[1992] | 1 | |
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[1403] | 2 | ! $Id: cv3_routines.F90 2605 2016-07-28 09:46:18Z musat $ |
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[524] | 3 | |
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| 4 | |
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| 5 | |
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[2205] | 6 | |
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[2259] | 7 | SUBROUTINE cv3_param(nd, k_upper, delt) |
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[2078] | 8 | |
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[2474] | 9 | USE ioipsl_getin_p_mod, ONLY : getin_p |
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[2078] | 10 | use mod_phys_lmdz_para |
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[1992] | 11 | IMPLICIT NONE |
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[524] | 12 | |
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[2007] | 13 | !------------------------------------------------------------ |
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| 14 | !Set parameters for convectL for iflag_con = 3 |
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| 15 | !------------------------------------------------------------ |
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[524] | 16 | |
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[1516] | 17 | |
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[2007] | 18 | !*** PBCRIT IS THE CRITICAL CLOUD DEPTH (MB) BENEATH WHICH THE *** |
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| 19 | !*** PRECIPITATION EFFICIENCY IS ASSUMED TO BE ZERO *** |
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| 20 | !*** PTCRIT IS THE CLOUD DEPTH (MB) ABOVE WHICH THE PRECIP. *** |
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| 21 | !*** EFFICIENCY IS ASSUMED TO BE UNITY *** |
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| 22 | !*** SIGD IS THE FRACTIONAL AREA COVERED BY UNSATURATED DNDRAFT *** |
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| 23 | !*** SPFAC IS THE FRACTION OF PRECIPITATION FALLING OUTSIDE *** |
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| 24 | !*** OF CLOUD *** |
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[1403] | 25 | |
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[2007] | 26 | ![TAU: CHARACTERISTIC TIMESCALE USED TO COMPUTE ALPHA & BETA] |
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| 27 | !*** ALPHA AND BETA ARE PARAMETERS THAT CONTROL THE RATE OF *** |
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| 28 | !*** APPROACH TO QUASI-EQUILIBRIUM *** |
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| 29 | !*** (THEIR STANDARD VALUES ARE 1.0 AND 0.96, RESPECTIVELY) *** |
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| 30 | !*** (BETA MUST BE LESS THAN OR EQUAL TO 1) *** |
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[1506] | 31 | |
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[2007] | 32 | !*** DTCRIT IS THE CRITICAL BUOYANCY (K) USED TO ADJUST THE *** |
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| 33 | !*** APPROACH TO QUASI-EQUILIBRIUM *** |
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| 34 | !*** IT MUST BE LESS THAN 0 *** |
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[524] | 35 | |
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[1992] | 36 | include "cv3param.h" |
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| 37 | include "conema3.h" |
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[524] | 38 | |
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[2259] | 39 | INTEGER, INTENT(IN) :: nd |
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| 40 | INTEGER, INTENT(IN) :: k_upper |
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| 41 | REAL, INTENT(IN) :: delt ! timestep (seconds) |
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[524] | 42 | |
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[2393] | 43 | ! Local variables |
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[1992] | 44 | CHARACTER (LEN=20) :: modname = 'cv3_param' |
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| 45 | CHARACTER (LEN=80) :: abort_message |
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[524] | 46 | |
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[1992] | 47 | LOGICAL, SAVE :: first = .TRUE. |
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[2007] | 48 | !$OMP THREADPRIVATE(first) |
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[524] | 49 | |
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[2007] | 50 | !glb noff: integer limit for convection (nd-noff) |
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| 51 | ! minorig: First level of convection |
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[524] | 52 | |
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[2007] | 53 | ! -- limit levels for convection: |
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[524] | 54 | |
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[2259] | 55 | !jyg< |
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| 56 | ! noff is chosen such that nl = k_upper so that upmost loops end at about 22 km |
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| 57 | ! |
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| 58 | noff = min(max(nd-k_upper, 1), (nd+1)/2) |
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| 59 | !! noff = 1 |
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| 60 | !>jyg |
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[1992] | 61 | minorig = 1 |
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| 62 | nl = nd - noff |
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| 63 | nlp = nl + 1 |
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| 64 | nlm = nl - 1 |
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[524] | 65 | |
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[1992] | 66 | IF (first) THEN |
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[2007] | 67 | ! -- "microphysical" parameters: |
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| 68 | ! IM beg: ajout fis. reglage ep |
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[2458] | 69 | ! CR+JYG: shedding coefficient (used when iflag_mix_adiab=1) |
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[2007] | 70 | ! IM lu dans physiq.def via conf_phys.F90 epmax = 0.993 |
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[524] | 71 | |
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[1992] | 72 | omtrain = 45.0 ! used also for snow (no disctinction rain/snow) |
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[2007] | 73 | ! -- misc: |
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[1992] | 74 | dtovsh = -0.2 ! dT for overshoot |
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[2007] | 75 | ! cc dttrig = 5. ! (loose) condition for triggering |
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[1992] | 76 | dttrig = 10. ! (loose) condition for triggering |
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| 77 | dtcrit = -2.0 |
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[2398] | 78 | ! -- end of convection |
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[2007] | 79 | ! -- interface cloud parameterization: |
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[1992] | 80 | delta = 0.01 ! cld |
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[2007] | 81 | ! -- interface with boundary-layer (gust factor): (sb) |
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[1992] | 82 | betad = 10.0 ! original value (from convect 4.3) |
