- Timestamp:
- Oct 14, 2014, 7:40:28 PM (10 years ago)
- Location:
- trunk/WRFV3
- Files:
-
- 8 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/WRFV3/lmdz/calcul_fluxs_mod.F90
r1 r183 96 96 INTEGER :: lpt 97 97 lpt = 550 98 99 IF (nisurf == 3) THEN100 PRINT *,' Lluis in calcul_fluxs________________________'101 PRINT *,' knon: ',knon,' nisurf:' , nisurf, ' dtime: ',dtime102 PRINT *,' tsurf: ',tsurf(lpt),' p1lay: ', p1lay(lpt),' cal: ',cal(lpt),' beta: ', beta(lpt)103 PRINT *,' coef1lay: ', coef1lay(lpt),' ps: ', ps(lpt)104 PRINT *,' p_rain: ',precip_rain(lpt),' p_snow: ', precip_snow(lpt),' snow: ', snow(lpt)105 PRINT *,' qsurf: ', qsurf(lpt)106 PRINT *,' radsol: ',radsol(lpt),' dif_grnd: ', dif_grnd(lpt),' t1lay: ', t1lay(lpt)107 PRINT *,' q1lay: ', q1lay(lpt),' u1lay: ', u1lay(lpt),' v1lay: ', v1lay(lpt)108 PRINT *,' ptAcoef: ', petAcoef(lpt),' peqAcoef: ', peqAcoef(lpt)109 PRINT *,' pteBcoef: ', petBcoef(lpt),' peqBcoef: ', peqBcoef(lpt)110 PRINT *,' tsurf_new: ', tsurf_new(lpt), ' evap: ',evap(lpt),' fluxlat: ',fluxlat(lpt)111 PRINT *,' fluxsens: ', fluxsens(lpt),' dflux_s: ', dflux_s(lpt),' dflux_l: ', dflux_l(lpt)112 END IF113 98 114 99 IF (check) WRITE(*,*)'Entree ', modname,' surface = ',nisurf -
trunk/WRFV3/lmdz/climb_hq_mod.F90
r1 r183 186 186 Bcoef_Q_out = Bcoef_Q 187 187 188 PRINT *,' Lluis in climb_hq_down 1 k dplay dpaprs Kcoefhq gamaq gamah '// &189 'delp q Ccoef_Q Dcoef_Q Acoef_Q Bcoef_Q local_H ________'190 191 DO k=2,klev192 PRINT *,k,pplay(1,k-1)-pplay(1,k),paprs(1,k-1)-paprs(1,k),Kcoefhq(1,k), &193 gamaq(1,k),gamah(1,k),delp(1,k),q(1,k),Ccoef_Q(1,k),Dcoef_Q(1,k), &194 Acoef_Q(1),Bcoef_Q(1), local_H(1,k)195 END DO196 197 188 END SUBROUTINE climb_hq_down 198 189 ! -
trunk/WRFV3/lmdz/coefkzmin.F90
r7 r183 114 114 pblhmin(ig)=0.07*ustar(ig)/max(abs(coriol(ig)),2.546e-5) 115 115 enddo 116 PRINT *,' Fin of coefkzmin k ustar zlev pblhmin qmin kap kn km _____'117 116 118 117 do k=2,klev … … 126 125 kn(ig,k)=kmin 127 126 km(ig,k)=kmin 128 IF (ig == 1) PRINT *,' ',k,ustar(ig),zlev(ig,k),pblhmin(ig),&129 qmin,kap,kn(ig,k),km(ig,k)130 127 enddo 131 128 enddo -
trunk/WRFV3/lmdz/fisrtilp.F90
r1 r183 139 139 REAL zzz 140 140 141 ! Lluis 142 INTEGER lp 143 144 141 145 include "YOETHF.h" 142 146 include "FCTTRE.h" … … 147 151 !ym 148 152 zdelq=0.0 153 154 ! Lluis 155 lp = 449 156 PRINT *,' Lluis beginning fisrtilp 15,15: 485 ___________________' 157 PRINT *,' dtime:',dtime,' rain: ',rain(lp), ' snow: ', snow(lp), & 158 ' iflag_cldcon: ', iflag_cldcon 159 PRINT *,' k paprs paprs prfl psfl ____' 160 DO i=1, klev+1 161 PRINT *,' ',i,paprs(lp,i), prfl(lp,i), psfl(lp,i) 162 END DO 163 PRINT *,' k pplay t q ptconv ratqs