nuwnd + 1 |
329 |
nvwnd = nvwnd + 1 |
330 |
ntmpu = ntmpu + 1 |
331 |
ntke = ntke + 1 |
332 |
nsphu = nsphu + 1 |
333 |
|
334 |
endif |
335 |
|
336 |
C ********************************************************************** |
337 |
|
338 |
c Vertically Averaged Moist-T Increment (K/day) |
339 |
c --------------------------------------------- |
340 |
if( ivdtmoist.ne.0 ) then |
341 |
do j=jm1,jm2 |
342 |
do i=im1,im2 |
343 |
qbar(i,j) = 0.0 |
344 |
enddo |
345 |
enddo |
346 |
do L=1,Nrphys |
347 |
do j=jm1,jm2 |
348 |
do i=im1,im2 |
349 |
qbar(i,j) = qbar(i,j) + |
350 |
. moistt(i,j,L,bi,bj)*pk(i,j,l,bi,bj)*dp(i,j,L,bi,bj) |
351 |
enddo |
352 |
enddo |
353 |
enddo |
354 |
do j=jm1,jm2 |
355 |
do i=im1,im2 |
356 |
qdiag(i,j,ivdtmoist,bi,bj) = qdiag(i,j,ivdtmoist,bi,bj) + |
357 |
. qbar(i,j)*pinv(i,j)*pinv(i,j)*86400 |
358 |
enddo |
359 |
enddo |
360 |
endif |
361 |
|
362 |
c Vertically Averaged Turb-T Increment (K/day) |
363 |
c -------------------------------------------- |
364 |
if( ivdtturb.ne.0 ) then |
365 |
do j=jm1,jm2 |
366 |
do i=im1,im2 |
367 |
qbar(i,j) = 0.0 |
368 |
enddo |
369 |
enddo |
370 |
do L=1,Nrphys |
371 |
do j=jm1,jm2 |
372 |
do i=im1,im2 |
373 |
qbar(i,j) = qbar(i,j) + |
374 |
. turbt(i,j,L,bi,bj)*pk(i,j,l,bi,bj)*dp(i,j,L,bi,bj) |
375 |
enddo |
376 |
enddo |
377 |
enddo |
378 |
do j=jm1,jm2 |
379 |
do i=im1,im2 |
380 |
qdiag(i,j,ivdtturb,bi,bj) = qdiag(i,j,ivdtturb,bi,bj) + |
381 |
. qbar(i,j)*pinv(i,j)*pinv(i,j)*86400 |
382 |
enddo |
383 |
enddo |
384 |
endif |
385 |
|
386 |
c Vertically Averaged RADLW Temperature Increment (K/day) |
387 |
c ------------------------------------------------------- |
388 |
if( ivdtradlw.ne.0 ) then |
389 |
do j=jm1,jm2 |
390 |
do i=im1,im2 |
391 |
qbar(i,j) = 0.0 |
392 |
enddo |
393 |
enddo |
394 |
do L=1,Nrphys |
395 |
do j=jm1,jm2 |
396 |
do i=im1,im2 |
397 |
qbar(i,j) = qbar(i,j) + ( lwdt(i,j,L,bi,bj) + |
398 |
. dlwdtg(i,j,L,bi,bj)*(tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) ) |
399 |
. *pk(i,j,l,bi,bj)*dp(i,j,L,bi,bj) |
400 |
enddo |
401 |
enddo |
402 |
enddo |
403 |
do j=jm1,jm2 |
404 |
do i=im1,im2 |
405 |
qdiag(i,j,ivdtradlw,bi,bj) = qdiag(i,j,ivdtradlw,bi,bj) + |
406 |
. qbar(i,j)*pinv(i,j)*pinv(i,j)*86400 |
407 |
enddo |
408 |
enddo |
409 |
endif |
410 |
|
411 |
c Vertically Averaged RADSW Temperature Increment (K/day) |
412 |
c ------------------------------------------------------- |
413 |
if( ivdtradsw.ne.0 ) then |
414 |
do j=jm1,jm2 |
415 |
do i=im1,im2 |
416 |
qbar(i,j) = 0.0 |
417 |
enddo |
418 |
enddo |
419 |
do L=1,Nrphys |
420 |
do j=jm1,jm2 |
421 |
do i=im1,im2 |
422 |
qbar(i,j) = qbar(i,j) + |
423 |
. swdt(i,j,L,bi,bj)*pk(i,j,l,bi,bj)*dp(i,j,L,bi,bj) |
424 |
enddo |
425 |
enddo |
426 |
enddo |
427 |
do j=jm1,jm2 |
428 |
do i=im1,im2 |
429 |
qdiag(i,j,ivdtradsw,bi,bj) = qdiag(i,j,ivdtradsw,bi,bj) + |
430 |
. qbar(i,j)*radswt(i,j,bi,bj)*pinv(i,j)*pinv(i,j)*86400 |
431 |
enddo |
432 |
enddo |
433 |
endif |
434 |
|
435 |
if( (bi.eq.1) .and. (bj.eq.1) ) then |
436 |
nvdtmoist = nvdtmoist + 1 |
437 |
nvdtturb = nvdtturb + 1 |
438 |
nvdtradlw = nvdtradlw + 1 |
439 |
nvdtradsw = nvdtradsw + 1 |
440 |
endif |
441 |
|
442 |
#endif |
443 |
return |
444 |
end |