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[524] | 83 | |
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[2474] | 84 | ! Var interm pour le getin |
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| 85 | dpbase=-40. |
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| 86 | CALL getin_p('dpbase',dpbase) |
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| 87 | pbcrit=150.0 |
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| 88 | CALL getin_p('pbcrit',pbcrit) |
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| 89 | ptcrit=500.0 |
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| 90 | CALL getin_p('ptcrit',ptcrit) |
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| 91 | sigdz=0.01 |
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| 92 | CALL getin_p('sigdz',sigdz) |
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| 93 | spfac=0.15 |
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| 94 | CALL getin_p('spfac',spfac) |
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| 95 | tau=8000. |
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| 96 | CALL getin_p('tau',tau) |
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| 97 | flag_wb=1 |
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| 98 | CALL getin_p('flag_wb',flag_wb) |
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| 99 | wbmax=6. |
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| 100 | CALL getin_p('wbmax',wbmax) |
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| 101 | ok_convstop=.False. |
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| 102 | CALL getin_p('ok_convstop',ok_convstop) |
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| 103 | tau_stop=15000. |
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| 104 | CALL getin_p('tau_stop',tau_stop) |
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| 105 | ok_intermittent=.False. |
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| 106 | CALL getin_p('ok_intermittent',ok_intermittent) |
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[2508] | 107 | ok_optim_yield=.False. |
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| 108 | CALL getin_p('ok_optim_yield',ok_optim_yield) |
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[2474] | 109 | coef_peel=0.25 |
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| 110 | CALL getin_p('coef_peel',coef_peel) |
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[524] | 111 | |
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[2474] | 112 | flag_epKEorig=1 |
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| 113 | CALL getin_p('flag_epKEorig',flag_epKEorig) |
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| 114 | elcrit=0.0003 |
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| 115 | CALL getin_p('elcrit',elcrit) |
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| 116 | tlcrit=-55.0 |
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| 117 | CALL getin_p('tlcrit',tlcrit) |
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| 118 | |
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| 119 | WRITE (*, *) 'dpbase=', dpbase |
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| 120 | WRITE (*, *) 'pbcrit=', pbcrit |
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| 121 | WRITE (*, *) 'ptcrit=', ptcrit |
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| 122 | WRITE (*, *) 'sigdz=', sigdz |
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| 123 | WRITE (*, *) 'spfac=', spfac |
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| 124 | WRITE (*, *) 'tau=', tau |
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| 125 | WRITE (*, *) 'flag_wb=', flag_wb |
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| 126 | WRITE (*, *) 'wbmax=', wbmax |
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| 127 | WRITE (*, *) 'ok_convstop=', ok_convstop |
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| 128 | WRITE (*, *) 'tau_stop=', tau_stop |
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| 129 | WRITE (*, *) 'ok_intermittent=', ok_intermittent |
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[2508] | 130 | WRITE (*, *) 'ok_optim_yield =', ok_optim_yield |
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[2474] | 131 | WRITE (*, *) 'coef_peel=', coef_peel |
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| 132 | |
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| 133 | WRITE (*, *) 'flag_epKEorig=', flag_epKEorig |
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| 134 | WRITE (*, *) 'elcrit=', elcrit |
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| 135 | WRITE (*, *) 'tlcrit=', tlcrit |
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[1992] | 136 | first = .FALSE. |
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[2007] | 137 | END IF ! (first) |
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| 138 | |
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[1992] | 139 | beta = 1.0 - delt/tau |
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| 140 | alpha1 = 1.5E-3 |
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[2007] | 141 | !JYG Correction bug alpha |
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[1992] | 142 | alpha1 = alpha1*1.5 |
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| 143 | alpha = alpha1*delt/tau |
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[2007] | 144 | !JYG Bug |
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| 145 | ! cc increase alpha to compensate W decrease: |
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| 146 | ! c alpha = alpha*1.5 |
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[524] | 147 | |
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[2398] | 148 | noconv_stop = max(2.,tau_stop/delt) |
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| 149 | |
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[1992] | 150 | RETURN |
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[2468] | 151 | END SUBROUTINE cv3_param |
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[524] | 152 | |
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[2398] | 153 | SUBROUTINE cv3_incrcount(len, nd, delt, sig) |
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| 154 | |
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| 155 | IMPLICIT NONE |
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| 156 | |
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| 157 | ! ===================================================================== |
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| 158 | ! Increment the counter sig(nd) |
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| 159 | ! ===================================================================== |
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| 160 | |
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| 161 | include "cv3param.h" |
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| 162 | |
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| 163 | !inputs: |
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| 164 | INTEGER, INTENT(IN) :: len |
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| 165 | INTEGER, INTENT(IN) :: nd |
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| 166 | REAL, INTENT(IN) :: delt ! timestep (seconds) |
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| 167 | |
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| 168 | !input/output |
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| 169 | REAL, DIMENSION(len,nd), INTENT(INOUT) :: sig |
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| 170 | |
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| 171 | !local variables |
