diff --git a/physics/CONV/SAMF/samfdeepcnv.f b/physics/CONV/SAMF/samfdeepcnv.f index 7c2d9acf8..3ad067657 100644 --- a/physics/CONV/SAMF/samfdeepcnv.f +++ b/physics/CONV/SAMF/samfdeepcnv.f @@ -215,7 +215,8 @@ subroutine samfdeepcnv_run (im,km,first_time_step,restart, & ! ! parameters for prognostic sigma closure real(kind=kind_phys) omega_u(im,km),zdqca(im,km),tmfq(im,km), - & omegac(im),zeta(im,km),dbyo1(im,km),sigmab(im),qadv(im,km) + & omegac(im),zeta(im,km),dbyo1(im,km),sigmab(im),qadv(im,km), + & sigmaoutx(im) real(kind=kind_phys) gravinv,invdelt,sigmind,sigminm,sigmins parameter(sigmind=0.01,sigmins=0.03,sigminm=0.01) logical flag_shallow, flag_mid @@ -3423,17 +3424,28 @@ subroutine samfdeepcnv_run (im,km,first_time_step,restart, & endif enddo c -c convective cloud water +! + if(progsigma)then + do i = 1, im + sigmaoutx(i)=max(sigmaout(i,1),0.0) + sigmaoutx(i)=min(sigmaoutx(i),1.0) + enddo + endif c !> - Calculate convective cloud water. do k = 1, km - do i = 1, im - if (cnvflg(i) .and. rn(i) > 0.) then - if (k >= kbcon(i) .and. k < ktcon(i)) then - cnvw(i,k) = cnvwt(i,k) * xmb(i) * dt2 + do i = 1, im + if (cnvflg(i) .and. rn(i) > 0.) then + if (k >= kbcon(i) .and. k < ktcon(i)) then + cnvw(i,k) = cnvwt(i,k) * xmb(i) * dt2 + if(progsigma)then + cnvw(i,k) = cnvw(i,k) * sigmaoutx(i) + else + cnvw(i,k) = cnvw(i,k) * sigmagfm(i) + endif + endif endif - endif - enddo + enddo enddo c c convective cloud cover diff --git a/physics/CONV/SAMF/samfshalcnv.f b/physics/CONV/SAMF/samfshalcnv.f index 184f302cd..b013046f5 100644 --- a/physics/CONV/SAMF/samfshalcnv.f +++ b/physics/CONV/SAMF/samfshalcnv.f @@ -163,7 +163,7 @@ subroutine samfshalcnv_run(im,km,itc,ntc,cliq,cp,cvap, & ! parameters for prognostic sigma closure real(kind=kind_phys) omega_u(im,km),zdqca(im,km),tmfq(im,km), & omegac(im),zeta(im,km),dbyo1(im,km), - & sigmab(im),qadv(im,km) + & sigmab(im),qadv(im,km),sigmaoutx(im) real(kind=kind_phys) gravinv,dxcrtas,invdelt,sigmind,sigmins, & sigminm logical flag_shallow,flag_mid @@ -2398,20 +2398,29 @@ subroutine samfshalcnv_run(im,km,itc,ntc,cliq,cp,cvap, & endif enddo c -c convective cloud water -c -!> - Calculate shallow convective cloud water. + if(progsigma)then + do i = 1, im + sigmaoutx(i)=max(sigmaout(i,1),0.0) + sigmaoutx(i)=min(sigmaoutx(i),1.0) + enddo + endif + +c convective cloud water do k = 1, km - do i = 1, im - if (cnvflg(i)) then - if (k >= kbcon(i) .and. k < ktcon(i)) then - cnvw(i,k) = cnvwt(i,k) * xmb(i) * dt2 + do i = 1, im + if (cnvflg(i)) then + if (k >= kbcon(i) .and. k < ktcon(i)) then + cnvw(i,k) = cnvwt(i,k) * xmb(i) * dt2 + if (progsigma) then + cnvw(i,k) = cnvw(i,k) * sigmaoutx(i) + else + cnvw(i,k) = cnvw(i,k) * sigmagfm(i) + endif + endif endif - endif - enddo + enddo enddo - -c +c c convective cloud cover c !> - Calculate convective cloud cover, which is used when pdf-based cloud fraction is used (i.e., pdfcld=.true.). diff --git a/physics/PBL/SATMEDMF/satmedmfvdifq.F b/physics/PBL/SATMEDMF/satmedmfvdifq.F index e8dbb0f91..76588ab52 100644 --- a/physics/PBL/SATMEDMF/satmedmfvdifq.F +++ b/physics/PBL/SATMEDMF/satmedmfvdifq.F @@ -275,7 +275,7 @@ subroutine satmedmfvdifq_run(im,km,ntrac,ntcw,ntrw, & parameter(elmfac=1.0,elefac=1.0,cql=100.) parameter(dw2min=1.e-4,dkmax=1000.,xkgdx=1000.) parameter(qlcr=3.5e-5,zstblmax=2500.) - parameter(xkinv1=0.4,xkinv2=0.3) + parameter(xkinv1=0.15,xkinv2=0.3) parameter(h1=0.33333333,hcrinv=250.) parameter(vegflo=0.1,vegfup=1.0,z0lo=0.1,z0up=1.0) parameter(vc0=1.0,zc0=1.0)