!$Id $ SUBROUTINE lsc_scav_spl(pdtime,it,iflag_lscav,oliq,flxr,flxs,rneb,beta_fisrt, & beta_v1,pplay,paprs,t,tr_seri,d_tr_insc, & alpha_r,alpha_s,kk, henry, & id_prec,id_fine,id_coss, id_codu, id_scdu, & d_tr_bcscav,d_tr_evap,qPrls) USE ioipsl USE dimphy USE lmdz_grid_phy USE lmdz_phys_para USE traclmdz_mod USE infotrac,ONLY: nbtr USE iophy USE lmdz_yomcst IMPLICIT NONE !===================================================================== ! Objet : depot humide (lessivage et evaporation) de traceurs ! Inspired by routines of Olivier Boucher (mars 1998) ! author R. Pilon 10 octobre 2012 ! last modification 16/01/2013 (reformulation partie evaporation) !===================================================================== ! SPLA version taken from trunk revision 2041 include "dimensions.h" include "chem.h" include "YOECUMF.h" REAL,INTENT(IN) :: pdtime ! time step (s) INTEGER,INTENT(IN) :: it ! tracer number INTEGER,INTENT(IN) :: iflag_lscav ! LS scavenging param: ! 3=Reddy_Boucher2004, 4=3+RPilon. REAL,DIMENSION(klon,klev+1),INTENT(IN) :: flxr ! flux precipitant de pluie REAL,DIMENSION(klon,klev+1),INTENT(IN) :: flxs ! flux precipitant de neige REAL,INTENT(IN) :: oliq ! contenu en eau liquide dans le nuage (kg/kg) REAL,DIMENSION(klon,klev),INTENT(IN) :: rneb REAL,DIMENSION(klon,klev),INTENT(IN) :: pplay ! pression REAL,DIMENSION(klon,klev+1),INTENT(IN) :: paprs ! pression REAL,DIMENSION(klon,klev),INTENT(IN) :: t ! temperature ! tracers REAL,DIMENSION(klon,klev,nbtr),INTENT(IN) :: tr_seri ! q de traceur REAL,DIMENSION(klon,klev),INTENT(IN) :: beta_fisrt ! taux de conversion de l'eau cond REAL,DIMENSION(klon,klev),INTENT(OUT) :: beta_v1 ! -- (originale version) REAL,DIMENSION(klon) :: his_dh ! tendance de traceur integre verticalement REAL,DIMENSION(klon,klev,nbtr),INTENT(OUT) :: d_tr_insc ! tendance du traceur REAL,DIMENSION(klon,klev,nbtr),INTENT(OUT) :: d_tr_bcscav ! tendance de traceur REAL,DIMENSION(klon,klev,nbtr),INTENT(OUT) :: d_tr_evap REAL,DIMENSION(klon,nbtr),INTENT(OUT) :: qPrls !jyg: concentration tra dans pluie LS a la surf. REAL :: dxin,dxev ! tendance temporaire de traceur incloud REAL,DIMENSION(klon,klev) :: dxbc ! tendance temporaire de traceur bc INTEGER :: id_prec,id_fine,id_coss, id_codu, id_scdu ! variables locales LOGICAL,SAVE :: debut=.TRUE. !$OMP THREADPRIVATE(debut) !JE REAL,PARAMETER :: henry=1.4 ! constante de Henry en mol/l/atm ~1.4 for gases REAL,DIMENSION(nbtr) :: henry ! constante de Henry en mol/l/atm ~1.4 for gases REAL :: henry_t ! constante de Henry a T t (mol/l/atm) !JE REAL,PARAMETER :: kk=2900. ! coefficient de dependence en T (K) REAL,DIMENSION(nbtr) :: kk ! coefficient de dependence en T (K) REAL :: f_a ! rapport de la phase aqueuse a la phase gazeuse REAL :: beta ! taux de conversion de l'eau en pluie INTEGER :: i, k REAL,DIMENSION(klon,klev) :: scav ! water liquid content / fraction aqueuse du constituant REAL,DIMENSION(klon,klev) :: zrho REAL,DIMENSION(klon,klev) :: zdz REAL,DIMENSION(klon,klev) :: zmass ! layer mass REAL :: frac_ev ! cste pour la reevaporation : dropplet shrinking ! frac_ev = frac_gas ou frac_aer REAL,PARAMETER :: frac_gas=1.0 ! cste pour la reevaporation pour les gaz REAL :: frac_aer ! cste pour la reevaporation pour les particules REAL,DIMENSION(klon,klev) :: deltaP ! P(i+1)-P(i) REAL,DIMENSION(klon,klev) :: beta_ev ! dP/P(i+1) ! 