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| 172 | INTEGER il |
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| 173 | |
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| 174 | ! print *,'cv3_incrcount : noconv_stop ',noconv_stop |
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| 175 | ! print *,'cv3_incrcount in, sig(1,nd) ',sig(1,nd) |
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| 176 | IF(ok_convstop) THEN |
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| 177 | DO il = 1, len |
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| 178 | sig(il, nd) = sig(il, nd) + 1. |
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| 179 | sig(il, nd) = min(sig(il,nd), noconv_stop+0.1) |
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| 180 | END DO |
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| 181 | ELSE |
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| 182 | DO il = 1, len |
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| 183 | sig(il, nd) = sig(il, nd) + 1. |
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| 184 | sig(il, nd) = min(sig(il,nd), 12.1) |
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| 185 | END DO |
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| 186 | ENDIF ! (ok_convstop) |
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| 187 | ! print *,'cv3_incrcount out, sig(1,nd) ',sig(1,nd) |
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| 188 | |
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| 189 | RETURN |
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| 190 | END SUBROUTINE cv3_incrcount |
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| 191 | |
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[2007] | 192 | SUBROUTINE cv3_prelim(len, nd, ndp1, t, q, p, ph, & |
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| 193 | lv, lf, cpn, tv, gz, h, hm, th) |
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[1992] | 194 | IMPLICIT NONE |
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[524] | 195 | |
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[2007] | 196 | ! ===================================================================== |
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| 197 | ! --- CALCULATE ARRAYS OF GEOPOTENTIAL, HEAT CAPACITY & STATIC ENERGY |
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| 198 | ! "ori": from convect4.3 (vectorized) |
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| 199 | ! "convect3": to be exactly consistent with convect3 |
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| 200 | ! ===================================================================== |
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[524] | 201 | |
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[2007] | 202 | ! inputs: |
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[1992] | 203 | INTEGER len, nd, ndp1 |
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| 204 | REAL t(len, nd), q(len, nd), p(len, nd), ph(len, ndp1) |
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[524] | 205 | |
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[2007] | 206 | ! outputs: |
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[1992] | 207 | REAL lv(len, nd), lf(len, nd), cpn(len, nd), tv(len, nd) |
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| 208 | REAL gz(len, nd), h(len, nd), hm(len, nd) |
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| 209 | REAL th(len, nd) |
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[524] | 210 | |
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[2007] | 211 | ! local variables: |
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[1992] | 212 | INTEGER k, i |
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| 213 | REAL rdcp |
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| 214 | REAL tvx, tvy ! convect3 |
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| 215 | REAL cpx(len, nd) |
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[524] | 216 | |
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[1992] | 217 | include "cvthermo.h" |
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| 218 | include "cv3param.h" |
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[524] | 219 | |
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| 220 | |
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[2007] | 221 | ! ori do 110 k=1,nlp |
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| 222 | ! abderr do 110 k=1,nl ! convect3 |
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[1992] | 223 | DO k = 1, nlp |
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[524] | 224 | |
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[1992] | 225 | DO i = 1, len |
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[2007] | 226 | ! debug lv(i,k)= lv0-clmcpv*(t(i,k)-t0) |
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[1992] | 227 | lv(i, k) = lv0 - clmcpv*(t(i,k)-273.15) |
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| 228 | lf(i, k) = lf0 - clmci*(t(i,k)-273.15) |
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| 229 | cpn(i, k) = cpd*(1.0-q(i,k)) + cpv*q(i, k) |
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| 230 | cpx(i, k) = cpd*(1.0-q(i,k)) + cl*q(i, k) |
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[2007] | 231 | ! ori tv(i,k)=t(i,k)*(1.0+q(i,k)*epsim1) |
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[1992] | 232 | tv(i, k) = t(i, k)*(1.0+q(i,k)/eps-q(i,k)) |
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| 233 | rdcp = (rrd*(1.-q(i,k))+q(i,k)*rrv)/cpn(i, k) |
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| 234 | th(i, k) = t(i, k)*(1000.0/p(i,k))**rdcp |
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| 235 | END DO |
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| 236 | END DO |
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[524] | 237 | |
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[2007] | 238 | ! gz = phi at the full levels (same as p). |
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[524] | 239 | |
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[2605] | 240 | !! DO i = 1, len !jyg |
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| 241 | !! gz(i, 1) = 0.0 !jyg |
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| 242 | !! END DO !jyg |
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| 243 | gz(:,:) = 0. !jyg: initialization of the whole array |
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[2007] | 244 | ! ori do 140 k=2,nlp |
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[1992] | 245 | DO k = 2, nl ! convect3 |
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| 246 | DO i = 1, len |
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[2007] | 247 | tvx = t(i, k)*(1.+q(i,k)/eps-q(i,k)) !convect3 |
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| 248 | tvy = t(i, k-1)*(1.+q(i,k-1)/eps-q(i,k-1)) !convect3 |
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| 249 | gz(i, k) = gz(i, k-1) + 0.5*rrd*(tvx+tvy)* & !convect3 |
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| 250 | (p(i,k-1)-p(i,k))/ph(i, k) !convect3 |
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[879] | 251 | |
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[2007] | 252 | ! c print *,' gz(',k,')',gz(i,k),' tvx',tvx,' tvy ',tvy |
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[879] | 253 | |
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[2007] | 254 | ! ori gz(i,k)=gz(i,k-1)+hrd*(tv(i,k-1)+tv(i,k)) |
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| 255 | ! ori & *(p(i,k-1)-p(i,k))/ph(i,k) |
