--- trunk/Sources/phylmd/Radlwsw/radlwsw.f 2017/03/28 15:36:53 216 +++ trunk/Sources/phylmd/Radlwsw/radlwsw.f 2017/03/30 14:25:18 217 @@ -7,10 +7,10 @@ SUBROUTINE radlwsw(dist, mu0, fract, paprs, play, tsol, albedo, t, q, wo, & cldfra, cldemi, cldtaupd, heat, heat0, cool, cool0, radsol, albpla, & topsw, toplw, solsw, sollw, sollwdown, topsw0, toplw0, solsw0, sollw0, & - lwdn0, lwdn, lwup0, lwup, swdn0, swdn, swup0, swup, ok_ade, ok_aie, & - tau_ae, piz_ae, cg_ae, topswad, solswad, cldtaupi, topswai, solswai) + lwdn0, lwdn, lwup0, lwup, swdn0, swdn, swup0, swup, ok_ade, topswad, & + solswad) - ! From LMDZ4/libf/phylmd/radlwsw.F, version 1.4 2005/06/06 13:16:33 + ! From LMDZ4/libf/phylmd/radlwsw.F, version 1.4, 2005/06/06 13:16:33 ! Author: Z. X. Li (LMD/CNRS) ! Date: 1996/07/19 @@ -19,21 +19,13 @@ ! ATTENTION: swai and swad have to be interpreted in the following manner: - ! not ok_ade and not ok_aie + ! not ok_ade ! both are zero - ! ok_ade and not ok_aie + ! ok_ade ! aerosol direct forcing is F_{AD} = topsw - topswad ! indirect is zero - ! not ok_ade and ok_aie - ! aerosol indirect forcing is F_{AI} = topsw - topswai - ! direct is zero - - ! ok_ade and ok_aie - ! aerosol indirect forcing is F_{AI} = topsw - topswai - ! aerosol direct forcing is F_{AD} = topswai - topswad - USE clesphys, ONLY: solaire USE dimphy, ONLY: klev, klon use lw_m, only: lw @@ -41,7 +33,7 @@ USE suphec_m, ONLY: rg use sw_m, only: sw USE yoethf_m, ONLY: rvtmp2 - + real, intent(in):: dist ! distance astronomique terre-soleil real, intent(in):: mu0(klon) ! cosinus de l'angle zenithal real, intent(in):: fract(klon) ! duree d'ensoleillement normalisee @@ -96,32 +88,13 @@ REAL, intent(out):: swup0(klon, klev+1), swup(klon, klev+1) logical, intent(in):: ok_ade ! apply the Aerosol Direct Effect - logical, intent(in):: ok_aie ! apply the Aerosol Indirect Effect - - ! aerosol optical properties (calculated in aeropt.F): - real, intent(in):: tau_ae(klon, klev, 2), piz_ae(klon, klev, 2) - real, intent(in):: cg_ae(klon, klev, 2) real, intent(out):: topswad(klon), solswad(klon) ! aerosol direct forcing at TOA and surface - ! ray. solaire net absorbe - - real, intent(in):: cldtaupi(klon, klev) - ! cloud visible optical thickness for pre-industrial aerosol concentrations - ! i.e. with smaller droplet concentration, thus larger droplets, - ! thus generally cdltaupi cldtaupd it is needed for the - ! diagnostics of the aerosol indirect radiative forcing - - real, intent(out):: topswai(klon), solswai(klon) - ! aerosol indirect forcing at TOA and surface - ! ray. solaire net absorbe + ! rayonnement solaire net absorb\'e ! Local: - double precision tauae(kdlon, klev, 2) ! aer opt properties - double precision pizae(kdlon, klev, 2) - double precision cgae(kdlon, klev, 2) - DOUBLE PRECISION ZFSUP(KDLON, KLEV+1) DOUBLE PRECISION ZFSDN(KDLON, KLEV+1) DOUBLE PRECISION ZFSUP0(KDLON, KLEV+1) @@ -179,16 +152,12 @@ !