[2690] | 1 | SUBROUTINE micphy_tstep(pdtphys,tr_seri,t_seri,pplay,paprs,rh,is_strato) |
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| 2 | |
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| 3 | USE dimphy, ONLY : klon,klev |
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| 4 | USE aerophys |
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| 5 | USE infotrac |
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[3411] | 6 | USE phys_local_var_mod, ONLY: mdw, budg_3D_nucl, budg_3D_cond_evap, R2SO4, DENSO4, f_r_wet |
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[2690] | 7 | USE nucleation_tstep_mod |
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| 8 | USE cond_evap_tstep_mod |
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| 9 | USE sulfate_aer_mod, ONLY : STRAACT |
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[2695] | 10 | USE YOMCST, ONLY : RPI, RD, RG |
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[2690] | 11 | |
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| 12 | IMPLICIT NONE |
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| 13 | |
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| 14 | !-------------------------------------------------------- |
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| 15 | |
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| 16 | ! transfer variables when calling this routine |
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| 17 | REAL,INTENT(IN) :: pdtphys ! Pas d'integration pour la physique (seconde) |
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| 18 | REAL,DIMENSION(klon,klev,nbtr),INTENT(INOUT) :: tr_seri ! Concentration Traceur [U/KgA] |
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| 19 | REAL,DIMENSION(klon,klev),INTENT(IN) :: t_seri ! Temperature |
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| 20 | REAL,DIMENSION(klon,klev),INTENT(IN) :: pplay ! pression pour le mileu de chaque couche (en Pa) |
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| 21 | REAL,DIMENSION(klon,klev+1),INTENT(IN) :: paprs ! pression pour chaque inter-couche (en Pa) |
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| 22 | REAL,DIMENSION(klon,klev),INTENT(IN) :: rh ! humidite relative |
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| 23 | LOGICAL,DIMENSION(klon,klev),INTENT(IN) :: is_strato |
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| 24 | |
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| 25 | ! local variables in coagulation routine |
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| 26 | INTEGER, PARAMETER :: nbtstep=4 ! Max number of time steps in microphysics per time step in physics |
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[3411] | 27 | INTEGER :: it,ilon,ilev,IK,count_tstep |
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[2690] | 28 | REAL :: rhoa !H2SO4 number density [molecules/cm3] |
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| 29 | REAL :: ntot !total number of molecules in the critical cluster (ntot>4) |
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| 30 | REAL :: x ! molefraction of H2SO4 in the critical cluster |
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| 31 | REAL Vbin(nbtr_bin) |
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| 32 | REAL a_xm, b_xm, c_xm |
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| 33 | REAL PDT, dt |
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| 34 | REAL H2SO4_init |
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| 35 | REAL ACTSO4(klon,klev) |
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| 36 | REAL RRSI(nbtr_bin) |
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| 37 | REAL nucl_rate |
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| 38 | REAL cond_evap_rate |
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| 39 | REAL evap_rate |
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| 40 | REAL FL(nbtr_bin) |
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| 41 | REAL ASO4(nbtr_bin) |
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| 42 | REAL DNDR(nbtr_bin) |
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| 43 | REAL H2SO4_sat(nbtr_bin) |
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| 44 | |
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[3411] | 45 | DO IK=1,nbtr_bin |
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| 46 | Vbin(IK)=4.0*RPI*((mdw(IK)/2.)**3)/3.0 |
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[2690] | 47 | ENDDO |
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| 48 | |
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| 49 | !coefficients for H2SO4 density parametrization used for nucleation if ntot<4 |
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| 50 | a_xm = 0.7681724 + 1.*(2.1847140 + 1.*(7.1630022 + 1.*(-44.31447 + & |
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| 51 | & 1.*(88.75606 + 1.*(-75.73729 + 1.*23.43228))))) |
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| 52 | b_xm = 1.808225e-3 + 1.*(-9.294656e-3 + 1.*(-0.03742148 + 1.*(0.2565321 + & |
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| 53 | & 1.*(-0.5362872 + 1.*(0.4857736 - 1.*0.1629592))))) |
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| 54 | c_xm = -3.478524e-6 + 1.*(1.335867e-5 + 1.*(5.195706e-5 + 1.*(-3.717636e-4 + & |