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[1992] | 256 | END DO |
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| 257 | END DO |
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[524] | 258 | |
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[2007] | 259 | ! h = phi + cpT (dry static energy). |
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| 260 | ! hm = phi + cp(T-Tbase)+Lq |
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[524] | 261 | |
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[2007] | 262 | ! ori do 170 k=1,nlp |
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[1992] | 263 | DO k = 1, nl ! convect3 |
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| 264 | DO i = 1, len |
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| 265 | h(i, k) = gz(i, k) + cpn(i, k)*t(i, k) |
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| 266 | hm(i, k) = gz(i, k) + cpx(i, k)*(t(i,k)-t(i,1)) + lv(i, k)*q(i, k) |
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| 267 | END DO |
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| 268 | END DO |
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[524] | 269 | |
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[1992] | 270 | RETURN |
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| 271 | END SUBROUTINE cv3_prelim |
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[524] | 272 | |
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[2007] | 273 | SUBROUTINE cv3_feed(len, nd, ok_conserv_q, & |
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| 274 | t, q, u, v, p, ph, hm, gz, & |
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| 275 | p1feed, p2feed, wght, & |
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| 276 | wghti, tnk, thnk, qnk, qsnk, unk, vnk, & |
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| 277 | cpnk, hnk, nk, icb, icbmax, iflag, gznk, plcl) |
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[1992] | 278 | IMPLICIT NONE |
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[524] | 279 | |
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[2007] | 280 | ! ================================================================ |
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| 281 | ! Purpose: CONVECTIVE FEED |
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[524] | 282 | |
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[2007] | 283 | ! Main differences with cv_feed: |
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| 284 | ! - ph added in input |
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| 285 | ! - here, nk(i)=minorig |
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| 286 | ! - icb defined differently (plcl compared with ph instead of p) |
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[524] | 287 | |
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[2007] | 288 | ! Main differences with convect3: |
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| 289 | ! - we do not compute dplcldt and dplcldr of CLIFT anymore |
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| 290 | ! - values iflag different (but tests identical) |
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| 291 | ! - A,B explicitely defined (!...) |
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| 292 | ! ================================================================ |
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[524] | 293 | |
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[1992] | 294 | include "cv3param.h" |
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| 295 | include "cvthermo.h" |
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[524] | 296 | |
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[2007] | 297 | !inputs: |
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[2253] | 298 | INTEGER, INTENT (IN) :: len, nd |
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| 299 | LOGICAL, INTENT (IN) :: ok_conserv_q |
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| 300 | REAL, DIMENSION (len, nd), INTENT (IN) :: t, q, p |
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| 301 | REAL, DIMENSION (len, nd), INTENT (IN) :: u, v |
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| 302 | REAL, DIMENSION (len, nd), INTENT (IN) :: hm, gz |
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| 303 | REAL, DIMENSION (len, nd+1), INTENT (IN) :: ph |
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| 304 | REAL, DIMENSION (len), INTENT (IN) :: p1feed |
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| 305 | REAL, DIMENSION (nd), INTENT (IN) :: wght |
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[2007] | 306 | !input-output |
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[2253] | 307 | REAL, DIMENSION (len), INTENT (INOUT) :: p2feed |
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[2007] | 308 | !outputs: |
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[2253] | 309 | INTEGER, INTENT (OUT) :: icbmax |
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| 310 | INTEGER, DIMENSION (len), INTENT (OUT) :: iflag, nk, icb |
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| 311 | REAL, DIMENSION (len, nd), INTENT (OUT) :: wghti |
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| 312 | REAL, DIMENSION (len), INTENT (OUT) :: tnk, thnk, qnk, qsnk |
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| 313 | REAL, DIMENSION (len), INTENT (OUT) :: unk, vnk |
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| 314 | REAL, DIMENSION (len), INTENT (OUT) :: cpnk, hnk, gznk |
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| 315 | REAL, DIMENSION (len), INTENT (OUT) :: plcl |
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[524] | 316 | |
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[2007] | 317 | !local variables: |
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[1992] | 318 | INTEGER i, k, iter, niter |
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| 319 | INTEGER ihmin(len) |
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| 320 | REAL work(len) |
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| 321 | REAL pup(len), plo(len), pfeed(len) |
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| 322 | REAL plclup(len), plcllo(len), plclfeed(len) |
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[2007] | 323 | REAL pfeedmin(len) |
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[1992] | 324 | REAL posit(len) |
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| 325 | LOGICAL nocond(len) |
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[524] | 326 | |
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[2007] | 327 | !jyg20140217< |
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| 328 | INTEGER iostat |
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| 329 | LOGICAL, SAVE :: first |
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| 330 | LOGICAL, SAVE :: ok_new_feed |
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| 331 | REAL, SAVE :: dp_lcl_feed |
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| 332 | !$OMP THREADPRIVATE (first,ok_new_feed,dp_lcl_feed) |
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| 333 | DATA first/.TRUE./ |
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| 334 | DATA dp_lcl_feed/2./ |
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[524] | 335 | |
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[2007] | 336 | IF (first) THEN |
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| 337 | !$OMP MASTER |
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| 338 | ok_new_feed = ok_conserv_q |
