SUBROUTINE perosat(ngrid,nlayer,nq,ig, ptimestep, $ pplev, pplay, zt, & zy, pdqcloud, pdqscloud) use tracer_mod, only: igcm_h2o2, mmol use conc_mod, only: mmean use comcstfi_h, only: g IMPLICIT NONE c======================================================================= c Treatment of saturation of hydrogen peroxide (H2O2) c c Modif de zq si saturation dans l'atmopshere c si zq(ig,l)> zqsat(ig,l) -> zq(ig,l)=zqsat(ig,l) c Le test est effectue de bas en haut. H2O2 condense c (si saturation) est remis dans la couche en dessous. c H2O2 condense dans la couche du bas est depose a la surface c c WARNING : H2O2 mixing ratio is assumed to be q(igcm_h2o2) c index igcm_h2o2 is known from tracer_mod c======================================================================= c----------------------------------------------------------------------- c declarations: c ------------- c c arguments: c ---------- integer,intent(in) :: ngrid ! number of atmospheric columns integer,intent(in) :: nlayer ! number of atmospheric layers integer,intent(in) :: nq ! number of tracers INTEGER,INTENT(IN) :: ig REAL,INTENT(IN) :: ptimestep ! pas de temps physique (s) REAL,INTENT(IN) :: pplev(ngrid,nlayer+1)! pression aux inter-couches (Pa) REAL,INTENT(IN) :: pplay(ngrid,nlayer) ! pression au milieu des couches (Pa) REAL,INTENT(IN) :: zt(nlayer) ! temperature au centre des couches (K) ! deja mise a jour dans calchim c Traceurs : real,intent(in) :: zy(nlayer,nq) ! traceur (fraction molaire sortie chimie) real,intent(out) :: pdqcloud(ngrid,nlayer,nq) ! tendance condensation (kg/kg.s-1) real,intent(out) :: pdqscloud(ngrid,nq) ! flux en surface (kg.m-2.s-1) c local: c ------ INTEGER l,iq REAL zysat(nlayer) REAL zynew(nlayer) ! mole fraction after condensation REAL psat_hg ! pression saturante (mm Hg) REAL psat_hpa ! pression saturante (hPa) logical,save :: firstcall=.true. c Pour diagnostique : c ~~~~~~~~~~~~~~~~~ REAL taucond(ngrid,nlayer) ! taux de condensation (kg/kg/s-1) c----------------------------------------------------------------------- c 1. initialisation/verification c ------------------------------ c if (firstcall) then ! check that there is an h2o2 tracer: if (igcm_h2o2.eq.0) then write(*,*) "perosat: error; no h2o2 tracer !!!!" call abort_physic("perosat","missing h2o2 tracer",1) endif firstcall=.false. endif c ---------------------------------------------- c c Rapport de melange a saturation dans la couche l : c ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ c c d'apres Lindner, Planet. Space Sci., 36, 125, 1988. c domaine d'application: T < 220 K c do l = 1,nlayer c print *,'ig=',ig,' l=',l,' igcm_h2o2=',igcm_h2o2 c print *,'y=',zy(l,igcm_h2o2),' T=',zt(l) zynew(l) = zy(l,igcm_h2o2) if (zt(l) .le. 220.) then psat_hg = 10.**(11.98 - (3422./zt(l))) psat_hpa = psat_hg*760./1013. zysat(l) = (psat_hpa*100./pplay(ig,l)) else zysat(l) = 1.e+30 end if c print *,'ysat=',zysat(l) end do c taux de condensation (kg/kg/s-1) dans les differentes couches c ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ c (Pour diagnostic seulement !) c do l=1, nlayer taucond(ig,l)=max((zy(l,igcm_h2o2)-zysat(l))*mmol(igcm_h2o2) $ /(mmean(ig,l)*ptimestep),0.) end do c c Saturation couche nlay a 2 : c ~~~~~~~~~~~~~~~~~~~~~~~~~~ c do l=nlayer,2, -1 if (zynew(l).gt.zysat(l)) then zynew(l-1) = zynew(l-1) + (zynew(l) - zysat(l)) & *(pplev(ig,l)-pplev(ig,l+1))/(pplev(ig,l-1)-pplev(ig,l)) zynew(l)=zysat(l) endif enddo c c Saturation couche l=1 c ~~~~~~~~~~~~~~~~~~~~~ c if (zynew(1).gt.zysat(1)) then pdqscloud(ig,igcm_h2o2)= (zynew(1)-zysat(1))*mmol(igcm_h2o2) $ *(pplev(ig,1)-pplev(ig,2))/(mmean(ig,1)*g*ptimestep) c zynew(1)=zysat(1) else pdqscloud(ig,igcm_h2o2)=0 end if c c Tendance finale c ~~~~~~~~~~~~~~~ c do l=1, nlayer pdqcloud(ig,l,igcm_h2o2)=(zynew(l) - zy(l,igcm_h2o2)) & *mmol(igcm_h2o2)/(mmean(ig,l)*ptimestep) c print *,'pdqcloud=',pdqcloud(ig,l,igcm_h2o2) end do RETURN END