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guez |
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module phytrac_m |
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IMPLICIT none |
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private |
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public phytrac |
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contains |
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SUBROUTINE phytrac(itap, lmt_pas, julien, gmtime, firstcal, lafin, pdtphys, & |
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t_seri, paprs, pplay, pmfu, pmfd, pde_u, pen_d, coefh, fm_therm, & |
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entr_therm, yu1, yv1, ftsol, pctsrf, frac_impa, frac_nucl, da, phi, & |
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mp, upwd, dnwd, tr_seri, zmasse, ncid_startphy, nid_ins, itau_phy) |
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! From phylmd/phytrac.F, version 1.15 2006/02/21 08:08:30 (SVN revision 679) |
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! Authors: Fr\'ed\'eric Hourdin, Abderrahmane Idelkadi, Marie-Alice |
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! Foujols, Olivia |
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|
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! Objet : moniteur g\'en\'eral des tendances des traceurs |
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|
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! L'appel de "phytrac" se fait avec "nqmx - 2" donc nous avons |
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! bien les vrais traceurs, sans la vapeur d'eau ni l'eau liquide. |
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|
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! Modifications pour les traceurs : |
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! - uniformisation des parametrisations dans phytrac |
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! - stockage des moyennes des champs n\'ecessaires en mode traceur off-line |
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|
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use abort_gcm_m, only: abort_gcm |
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use clesphys, only: ecrit_tra |
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use clesphys2, only: iflag_con |
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use cltrac_m, only: cltrac |
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use cltracrn_m, only: cltracrn |
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use ctherm, only: iflag_thermals |
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use cvltr_m, only: cvltr |
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use dimens_m, only: llm, nqmx |
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use dimphy, only: klon |
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use indicesol, only: nbsrf |
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use initrrnpb_m, only: initrrnpb |
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use minmaxqfi_m, only: minmaxqfi |
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use netcdf, only: NF90_FILL_float |
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use netcdf95, only: nf95_inq_varid, nf95_get_var, nf95_put_var |
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use nflxtr_m, only: nflxtr |
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use nr_util, only: assert |
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use o3_chem_m, only: o3_chem |
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use phyetat0_m, only: rlat |
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use phyredem0_m, only: ncid_restartphy |
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use press_coefoz_m, only: press_coefoz |
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use radiornpb_m, only: radiornpb |
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use regr_pr_comb_coefoz_m, only: regr_pr_comb_coefoz |
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use SUPHEC_M, only: rg |
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integer, intent(in):: itap ! number of calls to "physiq" |
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integer, intent(in):: lmt_pas ! number of time steps of "physics" per day |
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integer, intent(in):: julien !jour julien, 1 <= julien <= 360 |
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real, intent(in):: gmtime ! heure de la journ\'ee en fraction de jour |
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logical, intent(in):: firstcal ! first call to "calfis" |
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logical, intent(in):: lafin ! fin de la physique |
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real, intent(in):: pdtphys ! pas d'integration pour la physique (s) |
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real, intent(in):: t_seri(klon, llm) ! temperature, in K |
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real, intent(in):: paprs(klon, llm+1) |
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! (pression pour chaque inter-couche, en Pa) |
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real, intent(in):: pplay(klon, llm) |
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! (pression pour le mileu de chaque couche, en Pa) |
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! convection: |
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REAL, intent(in):: pmfu(klon, llm) ! flux de masse dans le panache montant |
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REAL, intent(in):: pmfd(klon, llm) |
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! flux de masse dans le panache descendant |
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REAL pde_u(klon, llm) ! flux detraine dans le panache montant |
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REAL pen_d(klon, llm) ! flux entraine dans le panache descendant |