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| 339 | OPEN (98, FILE='cv3feed_param.data', STATUS='old', FORM='formatted', IOSTAT=iostat) |
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| 340 | IF (iostat==0) THEN |
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| 341 | READ (98, *, END=998) ok_new_feed |
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| 342 | 998 CONTINUE |
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| 343 | CLOSE (98) |
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| 344 | END IF |
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| 345 | PRINT *, ' ok_new_feed: ', ok_new_feed |
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| 346 | first = .FALSE. |
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| 347 | !$OMP END MASTER |
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| 348 | END IF |
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| 349 | !jyg> |
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| 350 | ! ------------------------------------------------------------------- |
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| 351 | ! --- Origin level of ascending parcels for convect3: |
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| 352 | ! ------------------------------------------------------------------- |
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| 353 | |
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[1992] | 354 | DO i = 1, len |
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| 355 | nk(i) = minorig |
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| 356 | gznk(i) = gz(i, nk(i)) |
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| 357 | END DO |
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[524] | 358 | |
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[2007] | 359 | ! ------------------------------------------------------------------- |
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| 360 | ! --- Adjust feeding layer thickness so that lifting up to the top of |
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| 361 | ! --- the feeding layer does not induce condensation (i.e. so that |
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| 362 | ! --- plcl < p2feed). |
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| 363 | ! --- Method : iterative secant method. |
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| 364 | ! ------------------------------------------------------------------- |
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[524] | 365 | |
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[2007] | 366 | ! 1- First bracketing of the solution : ph(nk+1), p2feed |
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[524] | 367 | |
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[2007] | 368 | ! 1.a- LCL associated with p2feed |
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[1992] | 369 | DO i = 1, len |
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| 370 | pup(i) = p2feed(i) |
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| 371 | END DO |
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[2007] | 372 | CALL cv3_vertmix(len, nd, iflag, p1feed, pup, p, ph, & |
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| 373 | t, q, u, v, wght, & |
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| 374 | wghti, nk, tnk, thnk, qnk, qsnk, unk, vnk, plclup) |
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| 375 | ! 1.b- LCL associated with ph(nk+1) |
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[1992] | 376 | DO i = 1, len |
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| 377 | plo(i) = ph(i, nk(i)+1) |
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| 378 | END DO |
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[2007] | 379 | CALL cv3_vertmix(len, nd, iflag, p1feed, plo, p, ph, & |
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| 380 | t, q, u, v, wght, & |
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| 381 | wghti, nk, tnk, thnk, qnk, qsnk, unk, vnk, plcllo) |
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| 382 | ! 2- Iterations |
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[1992] | 383 | niter = 5 |
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| 384 | DO iter = 1, niter |
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| 385 | DO i = 1, len |
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| 386 | plcllo(i) = min(plo(i), plcllo(i)) |
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| 387 | plclup(i) = max(pup(i), plclup(i)) |
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| 388 | nocond(i) = plclup(i) <= pup(i) |
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| 389 | END DO |
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| 390 | DO i = 1, len |
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| 391 | IF (nocond(i)) THEN |
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| 392 | pfeed(i) = pup(i) |
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| 393 | ELSE |
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[2007] | 394 | !JYG20140217< |
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| 395 | IF (ok_new_feed) THEN |
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| 396 | pfeed(i) = (pup(i)*(plo(i)-plcllo(i)-dp_lcl_feed)+ & |
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| 397 | plo(i)*(plclup(i)-pup(i)+dp_lcl_feed))/ & |
---|
| 398 | (plo(i)-plcllo(i)+plclup(i)-pup(i)) |
---|
| 399 | ELSE |
---|
| 400 | pfeed(i) = (pup(i)*(plo(i)-plcllo(i))+ & |
---|
| 401 | plo(i)*(plclup(i)-pup(i)))/ & |
---|
| 402 | (plo(i)-plcllo(i)+plclup(i)-pup(i)) |
---|
| 403 | END IF |
---|
| 404 | !JYG> |
---|
[1992] | 405 | END IF |
---|
| 406 | END DO |
---|
[2007] | 407 | !jyg20140217< |
---|
| 408 | ! For the last iteration, make sure that the top of the feeding layer |
---|
| 409 | ! and LCL are not in the same layer: |
---|
| 410 | IF (ok_new_feed) THEN |
---|
| 411 | IF (iter==niter) THEN |
---|
[2605] | 412 | DO i = 1,len !jyg |
---|
| 413 | pfeedmin(i) = ph(i,minorig+1) !jyg |
---|
| 414 | ENDDO !jyg |
---|
| 415 | DO k = minorig+1, nl !jyg |
---|
| 416 | !! DO k = minorig, nl !jyg |
---|
[2007] | 417 | DO i = 1, len |
---|
| 418 | IF (ph(i,k)>=plclfeed(i)) pfeedmin(i) = ph(i, k) |
---|
| 419 | END DO |
---|
| 420 | END DO |
---|
| 421 | DO i = 1, len |
---|
| 422 | pfeed(i) = max(pfeedmin(i), pfeed(i)) |
---|
| 423 | END DO |
---|
| 424 | END IF |
---|
| 425 | END IF |
---|
| 426 | !jyg> |
---|
| 427 | |
---|
| 428 | CALL cv3_vertmix(len, nd, iflag, p1feed, pfeed, p, ph, & |
---|
| 429 | t, q, u, v, wght, & |
---|
| 430 | wghti, nk, tnk, thnk, qnk, qsnk, unk, vnk, plclfeed) |
---|
| 431 | !jyg20140217< |
---|
| 432 | IF (ok_new_feed) THEN |
---|
| 433 | DO i = 1, len |
---|
| 434 | posit(i) = (sign(1.,plclfeed(i)-pfeed(i)+dp_lcl_feed)+1.)*0.5 |
---|
| 435 | IF (plclfeed(i)-pfeed(i)+dp_lcl_feed==0.) posit(i) = 1. |
---|
| 436 | END DO |
---|
| 437 | ELSE |
---|
| 438 | DO i = 1, len |
---|
| 439 | posit(i) = (sign(1.,plclfeed(i)-pfeed(i))+1.)*0.5 |
---|
| 440 | IF (plclfeed(i)==pfeed(i)) posit(i) = 1. |
---|
| 441 | END DO |
---|
| 442 | END IF |
---|
| 443 | !jyg> |
---|
[1992] | 444 | DO i = 1, len |
---|
[2007] | 445 | ! - posit = 1 when lcl is below top of feeding layer (plclfeed>pfeed) |
---|
| 446 | ! - => pup=pfeed |
---|
| 447 | ! - posit = 0 when lcl is above top of feeding layer (plclfeed<pfeed) |
---|
| 448 | ! - => plo=pfeed |
---|
[1992] | 449 | pup(i) = posit(i)*pfeed(i) + (1.-posit(i))*pup(i) |
---|
| 450 | plo(i) = (1.-posit(i))*pfeed(i) + posit(i)*plo(i) |
---|
| 451 | plclup(i) = posit(i)*plclfeed(i) + (1.-posit(i))*plclup(i) |
---|
| 452 | plcllo(i) = (1.-posit(i))*plclfeed(i) + posit(i)*plcllo(i) |
---|
