SUBROUTINE callsedim(ngrid,nlay, ptimestep, & pplev,zlev, pt, pdt, & pq, pdqfi, pdqsed,pdqs_sed,nq) use radinc_h, only : naerkind use radii_mod, only: h2o_reffrad use aerosol_mod, only : iaero_h2o USE tracer_h, only : igcm_co2_ice,igcm_h2o_ice,radius,rho_q use comcstfi_mod, only: g use callkeys_mod, only : water IMPLICIT NONE !================================================================== ! ! Purpose ! ------- ! Calculates sedimentation of aerosols depending on their ! density and radius. ! ! Authors ! ------- ! F. Forget (1999) ! Tracer generalisation by E. Millour (2009) ! !================================================================== c----------------------------------------------------------------------- c declarations: c ------------- c arguments: c ---------- integer,intent(in):: ngrid ! number of horizontal grid points integer,intent(in):: nlay ! number of atmospheric layers real,intent(in):: ptimestep ! physics time step (s) real,intent(in):: pplev(ngrid,nlay+1) ! pressure at inter-layers (Pa) real,intent(in):: pt(ngrid,nlay) ! temperature at mid-layer (K) real,intent(in):: pdt(ngrid,nlay) ! tendency on temperature real,intent(in):: zlev(ngrid,nlay+1) ! altitude at layer boundaries integer,intent(in) :: nq ! number of tracers real,intent(in) :: pq(ngrid,nlay,nq) ! tracers (kg/kg) real,intent(in) :: pdqfi(ngrid,nlay,nq) ! tendency on tracers before ! sedimentation (kg/kg.s-1) real,intent(out) :: pdqsed(ngrid,nlay,nq) ! tendency due to sedimentation (kg/kg.s-1) real,intent(out) :: pdqs_sed(ngrid,nq) ! flux at surface (kg.m-2.s-1) c local: c ------ INTEGER l,ig, iq ! for particles with varying radii: real reffrad(ngrid,nlay,naerkind) ! particle radius (m) real nueffrad(ngrid,nlay,naerkind) ! aerosol effective radius variance real zqi(ngrid,nlay,nq) ! to locally store tracers real zt(ngrid,nlay) ! to locally store temperature (K) real masse (ngrid,nlay) ! Layer mass (kg.m-2) real epaisseur (ngrid,nlay) ! Layer thickness (m) real wq(ngrid,nlay+1) ! displaced tracer mass (kg.m-2) c real dens(ngrid,nlay) ! Mean density of the ice part. accounting for dust core LOGICAL,SAVE :: firstcall=.true. !$OMP THREADPRIVATE(firstcall) c ** un petit test de coherence c -------------------------- IF (firstcall) THEN firstcall=.false. ! add some tests on presence of required tracers/aerosols: if (water) then if (igcm_h2o_ice.eq.0) then write(*,*) "callsedim error: water=.true.", & " but igcm_h2o_ice=0" stop endif if (iaero_h2o.eq.0) then write(*,*) "callsedim error: water=.true.", & " but iaero_ho2=0" stop endif endif ENDIF ! of IF (firstcall) !======================================================================= ! Preliminary calculation of the layer characteristics ! (mass (kg.m-2), thickness (m), etc. do l=1,nlay do ig=1, ngrid masse(ig,l)=(pplev(ig,l) - pplev(ig,l+1)) /g epaisseur(ig,l)= zlev(ig,l+1) - zlev(ig,l) zt(ig,l)=pt(ig,l)+pdt(ig,l)*ptimestep end do end do !====================================================================== ! Calculate the transport due to sedimentation for each tracer ! [This has been rearranged by L. Kerber to allow the sedimentation ! of general tracers.] do iq=1,nq if((radius(iq).gt.1.e-9).and.(iq.ne.igcm_co2_ice)) then ! JVO 08/2017 : be careful radius was tested uninitialized (fixed) ... ! (no sedim for gases, and co2_ice sedim is done in condense_co2) ! store locally updated tracers do l=1,nlay do ig=1, ngrid zqi(ig,l,iq)=pq(ig,l,iq)+pdqfi(ig,l,iq)*ptimestep enddo enddo ! of do l=1,nlay !====================================================================== ! Sedimentation !====================================================================== ! Water if (water.and.(iq.eq.igcm_h2o_ice)) then ! compute radii for h2o_ice call h2o_reffrad(ngrid,nlay,zqi(1,1,igcm_h2o_ice),zt, & reffrad(1,1,iaero_h2o),nueffrad(1,1,iaero_h2o)) ! call sedimentation for h2o_ice call newsedim(ngrid,nlay,ngrid*nlay,ptimestep, & pplev,masse,epaisseur,zt,reffrad(1,1,iaero_h2o), & rho_q(iq),zqi(1,1,igcm_h2o_ice),wq) ! General Case else call newsedim(ngrid,nlay,1,ptimestep, & pplev,masse,epaisseur,zt,radius(iq),rho_q(iq), & zqi(1,1,iq),wq) endif !======================================================================= ! Calculate the tendencies !====================================================================== do ig=1,ngrid ! Ehouarn: with new way of tracking tracers by name, this is simply pdqs_sed(ig,iq) = wq(ig,1)/ptimestep end do DO l = 1, nlay DO ig=1,ngrid pdqsed(ig,l,iq)=(zqi(ig,l,iq)- & (pq(ig,l,iq) + pdqfi(ig,l,iq)*ptimestep))/ptimestep ENDDO ENDDO endif ! of no gases no co2_ice enddo ! of do iq=1,nq return end