| 1 | SUBROUTINE reevap (klon,klev,iflag_ice_thermo,t_seri,q_seri,ql_seri,qs_seri, & |
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| 2 | & d_t_eva,d_q_eva,d_ql_eva,d_qs_eva) |
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| 3 | |
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| 4 | ! flag to include modifications to ensure energy conservation (if flag >0) |
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| 5 | USE add_phys_tend_mod, only : fl_cor_ebil |
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| 6 | |
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| 7 | USE yomcst_mod_h |
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| 8 | USE yoethf_mod_h |
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| 9 | IMPLICIT none |
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| 10 | !>====================================================================== |
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| 11 | |
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| 12 | INTEGER klon,klev,iflag_ice_thermo |
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| 13 | REAL, DIMENSION(klon,klev), INTENT(in) :: t_seri,q_seri,ql_seri,qs_seri |
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| 14 | REAL, DIMENSION(klon,klev), INTENT(out) :: d_t_eva,d_q_eva,d_ql_eva,d_qs_eva |
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| 15 | |
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| 16 | REAL za,zb,zdelta,zlvdcp,zlsdcp |
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| 17 | INTEGER i,k |
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| 18 | |
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| 19 | !--------Stochastic Boundary Layer Triggering: ALE_BL-------- |
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| 20 | !---Propri\'et\'es du thermiques au LCL |
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| 21 | |
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| 22 | include "FCTTRE.h" |
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| 23 | !IM 100106 BEG : pouvoir sortir les ctes de la physique |
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| 24 | ! |
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| 25 | ! Re-evaporer l'eau liquide nuageuse |
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| 26 | ! |
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| 27 | !print *,'rrevap ; fl_cor_ebil:',fl_cor_ebil,' iflag_ice_thermo:',iflag_ice_thermo,' RVTMP2',RVTMP2 |
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| 28 | DO k = 1, klev ! re-evaporation de l'eau liquide nuageuse |
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| 29 | DO i = 1, klon |
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| 30 | if (fl_cor_ebil .GT. 0) then |
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| 31 | zlvdcp=RLVTT/RCPD/(1.0+RVTMP2*(q_seri(i,k)+ql_seri(i,k)+qs_seri(i,k))) |
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| 32 | zlsdcp=RLSTT/RCPD/(1.0+RVTMP2*(q_seri(i,k)+ql_seri(i,k)+qs_seri(i,k))) |
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| 33 | else |
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| 34 | zlvdcp=RLVTT/RCPD/(1.0+RVTMP2*q_seri(i,k)) |
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| 35 | !jyg< |
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| 36 | ! Attention : Arnaud a propose des formules completement differentes |
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| 37 | ! A verifier !!! |
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| 38 | zlsdcp=RLSTT/RCPD/(1.0+RVTMP2*q_seri(i,k)) |
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| 39 | end if |
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| 40 | IF (iflag_ice_thermo .EQ. 0) THEN |
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| 41 | zlsdcp=zlvdcp |
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| 42 | ENDIF |
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| 43 | !>jyg |
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| 44 | |
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| 45 | IF (iflag_ice_thermo.eq.0) THEN |
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| 46 | !pas necessaire a priori |
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| 47 | |
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| 48 | zdelta = MAX(0.,SIGN(1.,RTT-t_seri(i,k))) |
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| 49 | zdelta = 0. |
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| 50 | zb = MAX(0.0,ql_seri(i,k)) |
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| 51 | za = - MAX(0.0,ql_seri(i,k)) & |
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| 52 | * (zlvdcp*(1.-zdelta)+zlsdcp*zdelta) |
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| 53 | d_t_eva(i,k) = za |
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| 54 | d_q_eva(i,k) = zb |
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| 55 | d_ql_eva(i,k) = -ql_seri(i,k) |
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| 56 | d_qs_eva(i,k) = 0. |
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| 57 | |
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| 58 | ELSE |
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| 59 | |
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| 60 | !CR: on r\'e-\'evapore eau liquide et glace |
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| 61 | |
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| 62 | ! zdelta = MAX(0.,SIGN(1.,RTT-t_seri(i,k))) |
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| 63 | ! zb = MAX(0.0,ql_seri(i,k)) |
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| 64 | ! za = - MAX(0.0,ql_seri(i,k)) & |
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| 65 | ! * (zlvdcp*(1.-zdelta)+zlsdcp*zdelta) |
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| 66 | zb = MAX(0.0,ql_seri(i,k)+qs_seri(i,k)) |
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| 67 | za = - MAX(0.0,ql_seri(i,k))*zlvdcp & |
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| 68 | - MAX(0.0,qs_seri(i,k))*zlsdcp |
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| 69 | d_t_eva(i,k) = za |
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| 70 | d_q_eva(i,k) = zb |
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| 71 | d_ql_eva(i,k) = -ql_seri(i,k) |
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| 72 | d_qs_eva(i,k) = -qs_seri(i,k) |
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| 73 | ENDIF |
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| 74 | |
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| 75 | ENDDO |
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| 76 | ENDDO |
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| 77 | |
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| 78 | RETURN |
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| 79 | |
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| 80 | END SUBROUTINE reevap |
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