| 453 | END DO |
---|
| 454 | END DO ! iter |
---|
| 455 | DO i = 1, len |
---|
| 456 | p2feed(i) = pfeed(i) |
---|
| 457 | plcl(i) = plclfeed(i) |
---|
| 458 | END DO |
---|
[524] | 459 | |
---|
[1992] | 460 | DO i = 1, len |
---|
| 461 | cpnk(i) = cpd*(1.0-qnk(i)) + cpv*qnk(i) |
---|
| 462 | hnk(i) = gz(i, 1) + cpnk(i)*tnk(i) |
---|
| 463 | END DO |
---|
[524] | 464 | |
---|
[2007] | 465 | ! ------------------------------------------------------------------- |
---|
| 466 | ! --- Check whether parcel level temperature and specific humidity |
---|
| 467 | ! --- are reasonable |
---|
| 468 | ! ------------------------------------------------------------------- |
---|
[1992] | 469 | DO i = 1, len |
---|
| 470 | IF (((tnk(i)<250.0) .OR. (qnk(i)<=0.0)) .AND. (iflag(i)==0)) iflag(i) = 7 |
---|
| 471 | END DO |
---|
[524] | 472 | |
---|
[2007] | 473 | ! ------------------------------------------------------------------- |
---|
| 474 | ! --- Calculate first level above lcl (=icb) |
---|
| 475 | ! ------------------------------------------------------------------- |
---|
[524] | 476 | |
---|
[2007] | 477 | !@ do 270 i=1,len |
---|
| 478 | !@ icb(i)=nlm |
---|
| 479 | !@ 270 continue |
---|
| 480 | !@c |
---|
| 481 | !@ do 290 k=minorig,nl |
---|
| 482 | !@ do 280 i=1,len |
---|
| 483 | !@ if((k.ge.(nk(i)+1)).and.(p(i,k).lt.plcl(i))) |
---|
| 484 | !@ & icb(i)=min(icb(i),k) |
---|
| 485 | !@ 280 continue |
---|
| 486 | !@ 290 continue |
---|
| 487 | !@c |
---|
| 488 | !@ do 300 i=1,len |
---|
| 489 | !@ if((icb(i).ge.nlm).and.(iflag(i).eq.0))iflag(i)=9 |
---|
| 490 | !@ 300 continue |
---|
[524] | 491 | |
---|
[1992] | 492 | DO i = 1, len |
---|
| 493 | icb(i) = nlm |
---|
| 494 | END DO |
---|
[524] | 495 | |
---|
[2007] | 496 | ! la modification consiste a comparer plcl a ph et non a p: |
---|
| 497 | ! icb est defini par : ph(icb)<plcl<ph(icb-1) |
---|
| 498 | !@ do 290 k=minorig,nl |
---|
[1992] | 499 | DO k = 3, nl - 1 ! modif pour que icb soit sup/egal a 2 |
---|
| 500 | DO i = 1, len |
---|
| 501 | IF (ph(i,k)<plcl(i)) icb(i) = min(icb(i), k) |
---|
| 502 | END DO |
---|
| 503 | END DO |
---|
[524] | 504 | |
---|
| 505 | |
---|
[2007] | 506 | ! print*,'icb dans cv3_feed ' |
---|
| 507 | ! write(*,'(64i2)') icb(2:len-1) |
---|
| 508 | ! call dump2d(64,43,'plcl dans cv3_feed ',plcl(2:len-1)) |
---|
[524] | 509 | |
---|
[1992] | 510 | DO i = 1, len |
---|
[2007] | 511 | !@ if((icb(i).ge.nlm).and.(iflag(i).eq.0))iflag(i)=9 |
---|
[1992] | 512 | IF ((icb(i)==nlm) .AND. (iflag(i)==0)) iflag(i) = 9 |
---|
| 513 | END DO |
---|
[524] | 514 | |
---|
[1992] | 515 | DO i = 1, len |
---|
| 516 | icb(i) = icb(i) - 1 ! icb sup ou egal a 2 |
---|
| 517 | END DO |
---|
[524] | 518 | |
---|
[2007] | 519 | ! Compute icbmax. |
---|
[524] | 520 | |
---|
[1992] | 521 | icbmax = 2 |
---|
| 522 | DO i = 1, len |
---|
[2007] | 523 | !! icbmax=max(icbmax,icb(i)) |
---|
| 524 | IF (iflag(i)<7) icbmax = max(icbmax, icb(i)) ! sb Jun7th02 |
---|
[1992] | 525 | END DO |
---|
[524] | 526 | |
---|
[1992] | 527 | RETURN |
---|
| 528 | END SUBROUTINE cv3_feed |
---|
[524] | 529 | |
---|
[1992] | 530 | SUBROUTINE cv3_undilute1(len, nd, t, qs, gz, plcl, p, icb, tnk, qnk, gznk, & |
---|
[2007] | 531 | tp, tvp, clw, icbs) |
---|
[1992] | 532 | IMPLICIT NONE |
---|
[524] | 533 | |
---|
[2007] | 534 | ! ---------------------------------------------------------------- |
---|
| 535 | ! Equivalent de TLIFT entre NK et ICB+1 inclus |
---|
[524] | 536 | |
---|
[2007] | 537 | ! Differences with convect4: |
---|
| 538 | ! - specify plcl in input |
---|
| 539 | ! - icbs is the first level above LCL (may differ from icb) |
---|
| 540 | ! - in the iterations, used x(icbs) instead x(icb) |
---|
| 541 | ! - many minor differences in the iterations |
---|
| 542 | ! - tvp is computed in only one time |
---|
| 543 | ! - icbs: first level above Plcl (IMIN de TLIFT) in output |
---|
| 544 | ! - if icbs=icb, compute also tp(icb+1),tvp(icb+1) & clw(icb+1) |
---|
| 545 | ! ---------------------------------------------------------------- |
---|
[524] | 546 | |
---|
[1992] | 547 | include "cvthermo.h" |
---|
| 548 | include "cv3param.h" |
---|
[524] | 549 | |
---|
[2007] | 550 | ! inputs: |
---|
[2253] | 551 | INTEGER, INTENT (IN) :: len, nd |
---|
| 552 | INTEGER, DIMENSION (len), INTENT (IN) :: icb |
---|
| 553 | REAL, DIMENSION (len, nd), INTENT (IN) :: t, qs, gz |
---|
| 554 | REAL, DIMENSION (len), INTENT (IN) :: tnk, qnk, gznk |
---|
| 555 | REAL, DIMENSION (len, nd), INTENT (IN) :: p |
---|
| 556 | REAL, DIMENSION (len), INTENT (IN) :: plcl ! convect3 |
---|
[524] | 557 | |
---|
[2007] | 558 | ! outputs: |
---|
[2253] | 559 | INTEGER, DIMENSION (len), INTENT (OUT) :: icbs |
---|
| 560 | REAL, DIMENSION (len, nd), INTENT (OUT) :: tp, tvp, clw |
---|
[524] | 561 | |
---|
[2007] | 562 | ! local variables: |
---|
[1992] | 563 | INTEGER i, k |
---|
[2253] | 564 | INTEGER icb1(len), icbsmax2 ! convect3 |
---|
[1992] | 565 | REAL tg, qg, alv, s, ahg, tc, denom, es, rg |
---|
| 566 | REAL ah0(len), cpp(len) |
---|
| 567 | REAL ticb(len), gzicb(len) |
---|
[2253] | 568 | REAL qsicb(len) ! convect3 |
---|
| 569 | REAL cpinv(len) ! convect3 |
---|
[524] | 570 | |
---|
[2007] | 571 | ! ------------------------------------------------------------------- |
---|
| 572 | ! --- Calculates the lifted parcel virtual temperature at nk, |
---|
| 573 | ! --- the actual temperature, and the adiabatic |
---|
| 574 | ! --- liquid water content. The procedure is to solve the equation. |
---|
| 575 | ! cp*tp+L*qp+phi=cp*tnk+L*qnk+gznk. |
---|
| 576 | ! ------------------------------------------------------------------- |
---|
[524] | 577 | |
---|
| 578 | |
---|
[2007] | 579 | ! *** Calculate certain parcel quantities, including static energy *** |
---|
[524] | 580 | |
---|
[1992] | 581 | DO i = 1, len |
---|
[2007] | 582 | ah0(i) = (cpd*(1.-qnk(i))+cl*qnk(i))*tnk(i) + qnk(i)*(lv0-clmcpv*(tnk(i)-273.15)) + gznk(i) |
---|
[1992] | 583 | cpp(i) = cpd*(1.-qnk(i)) + qnk(i)*cpv |
---|
| 584 | cpinv(i) = 1./cpp(i) |
---|
| 585 | END DO |
---|
[524] | 586 | |
---|
[2007] | 587 | ! *** Calculate lifted parcel quantities below cloud base *** |
---|
[524] | 588 | |
---|
[2007] | 589 | DO i = 1, len !convect3 |
---|
[2520] | 590 | icb1(i) = min(max(icb(i), 2), nl) |
---|
[2007] | 591 | ! if icb is below LCL, start loop at ICB+1: |
---|
| 592 | ! (icbs est le premier niveau au-dessus du LCL) |
---|
| 593 | icbs(i) = icb1(i) !convect3 |
---|
[1992] | 594 | IF (plcl(i)<p(i,icb1(i))) THEN |
---|
[2007] | 595 | icbs(i) = min(icbs(i)+1, nl) !convect3 |
---|
[1992] | 596 | END IF |
---|
[2007] | 597 | END DO !convect3 |
---|
[524] | 598 | |
---|
[1992] | 599 | DO i = 1, len !convect3 |
---|
[2007] | 600 | ticb(i) = t(i, icbs(i)) !convect3 |
---|
| 601 | gzicb(i) = gz(i, icbs(i)) !convect3 |
---|
| 602 | qsicb(i) = qs(i, icbs(i)) !convect3 |
---|
[1992] | 603 | END DO !convect3 |
---|
[524] | 604 | |
---|
| 605 | |
---|
[2007] | 606 | ! Re-compute icbsmax (icbsmax2): !convect3 |
---|
| 607 | ! !convect3 |
---|
| 608 | icbsmax2 = 2 !convect3 |
---|
| 609 | DO i = 1, len !convect3 |
---|
| 610 | icbsmax2 = max(icbsmax2, icbs(i)) !convect3 |
---|
| 611 | END DO !convect3 |
---|
[524] | 612 | |
---|
[2007] | 613 | ! initialization outputs: |
---|
[524] | 614 | |
---|
[2007] | 615 | DO k = 1, icbsmax2 ! convect3 |
---|
| 616 | DO i = 1, len ! convect3 |
---|
| 617 | tp(i, k) = 0.0 ! convect3 |
---|
| 618 | tvp(i, k) = 0.0 ! convect3 |
---|
| 619 | clw(i, k) = 0.0 ! convect3 |
---|
| 620 | END DO ! convect3 |
---|
| 621 | END DO ! convect3 |
---|
[524] | 622 | |
---|
[2007] | 623 | ! tp and tvp below cloud base: |
---|
[524] | 624 | |
---|
[1992] | 625 | DO k = minorig, icbsmax2 - 1 |
---|
| 626 | DO i = 1, len |
---|