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REAL coefh(klon, llm) ! coeff melange couche limite |
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! thermiques: |
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real fm_therm(klon, llm+1), entr_therm(klon, llm) |
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! Couche limite: |
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REAL yu1(klon) ! vents au premier niveau |
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REAL yv1(klon) ! vents au premier niveau |
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! Arguments n\'ecessaires pour les sources et puits de traceur : |
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real, intent(in):: ftsol(klon, nbsrf) ! Temperature du sol (surf)(Kelvin) |
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real pctsrf(klon, nbsrf) ! Pourcentage de sol f(nature du sol) |
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|
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! Lessivage pour le on-line |
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REAL frac_impa(klon, llm) ! fraction d'aerosols impactes |
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REAL frac_nucl(klon, llm) ! fraction d'aerosols nuclees |
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! Kerry Emanuel |
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real, intent(in):: da(klon, llm), phi(klon, llm, llm), mp(klon, llm) |
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REAL, intent(in):: upwd(klon, llm) ! saturated updraft mass flux |
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REAL, intent(in):: dnwd(klon, llm) ! saturated downdraft mass flux |
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real, intent(inout):: tr_seri(:, :, :) ! (klon, llm, nqmx - 2) |
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! (mass fractions of tracers, excluding water, at mid-layers) |
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real, intent(in):: zmasse(:, :) ! (klon, llm) |
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! (column-density of mass of air in a cell, in kg m-2) |
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integer, intent(in):: ncid_startphy, nid_ins, itau_phy |
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! Local: |
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integer nsplit |
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! TRACEURS |
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! Sources et puits des traceurs: |
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! Pour l'instant seuls les cas du rn et du pb ont ete envisages. |
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REAL source(klon) ! a voir lorsque le flux est prescrit |
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! |
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! Pour la source de radon et son reservoir de sol |
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REAL, save:: trs(klon, nqmx - 2) ! Concentration de traceur dans le sol |
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REAL masktr(klon, nqmx - 2) ! Masque reservoir de sol traceur |
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! Masque de l'echange avec la surface |
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! (1 = reservoir) ou (possible => 1) |
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SAVE masktr |
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REAL fshtr(klon, nqmx - 2) ! Flux surfacique dans le reservoir de sol |
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SAVE fshtr |
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REAL hsoltr(nqmx - 2) ! Epaisseur equivalente du reservoir de sol |
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SAVE hsoltr |
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REAL tautr(nqmx - 2) ! Constante de decroissance radioactive |
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SAVE tautr |
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REAL vdeptr(nqmx - 2) ! Vitesse de depot sec dans la couche Brownienne |
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SAVE vdeptr |
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REAL scavtr(nqmx - 2) ! Coefficient de lessivage |
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SAVE scavtr |
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CHARACTER itn |
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! nature du traceur |
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logical aerosol(nqmx - 2) ! Nature du traceur |
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! ! aerosol(it) = true => aerosol |
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! ! aerosol(it) = false => gaz |
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logical clsol(nqmx - 2) ! couche limite sol calcul\'ee |
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logical radio(nqmx - 2) ! d\'ecroisssance radioactive |
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save aerosol, clsol, radio |
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! convection tiedtke |
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INTEGER i, k, it |
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REAL delp(klon, llm) |
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! Variables liees a l'ecriture de la bande histoire physique |
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! Variables locales pour effectuer les appels en serie |
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REAL d_tr(klon, llm), d_trs(klon) ! tendances de traceurs |
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REAL d_tr_cl(klon, llm, nqmx - 2) ! tendance de traceurs couche limite |
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REAL d_tr_cv(klon, llm, nqmx - 2) |
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! tendance de traceurs conv pour chq traceur |
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guez |
