C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/fizhi/do_fizhi.F,v 1.53 2009/04/01 19:54:17 jmc Exp $ C $Name: checkpoint62r $ #include "FIZHI_OPTIONS.h" subroutine do_fizhi(myIter,myid, . idim1,idim2,jdim1,jdim2,Nrphin,Nsxin,Nsyin,im1,im2,jm1,jm2,bi,bj, . nchp,nchptot,nchpland, . uphy,vphy,thphy,sphy,pephy,lons,lats,Zsurf, . ctmt,xxmt,yymt,zetamt,xlmt,khmt,tke, . tgz,sst,sice,phis_var,landtype,fracland,emiss,albnirdr,albnirdf, . albvisdr,albvisdf,ityp,chfr,alai,agrn,igrd,chlat,chlon, . tcanopy,tdeep,ecanopy,swetshal,swetroot,swetdeep,snodep,capac, . o3,qstr,co2,cfc11,cfc12,cfc22,n2o,methane, . iras,nlwcld,cldtotlwin,cldraslwin,cldlsplwin,nlwlz,lwlzin, . nswcld,cldtotswin,cldrasswin,cldlspswin,nswlz,swlzin,imstturbsw, . imstturblw,qliqaveswin,qliqavelwin,fccaveswin,fccavelwin, . rainconin,rainlspin,snowfallin, . duphy,dvphy,dthphy,dsphy) c----------------------------------------------------------------------- c Interface routine to calculate physics increments - calls fizhi_driver. c Purpose of this routine is to set up arrays local to fizhi and 'save' c them from one iteration to the next, and act as interface between the c model common blocks (held in fizhi_wrapper) and fizhi_driver. c Copies of variables that are 'shadowed' are made here without shadows c for passing to fizhi_driver. c Note: routine is called from inside a bi-bj loop c c----------------------------------------------------------------------- implicit none #include "SIZE.h" #include "fizhi_SIZE.h" #include "chronos.h" C Argument list declarations integer myIter,myid,im1,im2,jm1,jm2,idim1,idim2,jdim1,jdim2 integer Nrphin,Nsxin,Nsyin,bi,bj,nchp integer nchptot(Nsxin,Nsyin),nchpland(Nsxin,Nsyin) _RL uphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL vphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL thphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL sphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL pephy(idim1:idim2,jdim1:jdim2,Nrphin+1,Nsxin,Nsyin) _RS lons(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RS lats(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RS Zsurf(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL ctmt(nchp,Nsxin,Nsyin),xxmt(nchp,Nsxin,Nsyin) _RL yymt(nchp,Nsxin,Nsyin) _RL zetamt(nchp,Nsxin,Nsyin) _RL xlmt(nchp,Nrphin,Nsxin,Nsyin),khmt(nchp,Nrphin,Nsxin,Nsyin) _RL tke(nchp,Nrphin,Nsxin,Nsyin) _RL tgz(im2,jm2,Nsxin,Nsyin) _RL