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| 55 | & 1.*(7.990811e-4 + 1.*(-7.458060e-4 + 1.*2.58139e-4 ))))) |
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| 56 | |
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| 57 | ! STRAACT (R2SO4, t_seri -> H2SO4 activity coefficient (ACTSO4)) for cond/evap |
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| 58 | CALL STRAACT(ACTSO4) |
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| 59 | |
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| 60 | ! compute particle radius in cm RRSI from diameter in m |
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| 61 | DO it=1,nbtr_bin |
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| 62 | RRSI(it)=mdw(it)/2.*100. |
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| 63 | ENDDO |
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| 64 | |
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| 65 | DO ilon=1, klon |
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| 66 | DO ilev=1, klev |
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| 67 | ! only in the stratosphere |
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| 68 | IF (is_strato(ilon,ilev)) THEN |
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| 69 | ! initialize sulfur fluxes |
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[3411] | 70 | budg_3D_nucl(ilon,ilev)=0.0 |
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| 71 | budg_3D_cond_evap(ilon,ilev)=0.0 |
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[2690] | 72 | H2SO4_init=tr_seri(ilon,ilev,id_H2SO4_strat) |
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| 73 | ! adaptive timestep for nucleation and condensation |
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| 74 | PDT=pdtphys |
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| 75 | count_tstep=0 |
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[2695] | 76 | DO WHILE (PDT>0.0) |
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[2690] | 77 | count_tstep=count_tstep+1 |
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[2695] | 78 | IF (count_tstep .GT. nbtstep) EXIT |
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[2690] | 79 | ! convert tr_seri(GASH2SO4) (in kg/kgA) to H2SO4 number density (in molecules/cm3) |
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| 80 | rhoa=tr_seri(ilon,ilev,id_H2SO4_strat) & |
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| 81 | & *pplay(ilon,ilev)/t_seri(ilon,ilev)/RD/1.E6/mH2SO4mol |
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| 82 | ! compute nucleation rate in kg(H2SO4)/kgA/s |
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| 83 | CALL nucleation_rate(rhoa,t_seri(ilon,ilev),pplay(ilon,ilev),rh(ilon,ilev), & |
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| 84 | & a_xm,b_xm,c_xm,nucl_rate,ntot,x) |
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| 85 | ! compute cond/evap rate in kg(H2SO4)/kgA/s |
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| 86 | CALL condens_evapor_rate(rhoa,t_seri(ilon,ilev),pplay(ilon,ilev), & |
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| 87 | & ACTSO4(ilon,ilev),R2SO4(ilon,ilev),DENSO4(ilon,ilev),f_r_wet(ilon,ilev), & |
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| 88 | & RRSI,Vbin,FL,ASO4,DNDR) |
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| 89 | ! consider only condensation (positive FL) |
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[3411] | 90 | DO IK=1,nbtr_bin |
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| 91 | FL(IK)=MAX(FL(IK),0.) |
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[2690] | 92 | ENDDO |
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| 93 | ! compute total H2SO4 cond flux for all particles |
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| 94 | cond_evap_rate=0.0 |
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[3411] | 95 | DO IK=1, nbtr_bin |
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| 96 | cond_evap_rate=cond_evap_rate+tr_seri(ilon,ilev,IK+nbtr_sulgas)*FL(IK)*mH2SO4mol |
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[2690] | 97 | ENDDO |
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| 98 | ! determine appropriate time step |
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| 99 | dt=(H2SO4_init-H2SO4_sat(nbtr_bin))/float(nbtstep)/MAX(1.e-30, nucl_rate+cond_evap_rate) !cond_evap_rate pos. for cond. and neg. for evap. |
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| 100 | IF (dt.LT.0.0) THEN |
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| 101 | dt=PDT |
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| 102 | ENDIF |
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| 103 | dt=MIN(dt,PDT) |
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| 104 | ! update H2SO4 concentration |
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| 105 | tr_seri(ilon,ilev,id_H2SO4_strat)=MAX(0.,tr_seri(ilon,ilev,id_H2SO4_strat)-(nucl_rate+cond_evap_rate)*dt) |
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| 106 | ! apply cond to bins |
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| 107 | CALL cond_evap_part(dt,FL,ASO4,f_r_wet(ilon,ilev),RRSI,Vbin,tr_seri(ilon,ilev,:)) |
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| 108 | ! apply nucl. to bins |