d_t d_q d_ql rneb radliq ' 164 DO i=1, klev 165 PRINT *,i, pplay(lp,i), t(lp,i), q(lp,i), ptconv(lp,i), ratqs(lp,i), & 166 d_t(lp,i), d_q(lp,i), d_ql(lp,i), rneb(lp,i), radliq(lp,i) 167 END DO 168 PRINT *,' k pfrac_impa pfrac_nucl pfrac_1nucl frac_impa ____' 169 DO i=1, klev 170 PRINT *, i, pfrac_impa(lp,i), pfrac_nucl(lp,i), pfrac_1nucl(lp,i), & 171 frac_impa(lp,i) 172 END DO 173 PRINT *, 'k frac_nucl beta rhcl zqta fraca ztv zpspsk ztla zthl ____' 174 DO i=1, klev 175 PRINT *, i, frac_nucl(lp,i), beta(lp,i), rhcl(lp,i), zqta(lp,i), & 176 fraca(lp,i), ztv(lp,i), zpspsk(lp,i), ztla(lp,i), zthl(lp,i) 177 END DO 149 178 150 179 if (prt_level>9)write(lunout,*)'NUAGES4 A. JAM' … … 240 269 !IM : klevm1 241 270 !ym klevm1=klev-1 271 ! Lluis 272 ! PRINT *,' RCPD: ', RCPD,' RVTMP2: ', RVTMP2 273 ! PRINT *,' Lluis lp: ',lp,' k zt zq zmair zcpair zcpeau d_t zrfl rhcl ____' 274 PRINT *,' Lluis lp: ',lp,' k zt zq zmair zcpair zcpeau d_t zrfl rhcl ____' 242 275 DO k = klev, 1, -1 243 276 ! … … 266 299 ! C WRITE (6,*) 'cppluie ', zt(i)-(t(i,k+1)+d_t(i,k+1)) 267 300 ENDDO 301 ! PRINT *,k, zt(lp), zq(lp), zmair, zcpair, zcpeau, d_t(lp,k+1), & 302 ! zrfl(lp) 268 303 ENDIF 269 304 ! … … 630 665 endif 631 666 667 PRINT *,' Lluis end fisrtilp 15,15: 485 ___________________' 668 PRINT *,' dtime:',dtime,' rain: ',rain(lp), ' snow: ', snow(lp), & 669 ' iflag_cldcon: ', iflag_cldcon 670 PRINT *,' k paprs paprs prfl psfl ____' 671 DO i=1, klev+1 672 PRINT *,' ',i,paprs(lp,i), prfl(lp,i), psfl(lp,i) 673 END DO 674 PRINT *,' k pplay t q ptconv ratqs d_t d_q d_ql rneb radliq ' 675 DO i=1, klev 676 PRINT *,i, pplay(lp,i), t(lp,i), q(lp,i), ptconv(lp,i), ratqs(lp,i), & 677 d_t(lp,i), d_q(lp,i), d_ql(lp,i), rneb(lp,i), radliq(lp,i) 678 END DO 679 PRINT *,' k pfrac_impa pfrac_nucl pfrac_1nucl frac_impa ____' 680 DO i=1, klev 681 PRINT *, i, pfrac_impa(lp,i), pfrac_nucl(lp,i), pfrac_1nucl(lp,i), & 682 frac_impa(lp,i) 683 END DO 684 PRINT *, 'k frac_nucl beta rhcl zqta fraca ztv zpspsk ztla zthl ____' 685 DO i=1, klev 686 PRINT *, i, frac_nucl(lp,i), beta(lp,i), rhcl(lp,i), zqta(lp,i), & 687 fraca(lp,i), ztv(lp,i), zpspsk(lp,i), ztla(lp,i), zthl(lp,i) 688 END DO 689 632 690 END SUBROUTINE fisrtilp -
trunk/WRFV3/lmdz/ocean_forced_mod.F90
r1 r183 100 100 END DO 101 101 102 PRINT *,' Lluis pt tsurf_limit_check tsurf_lim_____'103 DO i=-10,10104 PRINT *,lp+i,tsurf_limit(lp+i),tsurf_lim(lpt+i)105 END DO106 107 PRINT *,'Lluis in ocean_surface_mod lp= ',lp,' tsurf_limit: ',tsurf_limit(lp), &108 ' lpt: ',lpt,' tsurf_lim: ',tsurf_lim(lpt),' knindex: ',knindex(lpt)109 110 102 !**************************************************************************************** 111 103 ! 