sst(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL sice(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL phis_var(im2,jm2,Nsxin,Nsyin) integer landtype(im2,jm2,Nsxin,Nsyin) _RL fracland(im2,jm2,Nsxin,Nsyin),emiss(im2,jm2,10,Nsxin,Nsyin) _RL albvisdr(im2,jm2,Nsxin,Nsyin),albvisdf(im2,jm2,Nsxin,Nsyin) _RL albnirdr(im2,jm2,Nsxin,Nsyin),albnirdf(im2,jm2,Nsxin,Nsyin) _RL chfr(nchp,Nsxin,Nsyin),alai(nchp,Nsxin,Nsyin) _RL agrn(nchp,Nsxin,Nsyin) integer ityp(nchp,Nsxin,Nsyin),igrd(nchp,Nsxin,Nsyin) _RL chlat(nchp,Nsxin,Nsyin),chlon(nchp,Nsxin,Nsyin) _RL tcanopy(nchp,Nsxin,Nsyin),tdeep(nchp,Nsxin,Nsyin) _RL ecanopy(nchp,Nsxin,Nsyin),swetshal(nchp,Nsxin,Nsyin) _RL swetroot(nchp,Nsxin,Nsyin),swetdeep(nchp,Nsxin,Nsyin) _RL snodep(nchp,Nsxin,Nsyin),capac(nchp,Nsxin,Nsyin) _RL o3(im2,jm2,Nrphin,Nsxin,Nsyin) _RL qstr(im2,jm2,Nrphin,Nsxin,Nsyin) _RL co2,cfc11,cfc12,cfc22,n2o(Nrphin),methane(Nrphin) integer iras(Nsxin,Nsyin) integer nlwcld(Nsxin,Nsyin),nlwlz(Nsxin,Nsyin) integer nswcld(Nsxin,Nsyin),nswlz(Nsxin,Nsyin) integer imstturbsw(Nsxin,Nsyin),imstturblw(Nsxin,Nsyin) _RL cldtotlwin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL cldraslwin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL cldlsplwin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL lwlzin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL cldtotswin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL cldrasswin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL cldlspswin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL swlzin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL qliqaveswin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL qliqavelwin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL fccaveswin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL fccavelwin(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL rainlspin(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL rainconin(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL snowfallin(idim1:idim2,jdim1:jdim2,Nsxin,Nsyin) _RL duphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL dvphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL dthphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) _RL dsphy(idim1:idim2,jdim1:jdim2,Nrphin,Nsxin,Nsyin) c Local Variables integer ptracer,ntracer parameter (ptracer = 1) parameter (ntracer = 1) _RL