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REAL d_tr_th(klon, llm, nqmx - 2) ! la tendance des thermiques |
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REAL d_tr_dec(klon, llm, 2) ! la tendance de la decroissance |
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! ! radioactive du rn - > pb |
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REAL d_tr_lessi_impa(klon, llm, nqmx - 2) ! la tendance du lessivage |
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! ! par impaction |
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REAL d_tr_lessi_nucl(klon, llm, nqmx - 2) ! la tendance du lessivage |
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! ! par nucleation |
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REAL flestottr(klon, llm, nqmx - 2) ! flux de lessivage |
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! ! dans chaque couche |
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real ztra_th(klon, llm) |
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integer isplit, varid |
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! Controls: |
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logical:: couchelimite = .true. |
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logical:: convection = .true. |
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logical:: lessivage = .true. |
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logical, save:: inirnpb |
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!-------------------------------------- |
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call assert(shape(zmasse) == (/klon, llm/), "phytrac zmasse") |
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call assert(shape(tr_seri) == (/klon, llm, nqmx - 2/), "phytrac tr_seri") |
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if (firstcal) then |
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print *, 'phytrac: pdtphys = ', pdtphys |
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PRINT *, 'Frequency of tracer output: ecrit_tra = ', ecrit_tra |
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inirnpb = .true. |
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! Initialisation de certaines variables pour le radon et le plomb |
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! Initialisation du traceur dans le sol (couche limite radonique) |
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trs(:, 2:) = 0. |
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call nf95_inq_varid(ncid_startphy, "trs", varid) |
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call nf95_get_var(ncid_startphy, varid, trs(:, 1)) |
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if (any(trs(:, 1) == NF90_FILL_float)) call abort_gcm("phytrac", & |
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"some missing values in trs(:, 1)") |
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guez |
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! Initialisation de la fraction d'aerosols lessivee |
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d_tr_lessi_impa = 0. |
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d_tr_lessi_nucl = 0. |
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! Initialisation de la nature des traceurs |
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guez |
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DO it = 1, nqmx - 2 |
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aerosol(it) = .FALSE. ! Tous les traceurs sont des gaz par defaut |
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radio(it) = .FALSE. ! par d\'efaut pas de passage par "radiornpb" |
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clsol(it) = .FALSE. ! Par defaut couche limite avec flux prescrit |
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ENDDO |
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guez |
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guez |
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if (nqmx >= 5) then |
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call press_coefoz ! read input pressure levels for ozone coefficients |
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end if |
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ENDIF |
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if (inirnpb) THEN |
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! Initialisation du traceur dans le sol (couche limite radonique) |
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radio(1)= .true. |
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radio(2)= .true. |
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clsol(1)= .true. |
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clsol(2)= .true. |
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aerosol(2) = .TRUE. ! le Pb est un aerosol |
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call initrrnpb(pctsrf, masktr, fshtr, hsoltr, tautr, vdeptr, scavtr) |
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inirnpb=.false. |
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endif |
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if (convection) then |
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guez |
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! Calcul de l'effet de la convection |
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guez |
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DO it=1, nqmx - 2 |
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guez |
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if (iflag_con == 2) then |
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! Tiedke |
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guez |
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CALL nflxtr(pdtphys, pmfu, pmfd, pde_u, pen_d, paprs, & |
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tr_seri(:, :, it), d_tr_cv(:, :, it)) |
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guez |