---------------------------------------------------------------------- - tauae = 0. - pizae = 0. - cgae = 0. - nb_gr = klon / kdlon IF (nb_gr * kdlon /= klon) THEN PRINT *, "kdlon mauvais :", klon, kdlon, nb_gr stop 1 ENDIF - + heat = 0. cool = 0. heat0 = 0. @@ -205,12 +174,12 @@ PALBP(i, 2) = albedo(iof+i) ! cf. JLD pour etre en accord avec ORCHIDEE il faut mettre ! PEMIS(i) = 0.96 - PEMIS(i) = 1.0 + PEMIS(i) = 1. PVIEW(i) = 1.66 PPSOL(i) = paprs(iof+i, 1) zx_alpha1 = (paprs(iof+i, 1)-play(iof+i, 2)) & / (play(iof+i, 1)-play(iof+i, 2)) - zx_alpha2 = 1.0 - zx_alpha1 + zx_alpha2 = 1. - zx_alpha1 PTL(i, 1) = t(iof+i, 1) * zx_alpha1 + t(iof+i, 2) * zx_alpha2 PTL(i, klev+1) = t(iof+i, klev) PDT0(i) = tsol(iof+i) - PTL(i, 1) @@ -224,18 +193,18 @@ DO i = 1, kdlon PDP(i, k) = paprs(iof+i, k)-paprs(iof+i, k+1) PTAVE(i, k) = t(iof+i, k) - PWV(i, k) = MAX (q(iof+i, k), 1.0e-12) + PWV(i, k) = MAX (q(iof+i, k), 1e-12) PQS(i, k) = PWV(i, k) POZON(i, k) = wo(iof+i, k) * RG * dobson_u * 1e3 & / (paprs(iof+i, k) - paprs(iof+i, k+1)) PCLDLD(i, k) = cldfra(iof+i, k)*cldemi(iof+i, k) PCLDLU(i, k) = cldfra(iof+i, k)*cldemi(iof+i, k) PCLDSW(i, k) = cldfra(iof+i, k) - PTAU(i, 1, k) = MAX(cldtaupi(iof+i, k), 1.0e-05) + PTAU(i, 1, k) = MAX(cldtaupd(iof+i, k), 1e-05) ! (1e-12 serait instable) - PTAU(i, 2, k) = MAX(cldtaupi(iof+i, k), 1.0e-05) + PTAU(i, 2, k) = MAX(cldtaupd(iof+i, k), 1e-05) ! (pour 32-bit machines) - POMEGA(i, 1, k) = 0.9999 - 5.0e-04 * EXP(-0.5 * PTAU(i, 1, k)) + POMEGA(i, 1, k) = 0.9999 - 5e-04 * EXP(-0.5 * PTAU(i, 1, k)) POMEGA(i, 2, k) = 0.9988 - 2.5e-03 * EXP(-0.05 * PTAU(i, 2, k)) PCG(i, 1, k) = 0.865 PCG(i, 2, k) = 0.910 @@ -245,11 +214,11 @@ ! calculated from present-day aerosol concentrations ! whereas the quantities without the "A" at the end are ! for pre-industial (natural-only) aerosol concentrations - PTAUA(i, 1, k) = MAX(cldtaupd(iof+i, k), 1.0e-05) + PTAUA(i, 1, k) = MAX(cldtaupd(iof+i, k), 1e-05) ! (1e-12 serait instable) - PTAUA(i, 2, k) = MAX(cldtaupd(iof+i, k), 1.0e-05) + PTAUA(i, 2, k) = MAX(cldtaupd(iof+i, k), 1e-05) ! (pour 32-bit machines) - POMEGAA(i, 1, k) = 0.9999 - 5.0e-04 * EXP(-0.5 * PTAUA(i, 1, k)) + POMEGAA(i, 1, k) = 0.9999 - 5e-04 * EXP(-0.5 * PTAUA(i, 1, k)) POMEGAA(i, 2, k) = 0.9988 - 2.5e-03 * EXP(-0.05 * PTAUA(i, 2, k)) !jq-end ENDDO @@ -257,37 +226,25 @@ DO k = 1, klev+1 DO i = 1, kdlon - PPMB(i, k) = paprs(iof+i, k)/100.0 + PPMB(i, k) = paprs(iof+i, k)/100. ENDDO ENDDO DO kk = 1, 5 DO k = 1, klev DO i = 1, kdlon - PAER(i, k, kk) = 1.0E-15 + PAER(i, k, kk) = 1E-15 ENDDO ENDDO ENDDO - DO k = 1, klev - DO i = 1, kdlon - tauae(i, k, 1) = tau_ae(iof+i, k, 1) - pizae(i, k, 1) = piz_ae(iof+i, k, 1) - cgae(i, k, 1) =cg_ae(iof+i, k, 1) - tauae(i, k, 2) = tau_ae(iof+i, k, 2) - pizae(i, k, 2) = piz_ae(iof+i, k, 2) - cgae(i, k, 2) =cg_ae(iof+i, k, 2) - ENDDO - ENDDO - CALL LW(PPMB, PDP, PDT0, PEMIS, PTL, PTAVE, PWV, POZON, PAER, PCLDLD, & PCLDLU, PVIEW, zcool, zcool0, ztoplw, zsollw, ztoplw0, zsollw0, & zsollwdown, ZFLUP, ZFLDN, ZFLUP0, ZFLDN0) CALL SW(PSCT, zrmu0, zfract, PPMB, PDP, PPSOL, PALBD, PALBP, PTAVE, & PWV, PQS, POZON, PCLDSW, PTAU, POMEGA, PCG, zheat, zheat0, & zalbpla, ztopsw, zsolsw, ztopsw0, zsolsw0, ZFSUP, ZFSDN, ZFSUP0, & - ZFSDN0, tauae, pizae, cgae, PTAUA, POMEGAA, ztopswad, zsolswad, & - ztopswai, zsolswai, ok_ade, ok_aie) + ZFSDN0, ztopswad, zsolswad, ztopswai, zsolswai, ok_ade) DO i = 1, kdlon radsol(iof+i) = zsolsw(i) + zsollw(i) @@ -325,19 +282,8 @@ ENDDO ELSE DO i = 1, kdlon - topswad(iof+i) = 0.0 - solswad(iof+i) = 0.0 - ENDDO - ENDIF - IF (ok_aie) THEN - DO i = 1, kdlon - topswai(iof+i) = ztopswai(i) - solswai(iof+i) = zsolswai(i) - ENDDO - ELSE - DO i = 1, kdlon - topswai(iof+i) = 0.0 - solswai(iof+i) = 0.0 + topswad(iof+i) = 0. + solswad(iof+i) = 0. ENDDO ENDIF