| 627 | tp(i, k) = tnk(i) - (gz(i,k)-gznk(i))*cpinv(i) |
---|
[2007] | 628 | tvp(i, k) = tp(i, k)*(1.+qnk(i)/eps-qnk(i)) !whole thing (convect3) |
---|
[1992] | 629 | END DO |
---|
| 630 | END DO |
---|
[524] | 631 | |
---|
[2007] | 632 | ! *** Find lifted parcel quantities above cloud base *** |
---|
[524] | 633 | |
---|
[1992] | 634 | DO i = 1, len |
---|
| 635 | tg = ticb(i) |
---|
[2007] | 636 | ! ori qg=qs(i,icb(i)) |
---|
[1992] | 637 | qg = qsicb(i) ! convect3 |
---|
[2007] | 638 | ! debug alv=lv0-clmcpv*(ticb(i)-t0) |
---|
[1992] | 639 | alv = lv0 - clmcpv*(ticb(i)-273.15) |
---|
[524] | 640 | |
---|
[2007] | 641 | ! First iteration. |
---|
[524] | 642 | |
---|
[2007] | 643 | ! ori s=cpd+alv*alv*qg/(rrv*ticb(i)*ticb(i)) |
---|
| 644 | s = cpd*(1.-qnk(i)) + cl*qnk(i) + & ! convect3 |
---|
| 645 | alv*alv*qg/(rrv*ticb(i)*ticb(i)) ! convect3 |
---|
[1992] | 646 | s = 1./s |
---|
[2007] | 647 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*ticb(i)+alv*qg+gzicb(i) |
---|
[1992] | 648 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gzicb(i) ! convect3 |
---|
| 649 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 650 | ! ori tg=max(tg,35.0) |
---|
| 651 | ! debug tc=tg-t0 |
---|
[1992] | 652 | tc = tg - 273.15 |
---|
| 653 | denom = 243.5 + tc |
---|
| 654 | denom = max(denom, 1.0) ! convect3 |
---|
[2007] | 655 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 656 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 657 | ! ori else |
---|
| 658 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 659 | ! ori endif |
---|
| 660 | ! ori qg=eps*es/(p(i,icb(i))-es*(1.-eps)) |
---|
[1992] | 661 | qg = eps*es/(p(i,icbs(i))-es*(1.-eps)) |
---|
[524] | 662 | |
---|
[2007] | 663 | ! Second iteration. |
---|
[524] | 664 | |
---|
| 665 | |
---|
[2007] | 666 | ! ori s=cpd+alv*alv*qg/(rrv*ticb(i)*ticb(i)) |
---|
| 667 | ! ori s=1./s |
---|
| 668 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*ticb(i)+alv*qg+gzicb(i) |
---|
[1992] | 669 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gzicb(i) ! convect3 |
---|
| 670 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 671 | ! ori tg=max(tg,35.0) |
---|
| 672 | ! debug tc=tg-t0 |
---|
[1992] | 673 | tc = tg - 273.15 |
---|
| 674 | denom = 243.5 + tc |
---|
[2007] | 675 | denom = max(denom, 1.0) ! convect3 |
---|
| 676 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 677 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 678 | ! ori else |
---|
| 679 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 680 | ! ori end if |
---|
| 681 | ! ori qg=eps*es/(p(i,icb(i))-es*(1.-eps)) |
---|
[1992] | 682 | qg = eps*es/(p(i,icbs(i))-es*(1.-eps)) |
---|
[524] | 683 | |
---|
[1992] | 684 | alv = lv0 - clmcpv*(ticb(i)-273.15) |
---|
[524] | 685 | |
---|
[2007] | 686 | ! ori c approximation here: |
---|
| 687 | ! ori tp(i,icb(i))=(ah0(i)-(cl-cpd)*qnk(i)*ticb(i) |
---|
| 688 | ! ori & -gz(i,icb(i))-alv*qg)/cpd |
---|
[524] | 689 | |
---|
[2007] | 690 | ! convect3: no approximation: |
---|
[1992] | 691 | tp(i, icbs(i)) = (ah0(i)-gz(i,icbs(i))-alv*qg)/(cpd+(cl-cpd)*qnk(i)) |
---|
[524] | 692 | |
---|
[2007] | 693 | ! ori clw(i,icb(i))=qnk(i)-qg |
---|
| 694 | ! ori clw(i,icb(i))=max(0.0,clw(i,icb(i))) |
---|
[1992] | 695 | clw(i, icbs(i)) = qnk(i) - qg |
---|
| 696 | clw(i, icbs(i)) = max(0.0, clw(i,icbs(i))) |
---|
[524] | 697 | |
---|
[1992] | 698 | rg = qg/(1.-qnk(i)) |
---|
[2007] | 699 | ! ori tvp(i,icb(i))=tp(i,icb(i))*(1.+rg*epsi) |
---|
| 700 | ! convect3: (qg utilise au lieu du vrai mixing ratio rg) |
---|
| 701 | tvp(i, icbs(i)) = tp(i, icbs(i))*(1.+qg/eps-qnk(i)) !whole thing |
---|
[524] | 702 | |
---|
[1992] | 703 | END DO |
---|
[524] | 704 | |
---|
[2007] | 705 | ! ori do 380 k=minorig,icbsmax2 |
---|
| 706 | ! ori do 370 i=1,len |
---|
| 707 | ! ori tvp(i,k)=tvp(i,k)-tp(i,k)*qnk(i) |
---|
| 708 | ! ori 370 continue |
---|
| 709 | ! ori 380 continue |
---|
[1849] | 710 | |
---|
| 711 | |
---|
[2007] | 712 | ! -- The following is only for convect3: |
---|
[1849] | 713 | |
---|
[2007] | 714 | ! * icbs is the first level above the LCL: |
---|
| 715 | ! if plcl<p(icb), then icbs=icb+1 |
---|
| 716 | ! if plcl>p(icb), then icbs=icb |
---|
[1849] | 717 | |
---|
[2007] | 718 | ! * the routine above computes tvp from minorig to icbs (included). |
---|
[1849] | 719 | |
---|
[2007] | 720 | ! * to compute buoybase (in cv3_trigger.F), both tvp(icb) and tvp(icb+1) |
---|
| 721 | ! must be known. This is the case if icbs=icb+1, but not if icbs=icb. |
---|
[1849] | 722 | |
---|
[2007] | 723 | ! * therefore, in the case icbs=icb, we compute tvp at level icb+1 |
---|
| 724 | ! (tvp at other levels will be computed in cv3_undilute2.F) |
---|
[524] | 725 | |
---|
| 726 | |
---|
[1992] | 727 | DO i = 1, len |
---|
| 728 | ticb(i) = t(i, icb(i)+1) |
---|
| 729 | gzicb(i) = gz(i, icb(i)+1) |
---|
| 730 | qsicb(i) = qs(i, icb(i)+1) |
---|
| 731 | END DO |
---|
[524] | 732 | |
---|
[1992] | 733 | DO i = 1, len |
---|
| 734 | tg = ticb(i) |
---|
| 735 | qg = qsicb(i) ! convect3 |
---|
[2007] | 736 | ! debug alv=lv0-clmcpv*(ticb(i)-t0) |
---|
[1992] | 737 | alv = lv0 - clmcpv*(ticb(i)-273.15) |
---|
[524] | 738 | |
---|
[2007] | 739 | ! First iteration. |
---|
[524] | 740 | |
---|
[2007] | 741 | ! ori s=cpd+alv*alv*qg/(rrv*ticb(i)*ticb(i)) |
---|
| 742 | s = cpd*(1.-qnk(i)) + cl*qnk(i) & ! convect3 |
---|
| 743 | +alv*alv*qg/(rrv*ticb(i)*ticb(i)) ! convect3 |
---|
[1992] | 744 | s = 1./s |
---|
[2007] | 745 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*ticb(i)+alv*qg+gzicb(i) |
---|
| 746 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gzicb(i) ! convect3 |
---|
[1992] | 747 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 748 | ! ori tg=max(tg,35.0) |
---|
| 749 | ! debug tc=tg-t0 |
---|
[1992] | 750 | tc = tg - 273.15 |
---|
| 751 | denom = 243.5 + tc |
---|
[2007] | 752 | denom = max(denom, 1.0) ! convect3 |
---|
| 753 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 754 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 755 | ! ori else |
---|
| 756 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 757 | ! ori endif |
---|
| 758 | ! ori qg=eps*es/(p(i,icb(i))-es*(1.-eps)) |
---|
[1992] | 759 | qg = eps*es/(p(i,icb(i)+1)-es*(1.-eps)) |
---|
[524] | 760 | |
---|
[2007] | 761 | ! Second iteration. |
---|
[524] | 762 | |
---|
| 763 | |
---|
[2007] | 764 | ! ori s=cpd+alv*alv*qg/(rrv*ticb(i)*ticb(i)) |
---|
| 765 | ! ori s=1./s |
---|
| 766 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*ticb(i)+alv*qg+gzicb(i) |
---|
| 767 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gzicb(i) ! convect3 |
---|
[1992] | 768 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 769 | ! ori tg=max(tg,35.0) |
---|
| 770 | ! debug tc=tg-t0 |
---|
[1992] | 771 | tc = tg - 273.15 |
---|
| 772 | denom = 243.5 + tc |
---|
[2007] | 773 | denom = max(denom, 1.0) ! convect3 |
---|
| 774 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 775 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 776 | ! ori else |
---|
| 777 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 778 | ! ori end if |
---|
| 779 | ! ori qg=eps*es/(p(i,icb(i))-es*(1.-eps)) |
---|
[1992] | 780 | qg = eps*es/(p(i,icb(i)+1)-es*(1.-eps)) |
---|
[524] | 781 | |
---|
[1992] | 782 | alv = lv0 - clmcpv*(ticb(i)-273.15) |
---|
[524] | 783 | |
---|
[2007] | 784 | ! ori c approximation here: |
---|
| 785 | ! ori tp(i,icb(i))=(ah0(i)-(cl-cpd)*qnk(i)*ticb(i) |
---|
| 786 | ! ori & -gz(i,icb(i))-alv*qg)/cpd |
---|
[1849] | 787 | |
---|
[2007] | 788 | ! convect3: no approximation: |
---|
[1992] | 789 | tp(i, icb(i)+1) = (ah0(i)-gz(i,icb(i)+1)-alv*qg)/(cpd+(cl-cpd)*qnk(i)) |
---|
[1849] | 790 | |
---|
[2007] | 791 | ! ori clw(i,icb(i))=qnk(i)-qg |
---|
| 792 | ! ori clw(i,icb(i))=max(0.0,clw(i,icb(i))) |