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else if (iflag_con == 3) then |
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! Emanuel |
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guez |
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call cvltr(pdtphys, da, phi, mp, paprs, tr_seri(:, :, it), upwd, & |
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dnwd, d_tr_cv(:, :, it)) |
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endif |
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DO k = 1, llm |
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DO i = 1, klon |
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tr_seri(i, k, it) = tr_seri(i, k, it) + d_tr_cv(i, k, it) |
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ENDDO |
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ENDDO |
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WRITE(unit=itn, fmt='(i1)') it |
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guez |
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CALL minmaxqfi(tr_seri(:, :, it), 0., 1e33, & |
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'convection, tracer index = ' // itn) |
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ENDDO |
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endif |
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! Calcul de l'effet des thermiques |
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guez |
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do it=1, nqmx - 2 |
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guez |
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do k=1, llm |
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do i=1, klon |
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d_tr_th(i, k, it)=0. |
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tr_seri(i, k, it)=max(tr_seri(i, k, it), 0.) |
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guez |
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tr_seri(i, k, it)=min(tr_seri(i, k, it), 1e10) |
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guez |
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enddo |
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enddo |
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enddo |
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if (iflag_thermals > 0) then |
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nsplit=10 |
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guez |
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DO it=1, nqmx - 2 |
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guez |
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do isplit=1, nsplit |
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! Thermiques |
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call dqthermcell(klon, llm, pdtphys/nsplit & |
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, fm_therm, entr_therm, zmasse & |
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, tr_seri(1:klon, 1:llm, it), d_tr, ztra_th) |
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do k=1, llm |
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do i=1, klon |
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d_tr(i, k)=pdtphys*d_tr(i, k)/nsplit |
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d_tr_th(i, k, it)=d_tr_th(i, k, it)+d_tr(i, k) |
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tr_seri(i, k, it)=max(tr_seri(i, k, it)+d_tr(i, k), 0.) |
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enddo |
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enddo |
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enddo |
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ENDDO |
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endif |
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guez |
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! Calcul de l'effet de la couche limite |
287 |
guez |
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if (couchelimite) then |
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DO k = 1, llm |
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DO i = 1, klon |
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delp(i, k) = paprs(i, k)-paprs(i, k+1) |
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ENDDO |
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ENDDO |
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guez |
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! MAF modif pour tenir compte du cas traceur |
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DO it=1, nqmx - 2 |
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guez |
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if (clsol(it)) then |
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! couche limite avec quantite dans le sol calculee |
299 |
guez |
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CALL cltracrn(it, pdtphys, yu1, yv1, coefh, t_seri, ftsol, & |
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pctsrf, tr_seri(:, :, it), trs(:, it), paprs, pplay, delp, & |
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masktr(1, it), fshtr(1, it), hsoltr(it), tautr(it), & |
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vdeptr(it), rlat, d_tr_cl(1, 1, it), d_trs) |
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guez |
3 |
DO k = 1, llm |
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DO i = 1, klon |
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tr_seri(i, k, it) = tr_seri(i, k, it) + d_tr_cl(i, k, it) |
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ENDDO |
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ENDDO |
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guez |
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trs(:, it) = trs(:, it) + d_trs |
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else |
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! couche limite avec flux prescrit |