2) … … 125 117 v1_lay(:) = v1(:) - v0(:) 126 118 127 PRINT *,' Lluis before calcul_fluxs tsurf_lim:', tsurf_lim(lpt), &128 ' tsurf_new: ', tsurf_new(lpt)129 119 ! Calcul de tsurf_new, evap, fluxlat, fluxsens, dflux_s, dflux_l and qsurf 130 120 CALL calcul_fluxs(knon, is_oce, dtime, & … … 134 124 AcoefH, AcoefQ, BcoefH, BcoefQ, & 135 125 tsurf_new, evap, fluxlat, fluxsens, dflux_s, dflux_l) 136 PRINT *,' Lluis after calcul_fluxs tsurf_lim: ', tsurf_lim(lp),' tsurf_new: ', &137 tsurf_new(lpt)138 PRINT *,' Lluis i knindex tsurf_limit tsurf_lim tsurf_new ___________'139 DO i=1,knon140 PRINT *,i,knindex(i),tsurf_limit(knindex(i)),tsurf_lim(i),tsurf_new(i)141 END DO142 126 143 127 ! - Flux calculation at first modele level for U and V -
trunk/WRFV3/lmdz/pbl_surface_mod.F90
r1 r183 501 501 !**************************************************************************************** 502 502 503 PRINT *,' Lluis in pbl_surface: ts ',lp,ts(lp,:)504 505 503 IF (first_call) THEN 506 504 first_call=.FALSE. … … 606 604 ENDDO 607 605 ENDDO 608 PRINT *,' Lluis after rugos: ts ',lp,ts(lp,:), ' rugos: ', rugos(lp,:), &609 ' alb1: ',alb1(550,:)610 606 ! Mean calculations of albedo 611 607 ! … … 628 624 ENDDO 629 625 ENDDO 630 PRINT *,' Lluis after rugos: ts ',lp,ts(lp,:), ' rugos: ', rugos(lp,:), &631 ' alb1: ',alb1(550,:)632 626 ! We here suppose the fraction f1 of incoming radiance of visible radiance 633 627 ! as a fraction of all shortwave radiance … … 652 646 ENDDO 653 647 ENDDO 654 PRINT *,' Lluis ztsol ',lp,' : ',ztsol(lp)655 648 656 649 ! Linear distrubution on sub-surface of long- and shortwave net radiance … … 661 654 ENDDO 662 655 ENDDO 663 PRINT *,' Lluis ',lp,' sollw: ',sollw(lp,:),' solsw: ',solsw(lp,:)664 665 656 666 657 ! Downwelling longwave radiation at mean surface … … 669 660 lwdown_m(i) = sollw_m(i) + RSIGMA*ztsol(i)**4 670 661 ENDDO 671 PRINT *,' Lluis ',lp,' lwdown_m: ',lwdown_m(lp)672 673 662 !**************************************************************************************** 674 663 ! 4) Loop over different surfaces … … 683 672 ni(:) = 0 684 673 knon = 0 685 ! Lluis 686 lpt = 1 674 687 675 DO i = 1, klon 688 676 IF (pctsrf(i,nsrf) > 0.) THEN 689 677 knon = knon + 1 690 678 ni(knon) = i 691 ! Lluis692 IF (i == lp) lpt = knon693 679 ENDIF 694 680 ENDDO … … 711 697 !