xlats(sNx,sNy),xlons(sNx,sNy),sea_ice(sNx,sNy) _RL surfZ(sNx,sNy) _RL p(sNx,sNy,Nsx,Nsy) _RL u(sNx,sNy,Nrphys),v(sNx,sNy,Nrphys),t(sNx,sNy,Nrphys) _RL q(sNx,sNy,Nrphys,ntracer) _RL pl(sNx,sNy,Nrphys,Nsx,Nsy),pkl(sNx,sNy,Nrphys,Nsx,Nsy) _RL ple(sNx,sNy,Nrphys+1,Nsx,Nsy) _RL pkle(sNx,sNy,Nrphys+1,Nsx,Nsy) _RL dpres(sNx,sNy,Nrphys,Nsx,Nsy) _RL lwdt(sNx,sNy,Nrphys,Nsx,Nsy) _RL lwdtclr(sNx,sNy,Nrphys,Nsx,Nsy) _RL swdt(sNx,sNy,Nrphys,Nsx,Nsy) _RL swdtclr(sNx,sNy,Nrphys,Nsx,Nsy) _RL turbu(sNx,sNy,Nrphys,Nsx,Nsy) _RL turbv(sNx,sNy,Nrphys,Nsx,Nsy) _RL turbt(sNx,sNy,Nrphys,Nsx,Nsy) _RL turbq(sNx,sNy,Nrphys,ntracer,Nsx,Nsy) _RL moistu(sNx,sNy,Nrphys,Nsx,Nsy) _RL moistv(sNx,sNy,Nrphys,Nsx,Nsy) _RL moistt(sNx,sNy,Nrphys,Nsx,Nsy) _RL moistq(sNx,sNy,Nrphys,ntracer,Nsx,Nsy) _RL radswt(sNx,sNy,Nsx,Nsy),radswg(sNx,sNy,Nsx,Nsy) _RL swgclr(sNx,sNy,Nsx,Nsy) _RL fdirpar(sNx,sNy,Nsx,Nsy),fdifpar(sNx,sNy,Nsx,Nsy) _RL osr(sNx,sNy,Nsx,Nsy),osrclr(sNx,sNy,Nsx,Nsy) _RL tg0(sNx,sNy,Nsx,Nsy),radlwg(sNx,sNy,Nsx,Nsy) _RL lwgclr(sNx,sNy,Nsx,Nsy),st4(sNx,sNy,Nsx,Nsy) _RL dst4(sNx,sNy,Nsx,Nsy),dlwdtg(sNx,sNy,Nrphys,Nsx,Nsy) _RL qq(sNx,sNy,Nrphys,Nsx,Nsy) integer i,j,L _RL getcon, kappa, p0kappa, s0, ra _RL cosz(sNx,sNy) _RL cldtot_lw(sNx,sNy,Nrphys) _RL cldras_lw(sNx,sNy,Nrphys) _RL cldlsp_lw(sNx,sNy,Nrphys) _RL lwlz(sNx,sNy,Nrphys) _RL cldtot_sw(sNx,sNy,Nrphys) _RL cldras_sw(sNx,sNy,Nrphys) _RL cldlsp_sw(sNx,sNy,Nrphys) _RL swlz(sNx,sNy,Nrphys) _RL qliqavesw(sNx,sNy,Nrphys) _RL qliqavelw(sNx,sNy,Nrphys) _RL fccavesw(sNx,sNy,Nrphys) _RL fccavelw(sNx,sNy,Nrphys) _RL rainlsp(sNx,sNy) _RL raincon(sNx,sNy) _RL snowfall(sNx,sNy) _RL tempij(sNx,sNy) logical alarm external alarm common /saver/ lwdt,lwdtclr,swdt,swdtclr,turbu,turbv,turbt,turbq common /saver/ moistu,moistv,moistt,moistq common /saver/ radswg,swgclr,fdirpar,fdifpar,osr,osrclr,tg0,radlwg common /saver/ st4,dst4,dlwdtg common /saver/ qq common /saver/ pl,ple,dpres,pkle,pkl C*********************************************************************** C Unshadow input arrays (and make 'fizhi theta' from true theta) C*********************************************************************** kappa = getcon('KAPPA') p0kappa = 1000.0 ** kappa S0 = getcon('S0') do j = jm1,jm2 do i = im1,im2 xlats(i,j) = lats(i,j,bi,bj) xlons(i,j) = lons(i,j,bi,bj) surfZ(i,j) = Zsurf(i,j,bi,bj) enddo enddo #ifdef FIZHI_USE_FIXED_DAY call astro ( 20040321,nhms, xlats,xlons, im2*jm2, cosz,ra ) #else call astro ( nymd,nhms, xlats,xlons, im2*jm2, cosz,ra ) #endif do j=jm1,jm2 do i=im1,im2 radswt(i,j,bi,bj) = S0*(1.0/ra**2)*cosz(i,j) enddo enddo if( alarm('moist') .or. alarm('turb') .or. . alarm('radsw') .or. alarm('radlw') ) then C compute pressures - all pressure are converted here to hPa do j = jm1,jm2 do i = im1,im2 ple(i,j,Nrphys+1,bi,bj) = pephy(i,j,Nrphys+1,bi,bj)/100. pkle(i,j,Nrphys+1,bi,bj)=(pephy(i,j,Nrphys+1,bi,bj)/100.) **kappa p(i,j,bi,bj) = pephy(i,j,Nrphys+1,bi,bj)/100. sea_ice(i,j) = sice(i,j,bi,bj) raincon(i,j) = rainconin(i,j,bi,bj) rainlsp(i,j) = rainlspin(i,j,bi,bj) snowfall(i,j) = snowfallin(i,j,bi,bj) enddo enddo do L = 1,Nrphys do j = jm1,jm2 do i = im1,im2 u(i,j,L) = uphy(i,j,L,bi,bj) v(i,j,L) = vphy(i,j,L,bi,bj) t(i,j,L) = thphy(i,j,L,bi,bj)/p0kappa q(i,j,L,1) = sphy(i,j,L,bi,bj) pl(i,j,L,bi,bj) = (pephy(i,j,L,bi,bj)+pephy(i,j,L+1,bi,bj))/200. dpres(i,j,L,bi,bj)=(pephy(i,j,L+1,bi,bj)-pephy(i,j,L,bi,bj))/100. ple(i,j,L,bi,bj) = pephy(i,j,L,bi,bj)/100. if (ple(i,j,L,bi,bj).gt.0.) then pkle(i,j,L,bi,bj) = ple(i,j,L,bi,bj) **kappa else pkle(i,j,L,bi,bj) = 0. endif cldtot_lw(i,j,L) = cldtotlwin(i,j,L,bi,bj) cldlsp_lw(i,j,L) = cldlsplwin(i,j,L,bi,bj) cldras_lw(i,j,L) = cldraslwin(i,j,L,bi,bj) lwlz(i,j,L) = lwlzin(i,j,L,bi,bj) qliqavelw(i,j,L) = qliqavelwin(i,j,L,bi,bj) fccavelw(i,j,L) = fccavelwin(i,j,L,bi,bj) cldtot_sw(i,j,L) = cldtotswin(i,j,L,bi,bj) cldlsp_sw(i,j,L) = cldlspswin(i,j,L,bi,bj) cldras_sw(i,j,L) = cldrasswin(i,j,L,bi,bj) swlz(i,j,L) = swlzin(i,j,L,bi,bj) qliqavesw(i,j,L) = qliqaveswin(i,j,L,bi,bj) fccavesw(i,j,L) = fccaveswin(i,j,L,bi,bj) enddo enddo enddo call pkappa (im2,jm2,Nrphys,ple(1,1,1,bi,bj),pkle(1,1,1,bi,bj), . pkl(1,1,1,bi,bj)) call fizhi_driver(myid,im2,jm2,Nrphys,bi,bj,ptracer,ntracer,xlats, . xlons,p(1,1,bi,bj),u,v,t,q,pl(1,1,1,bi,bj),ple(1,1,1,bi,bj), . dpres(1,1,1,bi,bj),pkle(1,1,1,bi,bj),pkl(1,1,1,bi,bj),surfZ, . fracland(1,1,bi,bj),landtype(1,1,bi,bj),radswt(1,1,bi,bj), . phis_var(1,1,bi,bj),tgz(1,1,bi,bj),sea_ice,nchp,chlat(1,bi,bj), . chlon(1,bi,bj),igrd(1,bi,bj),nchptot(bi,bj),nchpland(bi,bj), . chfr(1,bi,bj),ityp(1,bi,bj),tcanopy(1,bi,bj),tdeep(1,bi,bj), . ecanopy(1,bi,bj),swetshal(1,bi,bj),swetroot(1,bi,bj), . swetdeep(1,bi,bj),capac(1,bi,bj),snodep(1,bi,bj), . ctmt(1,bi,bj),xxmt(1,bi,bj),yymt(1,bi,bj),zetamt(1,bi,bj), . xlmt(1,1,bi,bj),khmt(1,1,bi,bj),tke(1,1,bi,bj), . albvisdr(1,1