312 |
guez |
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!MAF provisoire source / traceur a creer |
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DO i=1, klon |
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guez |
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source(i) = 0. ! pas de source, pour l'instant |
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guez |
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ENDDO |
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|
|
|
317 |
guez |
120 |
CALL cltrac(pdtphys, coefh, t_seri, tr_seri(:, :, it), source, & |
318 |
|
|
paprs, pplay, delp, d_tr_cl(1, 1, it)) |
319 |
guez |
3 |
DO k = 1, llm |
320 |
|
|
DO i = 1, klon |
321 |
|
|
tr_seri(i, k, it) = tr_seri(i, k, it) + d_tr_cl(i, k, it) |
322 |
|
|
ENDDO |
323 |
|
|
ENDDO |
324 |
|
|
endif |
325 |
|
|
ENDDO |
326 |
guez |
98 |
endif |
327 |
guez |
3 |
|
328 |
guez |
78 |
! Calcul de l'effet du puits radioactif |
329 |
guez |
3 |
|
330 |
|
|
! MAF il faudrait faire une modification pour passer dans radiornpb |
331 |
guez |
98 |
! si radio=true |
332 |
|
|
d_tr_dec = radiornpb(tr_seri, pdtphys, tautr) |
333 |
|
|
DO it = 1, nqmx - 2 |
334 |
|
|
if (radio(it)) then |
335 |
|
|
tr_seri(:, :, it) = tr_seri(:, :, it) + d_tr_dec(:, :, it) |
336 |
|
|
WRITE(unit=itn, fmt='(i1)') it |
337 |
|
|
CALL minmaxqfi(tr_seri(:, :, it), 0., 1e33, 'puits rn it='//itn) |
338 |
|
|
endif |
339 |
|
|
ENDDO |
340 |
guez |
3 |
|
341 |
guez |
98 |
if (nqmx >= 5) then |
342 |
guez |
6 |
! Ozone as a tracer: |
343 |
guez |
7 |
if (mod(itap - 1, lmt_pas) == 0) then |
344 |
|
|
! Once per day, update the coefficients for ozone chemistry: |
345 |
guez |
162 |
call regr_pr_comb_coefoz(julien, paprs, pplay) |
346 |
guez |
7 |
end if |
347 |
guez |
6 |
call o3_chem(julien, gmtime, t_seri, zmasse, pdtphys, tr_seri(:, :, 3)) |
348 |
|
|
end if |
349 |
guez |
3 |
|
350 |
|
|
! Calcul de l'effet de la precipitation |
351 |
|
|
|
352 |
|
|
IF (lessivage) THEN |
353 |
guez |
98 |
d_tr_lessi_nucl = 0. |
354 |
|
|
d_tr_lessi_impa = 0. |
355 |
|
|
flestottr = 0. |
356 |
guez |
3 |
|
357 |
|
|
! tendance des aerosols nuclees et impactes |
358 |
|
|
|
359 |
guez |
98 |
DO it = 1, nqmx - 2 |
360 |
guez |
3 |
IF (aerosol(it)) THEN |
361 |
|
|
DO k = 1, llm |
362 |
|
|
DO i = 1, klon |
363 |
|
|
d_tr_lessi_nucl(i, k, it) = d_tr_lessi_nucl(i, k, it) + & |
364 |
guez |
78 |
(1 - frac_nucl(i, k))*tr_seri(i, k, it) |
365 |
guez |
3 |
d_tr_lessi_impa(i, k, it) = d_tr_lessi_impa(i, k, it) + & |
366 |
guez |
78 |
(1 - frac_impa(i, k))*tr_seri(i, k, it) |
367 |
guez |
3 |
ENDDO |
368 |
|
|
ENDDO |
369 |
|
|
ENDIF |
370 |
|
|
ENDDO |
371 |
|
|
|
372 |
|
|
! Mises a jour des traceurs + calcul des flux de lessivage |
373 |
|
|
! Mise a jour due a l'impaction et a la nucleation |
374 |
|
|
|
375 |
guez |
98 |
DO it = 1, nqmx - 2 |
376 |
guez |
3 |
IF (aerosol(it)) THEN |
377 |
|
|
DO k = 1, llm |
378 |
|
|
DO i = 1, klon |
379 |
guez |
78 |
tr_seri(i, k, it) = tr_seri(i, k, it) * frac_impa(i, k) & |
380 |
|
|
* frac_nucl(i, k) |
381 |
guez |
3 |
ENDDO |
382 |
|
|
ENDDO |
383 |
|
|
ENDIF |
384 |
|
|
ENDDO |
385 |
|
|
|
386 |
|
|
! Flux lessivage total |
387 |
|
|
|
388 |
guez |
98 |
DO it = 1, nqmx - 2 |
389 |
guez |
3 |
DO k = 1, llm |
390 |
|
|
DO i = 1, klon |
391 |
guez |
78 |
flestottr(i, k, it) = flestottr(i, k, it) & |
392 |
|
|
- (d_tr_lessi_nucl(i, k, it) + d_tr_lessi_impa(i, k, it)) & |
393 |
|
|
* (paprs(i, k)-paprs(i, k+1)) / (RG * pdtphys) |
394 |
guez |
3 |
ENDDO |
395 |
|
|
ENDDO |
396 |
|
|
ENDDO |
397 |
|
|
ENDIF |
398 |
|
|
|
399 |
guez |
78 |
! Ecriture des sorties |
400 |
guez |
159 |
call write_histrac(lessivage, itap, nid_ins) |
401 |
guez |
3 |
|
402 |
|
|
if (lafin) then |
403 |
guez |
157 |
call nf95_inq_varid(ncid_restartphy, "trs", varid) |
404 |
|
|
call nf95_put_var(ncid_restartphy, varid, trs(:, 1)) |
405 |
guez |
3 |
endif |
406 |
|
|
|
407 |
|
|
contains |
408 |
|
|
|
409 |
guez |
159 |
subroutine write_histrac(lessivage, itap, nid_ins) |
410 |
guez |
3 |
|
411 |
|
|
! From phylmd/write_histrac.h, version 1.9 2006/02/21 08:08:30 |
412 |
|
|
|
413 |
|
|
use dimens_m, only: iim, jjm, llm |
414 |
guez |
61 |
use histsync_m, only: histsync |
415 |
guez |
30 |
use histwrite_m, only: histwrite |
416 |
guez |
131 |
use iniadvtrac_m, only: tname |
417 |
guez |
3 |
use dimphy, only: klon |
418 |
guez |
32 |
use grid_change, only: gr_phy_write_2d |
419 |
|
|
use gr_phy_write_3d_m, only: gr_phy_write_3d |
420 |
guez |
3 |
|
421 |
|
|
logical, intent(in):: lessivage |
422 |
guez |
78 |
integer, intent(in):: itap ! number of calls to "physiq" |
423 |
guez |
159 |
integer, intent(in):: nid_ins |
424 |
guez |
3 |
|
425 |
|
|
! Variables local to the procedure: |
426 |
|
|
integer it |
427 |
guez |
78 |
integer itau_w ! pas de temps ecriture |
428 |
guez |
3 |
|
429 |
|
|
!----------------------------------------------------- |
430 |
|
|
|
431 |
guez |
7 |
itau_w = itau_phy + itap |
432 |
guez |
3 |
|
433 |
guez |
159 |
CALL histwrite(nid_ins, "zmasse", itau_w, gr_phy_write_3d(zmasse)) |
434 |
guez |
3 |
|
435 |
guez |
98 |
DO it=1, nqmx - 2 |
436 |
guez |
159 |
CALL histwrite(nid_ins, tname(it+2), itau_w, & |
437 |
guez |
20 |
gr_phy_write_3d(tr_seri(:, :, it))) |
438 |
guez |
3 |
if (lessivage) THEN |
439 |
guez |
159 |
CALL histwrite(nid_ins, "fl"//tname(it+2), itau_w, & |
440 |
guez |
20 |
gr_phy_write_3d(flestottr(:, :, it))) |
441 |
guez |
3 |
endif |
442 |
guez |
159 |
CALL histwrite(nid_ins, "d_tr_th_"//tname(it+2), itau_w, & |
443 |
guez |
20 |
gr_phy_write_3d(d_tr_th(:, :, it))) |
444 |
guez |
159 |
CALL histwrite(nid_ins, "d_tr_cv_"//tname(it+2), itau_w, & |
445 |
guez |
20 |
gr_phy_write_3d(d_tr_cv(:, :, it))) |
446 |
guez |
159 |
CALL histwrite(nid_ins, "d_tr_cl_"//tname(it+2), itau_w, & |
447 |
guez |
20 |
gr_phy_write_3d(d_tr_cl(:, :, it))) |
448 |
guez |
3 |
ENDDO |
449 |
|
|
|
450 |
|
|
end subroutine write_histrac |
451 |
|
|
|
452 |
|
|
END SUBROUTINE phytrac |
453 |
|
|
|
454 |
|
|
end module phytrac_m |