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guez |
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SUBROUTINE flxdtdq(ktopm2, paph, ldcum, pten & |
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, pmfus, pmfds, pmfuq, pmfdq, pmful, pdmfup, pdmfdp & |
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, pdpmel, dt_con, dq_con) |
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use dimens_m |
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use dimphy |
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use SUPHEC_M |
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use yoethf_m |
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use yoecumf |
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IMPLICIT none |
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!---------------------------------------------------------------------- |
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! calculer les tendances T et Q |
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!---------------------------------------------------------------------- |
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! ----------------------------------------------------------------- |
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LOGICAL llo1 |
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! |
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REAL pten(klon,klev), paph(klon,klev+1) |
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REAL pmfus(klon,klev), pmfuq(klon,klev), pmful(klon,klev) |
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REAL pmfds(klon,klev), pmfdq(klon,klev) |
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REAL pdmfup(klon,klev) |
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REAL pdmfdp(klon,klev) |
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REAL pdpmel(klon,klev) |
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LOGICAL ldcum(klon) |
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REAL dt_con(klon,klev), dq_con(klon,klev) |
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! |
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INTEGER ktopm2 |
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! |
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INTEGER i, k |
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REAL zalv, zdtdt, zdqdt |
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! |
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DO 210 k=ktopm2,klev-1 |
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DO 220 i = 1, klon |
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IF (ldcum(i)) THEN |
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llo1 = (pten(i,k)-RTT).GT.0. |
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zalv = RLSTT |
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IF (llo1) zalv = RLVTT |
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zdtdt=RG/(paph(i,k+1)-paph(i,k))/RCPD & |
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*(pmfus(i,k+1)-pmfus(i,k) & |
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+pmfds(i,k+1)-pmfds(i,k) & |
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-RLMLT*pdpmel(i,k) & |
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-zalv*(pmful(i,k+1)-pmful(i,k)-pdmfup(i,k)-pdmfdp(i,k)) & |
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) |
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dt_con(i,k)=zdtdt |
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zdqdt=RG/(paph(i,k+1)-paph(i,k)) & |
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*(pmfuq(i,k+1)-pmfuq(i,k) & |
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+pmfdq(i,k+1)-pmfdq(i,k) & |
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+pmful(i,k+1)-pmful(i,k)-pdmfup(i,k)-pdmfdp(i,k)) |
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dq_con(i,k)=zdqdt |
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ENDIF |
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220 CONTINUE |
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210 CONTINUE |
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! |
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k = klev |
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DO 230 i = 1, klon |
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IF (ldcum(i)) THEN |
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llo1 = (pten(i,k)-RTT).GT.0. |
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zalv = RLSTT |
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IF (llo1) zalv = RLVTT |
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zdtdt=-RG/(paph(i,k+1)-paph(i,k))/RCPD & |
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*(pmfus(i,k)+pmfds(i,k)+RLMLT*pdpmel(i,k) & |
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-zalv*(pmful(i,k)+pdmfup(i,k)+pdmfdp(i,k))) |
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dt_con(i,k)=zdtdt |
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zdqdt=-RG/(paph(i,k+1)-paph(i,k)) & |
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*(pmfuq(i,k)+pmfdq(i,k)+pmful(i,k) & |
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+pdmfup(i,k)+pdmfdp(i,k)) |
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dq_con(i,k)=zdqdt |
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ENDIF |
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230 CONTINUE |
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! |
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RETURN |
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END |