**************************************************************************************** 712 698 713 PRINT *,' Lluis nsrf j i rugos yts_________'714 699 DO j = 1, knon 715 700 i = ni(j) … … 728 713 ysollw(j) = sollw(i,nsrf) 729 714 yrugos(j) = rugos(i,nsrf) 730 PRINT *,nsrf,j,i,rugos(i,nsrf),yts(i)731 715 yrugoro(j) = rugoro(i) 732 716 yu1(j) = u(i,1) … … 735 719 ywindsp(j) = SQRT(u10m(i,nsrf)**2 + v10m(i,nsrf)**2 ) 736 720 END DO 737 PRINT *,' Lluis ', lpt,' yts: ',yts(lpt)738 721 739 722 DO k = 1, klev … … 757 740 END DO 758 741 END DO 759 PRINT *,' Lluis ', lpt,' ytsoil: ',ytsoil(lpt,:),' ftsoil: ',ftsoil(ni(lpt),:,nsrf)760 742 761 743 ! qsol(water height in soil) only for bucket continental model … … 766 748 END DO 767 749 ENDIF 768 PRINT *,' Lluis ',lpt,' yqsol: ',yqsol(lpt)769 750 770 751 !**************************************************************************************** … … 773 754 !**************************************************************************************** 774 755 775 PRINT *,' Lluis before clcdrag: yrugos 1:', yrugos(1),' lpt: ',yrugos(lpt), &776 ' yts: ',yts(lpt), ' yalb: ',yalb(lpt)777 756 CALL clcdrag( knon, nsrf, ypaprs, ypplay, & 778 757 yu(:,1), yv(:,1), yt(:,1), yq(:,1), & … … 788 767 ypaprs, ypplay, yu, yv, yq, yt, yts, yrugos, yqsurf, ycdragm, & 789 768 ycoefm, ycoefh, ytke) 790 PRINT *,' Lluis after coef_diff_turb lpt: ',lpt,' k ycoefm ycoefh ytke ____'791 DO k=1,klev792 PRINT *,k,ycoefm(lpt,k),ycoefh(lpt,k),ytke(lpt,k)793 END DO794 769 IF (iflag_pbl>=20.AND.iflag_pbl<30) THEN 795 770 ! In this case, coef_diff_turb is called for the Cd only … … 813 788 !**************************************************************************************** 814 789 815 PRINT *,' Lluis before climb_hq_down knon: ',lpt,' dtime: ',dtime, &816 ' AcoefH: ',AcoefH(lpt),' AcoefQ: ',AcoefQ(lpt),' BcoefH: ',BcoefH(lpt),&817 ' BcoefQ: ',BcoefQ(lpt)818 PRINT *,' Lluis before k ycoefh ypaprs ypplay ydelp yt yq ____'819 DO k=1,klev820 PRINT *,k,ycoefh(lpt,k),ypaprs(lpt,k),ypplay(lpt,k),ydelp(lpt,k), &821 yt(lpt,k),yq(lpt,k)822 END DO823 790 ! - Calculate the coefficients Ccoef_H, Ccoef_Q, Dcoef_H and Dcoef_Q 824 791 CALL climb_hq_down(knon, ycoefh, ypaprs, ypplay, & … … 830 797 AcoefU, AcoefV, BcoefU, BcoefV) 831 798 832 PRINT *,' Lluis after climb_hq_down knon: ',lpt,' ycoefh: ',ycoefh(lpt,1),&833 ' ypaprs: ',ypaprs(lpt,1),' ypplay: ',ypplay(lpt,1),' ydelp: ', &834 ydelp(lpt,1),' yt: ',yt(lpt,1),' yq: ',yq(lpt,1),' dtime: ',dtime, &835 ' AcoefH: ',AcoefH(lpt),' AcoefQ: ',AcoefQ(lpt),' BcoefH: ',BcoefH(lpt),&836 ' BcoefQ: ',BcoefQ(lpt)837 838 799 !**************************************************************************************** 839 800 ! 