subroutine thermosphere(ngrid,nlayer,nq, & pplev,pplay,dist_sol, $ mu0,ptimestep,ptime,zday,tsurf,zzlev,zzlay, & pt,pq,pu,pv,pdt,pdq, $ zdteuv,zdtconduc,zdumolvis,zdvmolvis,zdqmoldiff) use conc_mod, only: rnew, cpnew implicit none !#include "dimensions.h" !#include "dimphys.h" #include "comcstfi.h" #include "callkeys.h" !#include "comdiurn.h" !#include "param.h" !#include "param_v4.h" !#include "chimiedata.h" !#include "conc.h" integer,intent(in) :: ngrid ! number of atmospheric columns integer,intent(in) :: nlayer ! number of atmospheric layers integer,intent(in) :: nq ! number of advected tracers REAL pplay(ngrid,nlayer) real pplev(ngrid,nlayer+1) REAL zzlay(ngrid,nlayer) real zzlev(ngrid,nlayer+1) REAL pt(ngrid,nlayer) real zday REAL dist_sol real mu0(ngrid) real pq(ngrid,nlayer,nq) real ptimestep real ptime real tsurf(ngrid) REAL pu(ngrid,nlayer),pv(ngrid,nlayer) REAL pdt(ngrid,nlayer),pdq(ngrid,nlayer,nq) REAL zdteuv(ngrid,nlayer) REAL zdtconduc(ngrid,nlayer) REAL zdumolvis(ngrid,nlayer) REAL zdvmolvis(ngrid,nlayer) real zdqmoldiff(ngrid,nlayer,nq) INTEGER l,ig logical,save :: firstcall=.true. if (firstcall) then if (.not. tracer) then do l=1,nlayer do ig=1,ngrid rnew(ig,l)=r cpnew(ig,l)=cpp enddo enddo endif firstcall= .false. endif if (calleuv) then zdteuv(1:ngrid,1:nlayer)=0 call euvheat(ngrid,nlayer,nq,pt,pdt,pplev,pplay,zzlay, $ mu0,ptimestep,ptime,zday,pq,pdq,zdteuv) endif if (callconduct) THEN zdtconduc(1:ngrid,1:nlayer)=0 call conduction(ngrid,nlayer,ptimestep,pplay,pplev,pt,zdteuv, $ tsurf,zzlev,zzlay,zdtconduc) endif if (callmolvis) THEN zdumolvis(1:ngrid,1:nlayer)=0 call molvis(ngrid,nlayer,ptimestep,pplay,pplev,pt, & zdteuv,zdtconduc,pu, $ tsurf,zzlev,zzlay,zdumolvis) zdvmolvis(1:ngrid,1:nlayer)=0 call molvis(ngrid,nlayer,ptimestep,pplay,pplev,pt, & zdteuv,zdtconduc,pv, $ tsurf,zzlev,zzlay,zdvmolvis) endif if (callmoldiff) THEN zdqmoldiff(1:ngrid,1:nlayer,1:nq)=0 call moldiff_red(ngrid,nlayer,nq, & pplay,pplev,pt,pdt,pq,pdq,ptimestep, & zzlay,zdteuv,zdtconduc,zdqmoldiff) endif return end