diff --git a/physics/module_mp_thompson.F90 b/physics/module_mp_thompson.F90 index 0c708cb3d..4d823d2f4 100644 --- a/physics/module_mp_thompson.F90 +++ b/physics/module_mp_thompson.F90 @@ -708,9 +708,9 @@ SUBROUTINE thompson_init(is_aerosol_aware_in, & dtc(n) = (Dc(n) - Dc(n-1)) enddo -!> - Create bins of cloud ice (from min diameter up to 5x min snow size) +!> - Create bins of cloud ice (from min diameter up to 2x min snow size) xDx(1) = D0i*1.0d0 - xDx(nbi+1) = 5.0d0*D0s + xDx(nbi+1) = 2.0d0*D0s do n = 2, nbi xDx(n) = DEXP(DFLOAT(n-1)/DFLOAT(nbi) & *DLOG(xDx(nbi+1)/xDx(1)) +DLOG(xDx(1))) @@ -2822,7 +2822,7 @@ subroutine mp_thompson (qv1d, qc1d, qi1d, qr1d, qs1d, qg1d, ni1d, & prr_rcg(k) = MIN(DBLE(rg(k)*odts), prr_rcg(k)) prg_rcg(k) = -prr_rcg(k) !> - Put in explicit drop break-up due to collisions. - pnr_rcg(k) = -5.*tnr_gacr(idx_g1,idx_g,idx_r1,idx_r) ! RAIN2M + pnr_rcg(k) = -1.5*tnr_gacr(idx_g1,idx_g,idx_r1,idx_r) ! RAIN2M endif endif endif @@ -3053,16 +3053,15 @@ subroutine mp_thompson (qv1d, qc1d, qi1d, qr1d, qs1d, qg1d, ni1d, & if (prr_sml(k) .gt. 0.) then prr_sml(k) = prr_sml(k) + 4218.*olfus*tempc & * (prr_rcs(k)+prs_scw(k)) - endif - prr_sml(k) = MIN(DBLE(rs(k)*odts), MAX(0.D0, prr_sml(k))) - pnr_sml(k) = smo0(k)/rs(k)*prr_sml(k) * 10.0**(-0.25*tempc) ! RAIN2M - pnr_sml(k) = MIN(DBLE(smo0(k)*odts), pnr_sml(k)) - - if (ssati(k).lt. 0.) then - prs_sde(k) = C_cube*t1_subl*diffu(k)*ssati(k)*rvs & - * (t1_qs_sd*smo1(k) & - + t2_qs_sd*rhof2(k)*vsc2(k)*smof(k)) - prs_sde(k) = MAX(DBLE(-rs(k)*odts), prs_sde(k)) + prr_sml(k) = MIN(DBLE(rs(k)*odts), prr_sml(k)) + pnr_sml(k) = smo0(k)/rs(k)*prr_sml(k) * 10.0**(-0.25*tempc) ! RAIN2M + pnr_sml(k) = MIN(DBLE(smo0(k)*odts), pnr_sml(k)) + elseif (ssati(k).lt. 0.) then + prr_sml(k) = 0.0 + prs_sde(k) = C_cube*t1_subl*diffu(k)*ssati(k)*rvs & + * (t1_qs_sd*smo1(k) & + + t2_qs_sd*rhof2(k)*vsc2(k)*smof(k)) + prs_sde(k) = MAX(DBLE(-rs(k)*odts), prs_sde(k)) endif endif @@ -3070,17 +3069,16 @@ subroutine mp_thompson (qv1d, qc1d, qi1d, qr1d, qs1d, qg1d, ni1d, & prr_gml(k) = (tempc*tcond(k)-lvap0*diffu(k)*delQvs(k)) & * N0_g(k)*(t1_qg_me*ilamg(k)**cge(10) & + t2_qg_me*rhof2(k)*vsc2(k)*ilamg(k)**cge(11)) -!-GT prr_gml(k) = prr_gml(k) + 4218.*olfus*tempc & -!-GT * (prr_rcg(k)+prg_gcw(k)) - prr_gml(k) = MIN(DBLE(rg(k)*odts), MAX(0.D0, prr_gml(k))) - pnr_gml(k) = N0_g(k)*cgg(2)*ilamg(k)**cge(2) / rg(k) & ! RAIN2M - * prr_gml(k) * 10.0**(-0.5*tempc) - - if (ssati(k).lt. 0.) then - prg_gde(k) = C_cube*t1_subl*diffu(k)*ssati(k)*rvs & - * N0_g(k) * (t1_qg_sd*ilamg(k)**cge(10) & - + t2_qg_sd*vsc2(k)*rhof2(k)*ilamg(k)**cge(11)) - prg_gde(k) = MAX(DBLE(-rg(k)*odts), prg_gde(k)) + if (prr_gml(k) .gt. 0.) then + prr_gml(k) = MIN(DBLE(rg(k)*odts), prr_gml(k)) + pnr_gml(k) = N0_g(k)*cgg(2)*ilamg(k)**cge(2) / rg(k) & ! RAIN2M + * prr_gml(k) * 10.0**(-0.5*tempc) + elseif (ssati(k).lt. 0.) then + prr_gml(k) = 0.0 + prg_gde(k) = C_cube*t1_subl*diffu(k)*ssati(k)*rvs & + * N0_g(k) * (t1_qg_sd*ilamg(k)**cge(10) & + + t2_qg_sd*vsc2(k)*rhof2(k)*ilamg(k)**cge(11)) + prg_gde(k) = MAX(DBLE(-rg(k)*odts), prg_gde(k)) endif endif