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| 109 | CALL nucleation_part(nucl_rate,ntot,x,dt,Vbin,tr_seri(ilon,ilev,:)) |
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| 110 | ! compute fluxes as diagnostic in [kg(S)/m2/layer/s] (now - for evap and + for cond) |
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[2752] | 111 | budg_3D_cond_evap(ilon,ilev)=budg_3D_cond_evap(ilon,ilev)+mSatom/mH2SO4mol & |
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[2690] | 112 | & *cond_evap_rate*(paprs(ilon,ilev)-paprs(ilon,ilev+1))/RG*dt/pdtphys |
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[2752] | 113 | budg_3D_nucl(ilon,ilev)=budg_3D_nucl(ilon,ilev)+mSatom/mH2SO4mol & |
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[2690] | 114 | & *nucl_rate*(paprs(ilon,ilev)-paprs(ilon,ilev+1))/RG*dt/pdtphys |
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| 115 | ! update time step |
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| 116 | PDT=PDT-dt |
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| 117 | ENDDO |
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| 118 | ! convert tr_seri(GASH2SO4) (in kg/kgA) to H2SO4 number density (in molecules/cm3) |
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| 119 | rhoa=tr_seri(ilon,ilev,id_H2SO4_strat) & |
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| 120 | & *pplay(ilon,ilev)/t_seri(ilon,ilev)/RD/1.E6/mH2SO4mol |
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| 121 | ! compute cond/evap rate in kg(H2SO4)/kgA/s (now only evap for pdtphys) |
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| 122 | CALL condens_evapor_rate(rhoa,t_seri(ilon,ilev),pplay(ilon,ilev), & |
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| 123 | & ACTSO4(ilon,ilev),R2SO4(ilon,ilev),DENSO4(ilon,ilev),f_r_wet(ilon,ilev), & |
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| 124 | & RRSI,Vbin,FL,ASO4,DNDR) |
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| 125 | ! limit evaporation (negative FL) over one physics time step to H2SO4 content of the droplet |
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[3411] | 126 | DO IK=1,nbtr_bin |
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| 127 | FL(IK)=MAX(FL(IK)*pdtphys,0.-ASO4(IK))/pdtphys |
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[2690] | 128 | ! consider only evap (negative FL) |
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[3411] | 129 | FL(IK)=MIN(FL(IK),0.) |
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[2690] | 130 | ENDDO |
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| 131 | ! compute total H2SO4 evap flux for all particles |
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| 132 | evap_rate=0.0 |
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[3411] | 133 | DO IK=1, nbtr_bin |
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| 134 | evap_rate=evap_rate+tr_seri(ilon,ilev,IK+nbtr_sulgas)*FL(IK)*mH2SO4mol |
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[2690] | 135 | ENDDO |
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| 136 | ! update H2SO4 concentration after evap |
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| 137 | tr_seri(ilon,ilev,id_H2SO4_strat)=MAX(0.,tr_seri(ilon,ilev,id_H2SO4_strat)-evap_rate*pdtphys) |
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| 138 | ! apply evap to bins |
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| 139 | CALL cond_evap_part(pdtphys,FL,ASO4,f_r_wet(ilon,ilev),RRSI,Vbin,tr_seri(ilon,ilev,:)) |
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| 140 | ! compute fluxes as diagnostic in [kg(S)/m2/layer/s] (now - for evap and + for cond) |
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[2752] | 141 | budg_3D_cond_evap(ilon,ilev)=budg_3D_cond_evap(ilon,ilev)+mSatom/mH2SO4mol & |
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[2690] | 142 | & *evap_rate*(paprs(ilon,ilev)-paprs(ilon,ilev+1))/RG |
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| 143 | ENDIF |
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| 144 | ENDDO |
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| 145 | ENDDO |
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| 146 | |
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[2695] | 147 | IF (MINVAL(tr_seri).LT.0.0) THEN |
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[2690] | 148 | DO ilon=1, klon |
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| 149 | DO ilev=1, klev |
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[3411] | 150 | DO IK=1, nbtr |
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| 151 | IF (tr_seri(ilon,ilev,IK).LT.0.0) THEN |
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| 152 | PRINT *, 'micphy_tstep: negative concentration', tr_seri(ilon,ilev,IK), ilon, ilev, IK |
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[2690] | 153 | ENDIF |
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| 154 | ENDDO |
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| 155 | ENDDO |
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| 156 | ENDDO |
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| 157 | ENDIF |
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| 158 | |
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| 159 | END SUBROUTINE micphy_tstep |
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