9) Small calculations … … 890 851 ylwdown(i)=lwdown_m(ni(i)) 891 852 END DO 892 PRINT *,' Lluis before surf_land lpt=',lpt,' yts', yts(lpt),' yq: ',yq(lpt,1)893 853 CALL surf_land(itap, dtime, date0, jour, knon, ni,& 894 854 rlon, rlat, & … … 918 878 919 879 CASE(is_oce) 920 PRINT *,' Lluis before surf_ocean lpt= ',lpt,' yts: ', yts(lpt), &921 ' pctsrf: ',pctsrf(lpt,:),' ytsurf_new: ',ytsurf_new(lpt)922 880 CALL surf_ocean(rlon, rlat, ysolsw, ysollw, yalb1, & 923 881 yrugos, ywindsp, rmu0, yfder, yts, & … … 931 889 ytsurf_new, y_dflux_t, y_dflux_q, slab_wfbils, & 932 890 y_flux_u1, y_flux_v1) 933 PRINT *,' Lluis after surf_ocean lpt= ',lpt,' yts: ', yts(lpt), &934 ' pctsrf: ',pctsrf(lpt,:),' ytsurf_new: ',ytsurf_new(lpt), 'ypct: ', &935 ypct(lpt)936 ! PRINT *,' i yts . pctsrf : ytsurf_new_________'937 ! DO i=1,knon938 ! PRINT *,' ',i,yts(i), ' . ', pctsrf(i,:),' : ',ytsurf_new(i)939 ! END DO940 891 941 892 CASE(is_sic) … … 967 918 y_d_ts(1:knon) = ytsurf_new(1:knon) - yts(1:knon) 968 919 969 PRINT *,' Lluis nsrf: ',nsrf,' lpt: ',lpt,' ytsurf_new: ',ytsurf_new(lpt), &970 ' yts: ',yts(lpt),' y_d_ts: ',y_d_ts(lpt)971 972 920 !**************************************************************************************** 973 921 ! … … 1114 1062 1115 1063 ! print*,'Dans pbl OK4' 1116 PRINT *,' Lluis before diagnostics: lp= ',lp,' ts ',lp,ts(lp,:)1117 1064 1118 1065 !**************************************************************************************** … … 1237 1184 END DO loop_nbsrf 1238 1185 1239 PRINT *,' Lluis after loop soil types: lp= ',lp,' ts ',lp,ts(lp,:)1240 1241 1186 !**************************************************************************************** 1242 1187 ! 16) Calculate the mean value over all sub-surfaces for som variables … … 1279 1224 ! print*,'OK pbl 9' 1280 1225 1281 PRINT *,' Lluis adding tendencies: lp= ',lp,' nsrf ts d_ts_______'1282 1226 DO nsrf = 1, nbsrf 1283 1227 DO i = 1, klon … … 1351 1295 !!$ ENDDO 1352 1296 !!$ ENDDO 1353 1354 PRINT *,' Lluis last ts: ',ts(lp,:)1355 1297 1356 1298 DO i = 1, klon -
trunk/WRFV3/lmdz/physiq.F90
r178 r183 1301 1301 ! L. Fita, LMD. Point for checkings... 1302 1302 INTEGER :: llp 1303 llp = 6441303 llp = 449 1304 1304 1305 1305 !c====================================================================== … … 2092 2092 !c Re-evaporer l'eau liquide nuageuse 2093 2093 !c 2094 PRINT *,' Lluis: lp: ',llp,' RLVTT: ', RLVTT,' RCPD: ', RCPD, & 2095 ' RVTMP2: ',RVTMP2, 'RTT: ', RTT 2096 PRINT *,' Lluis k qx_1 qx_2 ql_seri _____' 2097 DO k=1,klev 2098 PRINT *,k, qx(llp,k,:),ql_seri(llp,k) 2099 END DO 2100 PRINT *,' Lluis re-evaporation: k q_seri zlvdcp '// & 2101 ' zlsdc zdelta t_seri za zb ql_seri_____' 2094 2102 DO k = 1, klev ! re-evaporation de l'eau liquide nuageuse 2095 2103 DO i = 1, klon … … 2107 2115 d_q_eva(i,k) = zb 2108 2116 ENDDO 2117 PRINT *,k, q_Seri(llp,k), zlvdcp, zlsdcp, zdelta, t_seri(llp,k), & 2118 za, zb, ql_seri(llp,k) 2109 2119 ENDDO 2110 2120 !IM … … 2986 2996 END