101.325 m3/l x Pa/atm ! R Pa.m3/mol/K ! cste de dissolution pour le depot humide REAL,SAVE :: frac_fine_scav REAL,SAVE :: frac_coar_scav !$OMP THREADPRIVATE(frac_fine_scav, frac_coar_scav) ! below-cloud scav variables ! aerosol : alpha_r=0.001, gas 0.001 (Pruppacher & Klett 1967) !JE<< ! REAL,SAVE :: alpha_r ! coefficient d'impaction pour la pluie ! REAL,SAVE :: alpha_s ! coefficient d'impaction pour la neige !JE>> REAL, DIMENSION(nbtr) :: alpha_r ! coefficient d'impaction pour la pluie REAL, DIMENSION(nbtr) :: alpha_s ! coefficient d'impaction pour la neige REAL,SAVE :: R_r ! mean raindrop radius (m) REAL,SAVE :: R_s ! mean snow crystal radius (m) !!! $OMP THREADPRIVATE(alpha_r, alpha_s, R_r, R_s) !$OMP THREADPRIVATE(R_r, R_s) REAL :: pr, ps, ice, water real :: conserv !!!!!!!!!!!!!!!!!!!! choix lessivage !!!!!!!!!!!!!!!!!!!!!!!! !! logical,save :: inscav_fisrt !!! $OMP THREADPRIVATE(inscav_first) !!!!!!!!!!!!!!!!!!!!!!!!!!! IF (debut) THEN ! inscav_fisrt=.TRUE. ! CALL getin('inscav_fisrt',inscav_fisrt) ! if(inscav_fisrt) then ! PRINT*,'beta from fisrtilp.F90, beta = (z_cond - z_oliq)/z_cond, inscav_fisrt=',inscav_fisrt ! else ! PRINT*,'beta from Reddy and Bocuher 2004 (original version), inscav_fisrt=',inscav_fisrt ! endif !JE alpha_r=0.001 ! coefficient d'impaction pour la pluie !JE alpha_s=0.01 ! coefficient d'impaction pour la neige R_r=0.001 ! mean raindrop radius (m) R_s=0.001 ! mean snow crystal radius (m) frac_fine_scav=0.7 frac_coar_scav=0.7 ! frac_aer=0.5 ~ droplet size shrinks by evap frac_aer=0.5 !JE to speed up, commented 20140219 ! OPEN(99,file='lsc_scav_param.data',status='old', & ! form='formatted',err=9999) ! READ(99,*,end=9998) alpha_r ! READ(99,*,end=9998) alpha_s ! READ(99,*,end=9998) R_r ! READ(99,*,end=9998) R_s ! READ(99,*,end=9998) frac_fine_scav ! READ(99,*,end=9998) frac_coar_scav ! READ(99,*,end=9998) frac_aer !9998 Continue ! CLOSE(99) !9999 Continue ! PRINT*,'JE alpha_r',alpha_r ! PRINT*,'JE alpha_s',alpha_s ! PRINT*,'JE R_r',R_r ! PRINT*,'JE R_s',R_s ! PRINT*,'frac_fine_scav',frac_fine_scav ! PRINT*,'frac_coar_scav',frac_coar_scav ! PRINT*,'frac_aer ev',frac_aer ! JE endcomment ENDIF !(debut) !!!!!!!!!!!!!!!!!!!!!!!!!!! ! initialization dxin=0. dxev=0. beta_ev=0. DO i=1,klon his_dh(i)=0. ENDDO DO k=1,klev DO i=1, klon dxbc(i,k)=0. beta_v1(i,k)=0. deltaP(i,k)=0. ENDDO ENDDO DO k=1,klev DO i=1, klon d_tr_insc(i,k,it)=0. d_tr_bcscav(i,k,it)=0. d_tr_evap(i,k,it)=0. ENDDO ENDDO ! pressure and size of the layer DO k=klev, 1, -1 DO i=1, klon zrho(i,k)=pplay(i,k)/t(i,k)/RD zdz(i,k)=(paprs(i,k)-paprs(i,k+1))/zrho(i,k)/RG zmass(i,k)=(paprs(i,k)-paprs(i,k+1))/RG ENDDO ENDDO !JE<< IF (it==id_prec) THEN ! gas frac_ev=frac_gas ELSE !aerosol frac_ev=frac_aer ENDIF IF (it==id_prec) THEN ! gas DO k=1, klev DO i=1, klon henry_t=henry(it)*exp(-kk(it)*(1./298.