,bi,bj),albvisdf(1,1,bi,bj),albnirdr(1,1,bi,bj), . albnirdf(1,1,bi,bj),emiss(1,1,1,bi,bj),alai(1,bi,bj), . agrn(1,bi,bj), . qstr(1,1,1,bi,bj),o3(1,1,1,bi,bj), . co2,cfc11,cfc12,cfc22,methane,n2o, . lwdt(1,1,1,bi,bj),lwdtclr(1,1,1,bi,bj),swdt(1,1,1,bi,bj), . swdtclr(1,1,1,bi,bj),turbu(1,1,1,bi,bj),turbv(1,1,1,bi,bj), . turbt(1,1,1,bi,bj),turbq(1,1,1,1,bi,bj),moistu(1,1,1,bi,bj), . moistv(1,1,1,bi,bj),moistt(1,1,1,bi,bj),moistq(1,1,1,1,bi,bj), . radswg(1,1,bi,bj),swgclr(1,1,bi,bj),fdirpar(1,1,bi,bj), . fdifpar(1,1,bi,bj),osr(1,1,bi,bj),osrclr(1,1,bi,bj), . tg0(1,1,bi,bj),radlwg(1,1,bi,bj),lwgclr(1,1,bi,bj), . st4(1,1,bi,bj),dst4(1,1,bi,bj),dlwdtg(1,1,1,bi,bj), . rainlsp,raincon,snowfall,iras(bi,bj), . nlwcld(bi,bj),cldtot_lw,cldras_lw,cldlsp_lw,nlwlz(bi,bj),lwlz, . nswcld(bi,bj),cldtot_sw,cldras_sw,cldlsp_sw,nswlz(bi,bj),swlz, . imstturbsw(bi,bj),imstturblw(bi,bj),qliqavesw,qliqavelw, . fccavesw,fccavelw,qq(1,1,1,bi,bj)) do L = 1,Nrphys do j = jm1,jm2 do i = im1,im2 cldtotlwin(i,j,L,bi,bj) = cldtot_lw(i,j,L) cldlsplwin(i,j,L,bi,bj) = cldlsp_lw(i,j,L) cldraslwin(i,j,L,bi,bj) = cldras_lw(i,j,L) lwlzin(i,j,L,bi,bj) = lwlz(i,j,L) qliqavelwin(i,j,L,bi,bj) = qliqavelw(i,j,L) fccavelwin(i,j,L,bi,bj) = fccavelw(i,j,L) cldtotswin(i,j,L,bi,bj) = cldtot_sw(i,j,L) cldlspswin(i,j,L,bi,bj) = cldlsp_sw(i,j,L) cldrasswin(i,j,L,bi,bj) = cldras_sw(i,j,L) swlzin(i,j,L,bi,bj) = swlz(i,j,L) qliqaveswin(i,j,L,bi,bj) = qliqavesw(i,j,L) fccaveswin(i,j,L,bi,bj) = fccavesw(i,j,L) enddo enddo enddo do j = jm1,jm2 do i = im1,im2 rainconin(i,j,bi,bj) = raincon(i,j) rainlspin(i,j,bi,bj) = rainlsp(i,j) snowfallin(i,j,bi,bj) = snowfall(i,j) enddo enddo endif do L = 1,Nrphys do j = jm1,jm2 do i = im1,im2 duphy(i,j,L,bi,bj) = moistu(i,j,L,bi,bj) + turbu(i,j,L,bi,bj) dvphy(i,j,L,bi,bj) = moistv(i,j,L,bi,bj) + turbv(i,j,L,bi,bj) dthphy(i,j,L,bi,bj) = ((moistt(i,j,L,bi,bj)+turbt(i,j,L,bi,bj)+ . lwdt(i,j,L,bi,bj) + . dlwdtg(i,j,L,bi,bj) * (tgz(i,j,bi,bj)-tg0(i,j,bi,bj)) + . swdt(i,j,L,bi,bj)*radswt(i,j,bi,bj) )*p0kappa ) / p(i,j,bi,bj) dsphy(i,j,L,bi,bj) = (moistq(i,j,L,1,bi,bj)+turbq(i,j,L,1,bi,bj)) . /p(i,j,bi,bj) enddo enddo enddo call fizhi_step_diag(myid,p,u,v,t,q,qq,pkl,dpres, . radswt,radswg,swgclr,osr,osrclr,st4,dst4,tgz,tg0,radlwg,lwgclr, . turbu,turbv,turbt,turbq,moistu,moistv,moistt,moistq, . lwdt,swdt,lwdtclr,swdtclr,dlwdtg, . im1,im2,jm1,jm2,Nrphys,Nsx,Nsy,bi,bj,ntracer) return end