IF 2987 2997 PRINT *,' Lluis 6 d_h_vcol: ',d_h_vcol,' d_h_vcol_phy: ',d_h_vcol_phy 2998 PRINT *,' Lluis before lp: ',llp,' iflag_ratqs: ', iflag_ratqs, & 2999 ' iflag_con: ', iflag_con,' iflag_cldcon: ',iflag_cldcon, & 3000 ' ratqsbas: ', ratqsbas,' ratqshaut: ',ratqshaut, & 3001 ' tau_ratqs: ', tau_ratqs 3002 PRINT *,' ratqs ratqsc _______________' 3003 DO k=1,klev 3004 PRINT *, k, ratqs(llp,k), ratqsc(llp,k) 3005 END DO 2988 3006 2989 3007 !c------------------------------------------------------------------------- … … 2997 3015 & ratqs,ratqsc) 2998 3016 3017 PRINT *,' Lluis after lp: ',llp,' iflag_ratqs: ', iflag_ratqs, & 3018 ' iflag_con: ', iflag_con,' iflag_cldcon: ',iflag_cldcon, & 3019 ' ratqsbas: ', ratqsbas,' ratqshaut: ',ratqshaut, & 3020 ' tau_ratqs: ',tau_ratqs 3021 PRINT *,' ratqs ratqsc _______________' 3022 DO k=1,klev 3023 PRINT *, k, ratqs(llp,k), ratqsc(llp,k) 3024 END DO 2999 3025 3000 3026 !c … … 3005 3031 print *,' ->fisrtilp ' 3006 3032 ENDIF 3033 PRINT *,' Lluis before fisrtilp k t_seri q_seri ql_seri ___' 3034 DO k=1,klev 3035 PRINT *,k, t_seri(llp,k), q_seri(llp,k), ql_seri(llp,k) 3036 END DO 3007 3037 !c------------------------------------------------------------------------- 3008 3038 CALL fisrtilp(dtime,paprs,pplay, & … … 3014 3044 & prfl, psfl, rhcl, & 3015 3045 & zqasc, fraca,ztv,zpspsk,ztla,zthl,iflag_cldcon ) 3046 PRINT *,' Lluis after fisrtilp k t_seri q_seri ql_seri ___' 3047 DO k=1,klev 3048 PRINT *,k, t_seri(llp,k), q_seri(llp,k), ql_seri(llp,k) 3049 END DO 3016 3050 3017 3051 WHERE (rain_lsc < 0) rain_lsc = 0. -
trunk/WRFV3/phys/module_lmdz_phys.F
r179 r183 1094 1094 1095 1095 ! Lluis Testing water species 1096 MixingRatioValues(:,:,2)=0. 1096 ! MixingRatioValues(:,:,2)=MixingRatioValues(:,:,1)*0.2 1097 1097 1098 1098 IF (wrf_dbg >= 200) THEN … … 1107 1107 ! lmdzp=ddimx*(jlmdz-1)+ilmdz 1108 1108 1109 PRINT *,' WRF+LMDZ lmdzp: ',lmdzp,' : ',ilmdz,jlmdz1109 PRINT *,' WRF+LMDZ before LMDZ physiq lmdzp: ',lmdzp,' : ',ilmdz,jlmdz 1110 1110 PRINT *,'k wrf_T wrf_Temp TValues_______________' 1111 1111 DO iz=1,dimz … … 1179 1179 !! MixingRatiotendValues(:,:,1)=1000.*MixingRatiotendValues(:,:,1) 1180 1180 !! MixingRatiotendValues(:,:,1)=MixingRatiotendValues(:,:,1)+MixingRatiotendValues(:,:,2) 1181 MixingRatiotendValues(:,:,2)=0.1181 ! MixingRatiotendValues(:,:,2)=0. 1182 1182 1183 1183 !! PRINT *,' Lluis: outgoing from physiq' … … 1258 1258 1259 1259 IF (wrf_dbg >= 200) THEN 1260 PRINT *,' WRF+LMDZ lmdzp: ',lmdzp1260 PRINT *,' WRF+LMDZ after LMDZ physiq lmdzp: ',lmdzp 1261 1261 PRINT *,'k T tendencies _______________' 1262 1262 DO iz=1,dimz
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