-1./t(i,k))) ! mol/l/atm f_a=henry_t/101.325*R*t(i,k)*oliq*zrho(i,k)/rho_water scav(i,k)=f_a/(1.+f_a) ENDDO ENDDO ELSE !aerosol DO k=1, klev DO i=1, klon scav(i,k)=frac_fine_scav ENDDO ENDDO ENDIF !JE>> DO k=klev-1, 1, -1 DO i=1, klon ! incloud scavenging ! if(inscav_fisrt) then if (iflag_lscav == 4) then beta=beta_fisrt(i,k)*rneb(i,k) else beta=flxr(i,k)-flxr(i,k+1)+flxs(i,k)-flxs(i,k+1) ! beta=beta/zdz(i,k)/oliq/zrho(i,k) beta=beta/zmass(i,k)/oliq beta=MAX(0.,beta) endif ! (iflag_lscav .eq. 4) beta_v1(i,k)=beta !! for output dxin=tr_seri(i,k,it)*(exp(-scav(i,k)*beta*pdtime)-1.) ! his_dh(i)=his_dh(i)-dxin*zrho(i,k)*zdz(i,k)/pdtime ! kg/m2/s his_dh(i)=his_dh(i)-dxin*zmass(i,k)/pdtime ! kg/m2/s d_tr_insc(i,k,it)=dxin ! below-cloud impaction IF(it==id_prec) then d_tr_bcscav(i,k,it)=0. ELSE pr=0.5*(flxr(i,k)+flxr(i,k+1)) ps=0.5*(flxs(i,k)+flxs(i,k+1)) water=pr*alpha_r(it)/R_r/rho_water ice=ps*alpha_s(it)/R_s/rho_ice dxbc(i,k)=-3./4.*tr_seri(i,k,it)*pdtime*(water+ice) ! add tracers from below cloud scav in his_dh his_dh(i)=his_dh(i)-dxbc(i,k)*zmass(i,k)/pdtime ! kg/m2/s d_tr_bcscav(i,k,it)=dxbc(i,k) ENDIF ! reevaporation deltaP(i,k)=flxr(i,k+1)+flxs(i,k+1)-flxr(i,k)-flxs(i,k) deltaP(i,k)=max(deltaP(i,k),0.) if(flxr(i,k+1)+flxs(i,k+1)>1.e-16) then beta_ev(i,k)=deltaP(i,k)/(flxr(i,k+1)+flxs(i,k+1)) else beta_ev(i,k)=0. endif beta_ev(i,k)=max(min(1.,beta_ev(i,k)),0.) !jyg if(abs(1-(1-frac_ev)*beta_ev(i,k))>1.e-16) then ! remove tracers from precipitation owing to release by evaporation in his_dh ! dxev=frac_ev*beta_ev(i,k)*his_dh(i) *pdtime/(zrho(i,k)*zdz(i,k)) & dxev=frac_ev*beta_ev(i,k)*his_dh(i) *pdtime/(zmass(i,k)) & /(1 -(1-frac_ev)*beta_ev(i,k)) his_dh(i)=his_dh(i)*(1 - frac_ev*beta_ev(i,k) / (1 -(1-frac_ev)*beta_ev(i,k))) else ! dxev=his_dh(i) *pdtime/(zrho(i,k)*zdz(i,k)) dxev=his_dh(i) *pdtime/(zmass(i,k)) his_dh(i)=0. endif ! PRINT*, k, 'beta_ev',beta_ev ! remove tracers from precipitation owing to release by evaporation in his_dh !! dxev=frac_ev*deltaP(i,k)*pdtime * his_dh(i) /(zrho(i,k)*zdz(i,k)) !rplmd !! dxev=frac_ev*deltaP(i,k)*his_dh(i) *pdtime/(zrho(i,k)*zdz(i,k)) & !! /max(flxr(i,k)+flxs(i,k),1.e-16) d_tr_evap(i,k,it)=dxev !! tendency is further added in phytrac x = x + dx ENDDO !! do i ENDDO !! do k !jyg (20130114) DO i = 1,klon qPrls(i,it) = his_dh(i)/max(flxr(i,1)+flxs(i,1),1.e-16) ENDDO !jyg end ! test de conservation conserv=0. ! DO k= klev,1,-1 ! DO i=1, klon ! conserv=conserv+d_tr_insc(i,k,it)*(paprs(i,k)-paprs(i,k+1))/RG & ! +d_tr_bcscav(i,k,it)*(paprs(i,k)-paprs(i,k+1))/RG & ! +d_tr_evap(i,k,it)*(paprs(i,k)-paprs(i,k+1))/RG ! if(it.eq.3) write(*,'(I2,2X,a,e20.12,2X,a,e20.12,2X,a,e20.12,2X,a,e20.12)'),& ! k,'lsc conserv ',conserv,'insc',d_tr_insc(i,k,it),'bc',d_tr_bcscav(i,k,it),'ev',d_tr_evap(i,k,it) ! ENDDO ! ENDDO END SUBROUTINE lsc_scav_spl