---|
[1992] | 793 | clw(i, icb(i)+1) = qnk(i) - qg |
---|
| 794 | clw(i, icb(i)+1) = max(0.0, clw(i,icb(i)+1)) |
---|
[1849] | 795 | |
---|
[1992] | 796 | rg = qg/(1.-qnk(i)) |
---|
[2007] | 797 | ! ori tvp(i,icb(i))=tp(i,icb(i))*(1.+rg*epsi) |
---|
| 798 | ! convect3: (qg utilise au lieu du vrai mixing ratio rg) |
---|
| 799 | tvp(i, icb(i)+1) = tp(i, icb(i)+1)*(1.+qg/eps-qnk(i)) !whole thing |
---|
[1849] | 800 | |
---|
[1992] | 801 | END DO |
---|
[1501] | 802 | |
---|
[1992] | 803 | RETURN |
---|
| 804 | END SUBROUTINE cv3_undilute1 |
---|
[524] | 805 | |
---|
[2007] | 806 | SUBROUTINE cv3_trigger(len, nd, icb, plcl, p, th, tv, tvp, thnk, & |
---|
| 807 | pbase, buoybase, iflag, sig, w0) |
---|
[1992] | 808 | IMPLICIT NONE |
---|
[524] | 809 | |
---|
[2007] | 810 | ! ------------------------------------------------------------------- |
---|
| 811 | ! --- TRIGGERING |
---|
[524] | 812 | |
---|
[2007] | 813 | ! - computes the cloud base |
---|
| 814 | ! - triggering (crude in this version) |
---|
| 815 | ! - relaxation of sig and w0 when no convection |
---|
[524] | 816 | |
---|
[2007] | 817 | ! Caution1: if no convection, we set iflag=4 |
---|
| 818 | ! (it used to be 0 in convect3) |
---|
[524] | 819 | |
---|
[2007] | 820 | ! Caution2: at this stage, tvp (and thus buoy) are know up |
---|
| 821 | ! through icb only! |
---|
| 822 | ! -> the buoyancy below cloud base not (yet) set to the cloud base buoyancy |
---|
| 823 | ! ------------------------------------------------------------------- |
---|
[524] | 824 | |
---|
[1992] | 825 | include "cv3param.h" |
---|
[524] | 826 | |
---|
[2007] | 827 | ! input: |
---|
[1992] | 828 | INTEGER len, nd |
---|
| 829 | INTEGER icb(len) |
---|
| 830 | REAL plcl(len), p(len, nd) |
---|
| 831 | REAL th(len, nd), tv(len, nd), tvp(len, nd) |
---|
| 832 | REAL thnk(len) |
---|
[524] | 833 | |
---|
[2007] | 834 | ! output: |
---|
[1992] | 835 | REAL pbase(len), buoybase(len) |
---|
[524] | 836 | |
---|
[2007] | 837 | ! input AND output: |
---|
[1992] | 838 | INTEGER iflag(len) |
---|
| 839 | REAL sig(len, nd), w0(len, nd) |
---|
[524] | 840 | |
---|
[2007] | 841 | ! local variables: |
---|
[1992] | 842 | INTEGER i, k |
---|
| 843 | REAL tvpbase, tvbase, tdif, ath, ath1 |
---|
[524] | 844 | |
---|
[879] | 845 | |
---|
[2007] | 846 | ! *** set cloud base buoyancy at (plcl+dpbase) level buoyancy |
---|
[879] | 847 | |
---|
[1992] | 848 | DO i = 1, len |
---|
| 849 | pbase(i) = plcl(i) + dpbase |
---|
[2007] | 850 | tvpbase = tvp(i, icb(i)) *(pbase(i)-p(i,icb(i)+1))/(p(i,icb(i))-p(i,icb(i)+1)) + & |
---|
| 851 | tvp(i, icb(i)+1)*(p(i,icb(i))-pbase(i)) /(p(i,icb(i))-p(i,icb(i)+1)) |
---|
| 852 | tvbase = tv(i, icb(i)) *(pbase(i)-p(i,icb(i)+1))/(p(i,icb(i))-p(i,icb(i)+1)) + & |
---|
| 853 | tv(i, icb(i)+1)*(p(i,icb(i))-pbase(i)) /(p(i,icb(i))-p(i,icb(i)+1)) |
---|
[1992] | 854 | buoybase(i) = tvpbase - tvbase |
---|
| 855 | END DO |
---|
[524] | 856 | |
---|
[829] | 857 | |
---|
[2007] | 858 | ! *** make sure that column is dry adiabatic between the surface *** |
---|
| 859 | ! *** and cloud base, and that lifted air is positively buoyant *** |
---|
| 860 | ! *** at cloud base *** |
---|
| 861 | ! *** if not, return to calling program after resetting *** |
---|
| 862 | ! *** sig(i) and w0(i) *** |
---|
[1849] | 863 | |
---|
| 864 | |
---|
[2007] | 865 | ! oct3 do 200 i=1,len |
---|
| 866 | ! oct3 |
---|
| 867 | ! oct3 tdif = buoybase(i) |
---|
| 868 | ! oct3 ath1 = th(i,1) |
---|
| 869 | ! oct3 ath = th(i,icb(i)-1) - dttrig |
---|
| 870 | ! oct3 |
---|
| 871 | ! oct3 if (tdif.lt.dtcrit .or. ath.gt.ath1) then |
---|
| 872 | ! oct3 do 60 k=1,nl |
---|
| 873 | ! oct3 sig(i,k) = beta*sig(i,k) - 2.*alpha*tdif*tdif |
---|
| 874 | ! oct3 sig(i,k) = AMAX1(sig(i,k),0.0) |
---|
| 875 | ! oct3 w0(i,k) = beta*w0(i,k) |
---|
| 876 | ! oct3 60 continue |
---|
| 877 | ! oct3 iflag(i)=4 ! pour version vectorisee |
---|
| 878 | ! oct3c convect3 iflag(i)=0 |
---|
| 879 | ! oct3cccc return |
---|
| 880 | ! oct3 endif |
---|
| 881 | ! oct3 |
---|
| 882 | ! oct3200 continue |
---|
[1849] | 883 | |
---|
[2007] | 884 | ! -- oct3: on reecrit la boucle 200 (pour la vectorisation) |
---|
[524] | 885 | |
---|
[1992] | 886 | DO k = 1, nl |
---|
| 887 | DO i = 1, len |
---|
[524] | 888 | |
---|
[1992] | 889 | tdif = buoybase(i) |
---|
| 890 | ath1 = thnk(i) |
---|
| 891 | ath = th(i, icb(i)-1) - dttrig |
---|
[524] | 892 | |
---|
[1992] | 893 | IF (tdif<dtcrit .OR. ath>ath1) THEN |
---|
| 894 | sig(i, k) = beta*sig(i, k) - 2.*alpha*tdif*tdif |
---|
| 895 | sig(i, k) = amax1(sig(i,k), 0.0) |
---|
| 896 | w0(i, k) = beta*w0(i, k) |
---|
| 897 | iflag(i) = 4 ! pour version vectorisee |
---|
[2007] | 898 | ! convect3 iflag(i)=0 |
---|
[1992] | 899 | END IF |
---|
[524] | 900 | |
---|
[1992] | 901 | END DO |
---|
| 902 | END DO |
---|
[524] | 903 | |
---|
[2007] | 904 | ! fin oct3 -- |
---|
[524] | 905 | |
---|
[1992] | 906 | RETURN |
---|
| 907 | END SUBROUTINE cv3_trigger |
---|
[524] | 908 | |
---|
[2007] | 909 | SUBROUTINE cv3_compress(len, nloc, ncum, nd, ntra, & |
---|
| 910 | iflag1, nk1, icb1, icbs1, & |
---|
| 911 | plcl1, tnk1, qnk1, gznk1, pbase1, buoybase1, & |
---|
| 912 | t1, q1, qs1, u1, v1, gz1, th1, & |
---|
| 913 | tra1, & |
---|
| 914 | h1, lv1, cpn1, p1, ph1, tv1, tp1, tvp1, clw1, & |
---|
| 915 | sig1, w01, & |
---|
| 916 | iflag, nk, icb, icbs, & |
---|
| 917 | plcl, tnk, qnk, gznk, pbase, buoybase, & |
---|
| 918 | t, q, qs, u, v, gz, th, & |
---|
| 919 | tra, & |
---|
| 920 | h, lv, cpn, p, ph, tv, tp, tvp, clw, & |
---|
| 921 | sig, w0) |
---|
[2311] | 922 | USE print_control_mod, ONLY: lunout |
---|
[1992] | 923 | IMPLICIT NONE |
---|
[524] | 924 | |
---|
[1992] | 925 | include "cv3param.h" |
---|
[524] | 926 | |
---|
[2007] | 927 | !inputs: |
---|
[1992] | 928 | INTEGER len, ncum, nd, ntra, nloc |
---|
| 929 | INTEGER iflag1(len), nk1(len), icb1(len), icbs1(len) |
---|
| 930 | REAL plcl1(len), tnk1(len), qnk1(len), gznk1(len) |
---|
| 931 | REAL pbase1(len), buoybase1(len) |
---|
| 932 | REAL t1(len, nd), q1(len, nd), qs1(len, nd), u1(len, nd), v1(len, nd) |
---|
| 933 | REAL gz1(len, nd), h1(len, nd), lv1(len, nd), cpn1(len, nd) |
---|
| 934 | REAL p1(len, nd), ph1(len, nd+1), tv1(len, nd), tp1(len, nd) |
---|
| 935 | REAL tvp1(len, nd), clw1(len, nd) |
---|
| 936 | REAL th1(len, nd) |
---|
| 937 | REAL sig1(len, nd), w01(len, nd) |
---|
| 938 | REAL tra1(len, nd, ntra) |
---|
[524] | 939 | |
---|
[2007] | 940 | !outputs: |
---|
| 941 | ! en fait, on a nloc=len pour l'instant (cf cv_driver) |
---|
[1992] | 942 | INTEGER iflag(nloc), nk(nloc), icb(nloc), icbs(nloc) |
---|
| 943 | REAL plcl(nloc), tnk(nloc), qnk(nloc), gznk(nloc) |
---|
| 944 | REAL pbase(nloc), buoybase(nloc) |
---|
| 945 | REAL t(nloc, nd), q(nloc, nd), qs(nloc, nd), u(nloc, nd), v(nloc, nd) |
---|
| 946 | REAL gz(nloc, nd), h(nloc, nd), lv(nloc, nd), cpn(nloc, nd) |
---|
| 947 | REAL p(nloc, nd), ph(nloc, nd+1), tv(nloc, nd), tp(nloc, nd) |
---|
| 948 | REAL tvp(nloc, nd), clw(nloc, nd) |
---|
| 949 | REAL th(nloc, nd) |
---|
| 950 | REAL sig(nloc, nd), w0(nloc, nd) |
---|
| 951 | REAL tra(nloc, nd, ntra) |
---|
[524] | 952 | |
---|
[2007] | 953 | !local variables: |
---|
[1992] | 954 | INTEGER i, k, nn, j |
---|
[524] | 955 | |
---|
[1992] | 956 | CHARACTER (LEN=20) :: modname = 'cv3_compress' |
---|
| 957 | CHARACTER (LEN=80) :: abort_message |
---|
[879] | 958 | |
---|
[1992] | 959 | DO k = 1, nl + 1 |
---|
| 960 | nn = 0 |
---|
| 961 | DO i = 1, len |
---|
| 962 | IF (iflag1(i)==0) THEN |
---|
| 963 | nn = nn + 1 |
---|
| 964 | sig(nn, k) = sig1(i, k) |
---|
| 965 | w0(nn, k) = w01(i, k) |
---|
| 966 | t(nn, k) = t1(i, k) |
---|
| 967 | q(nn, k) = q1(i, k) |
---|
| 968 | qs(nn, k) = qs1(i, k) |
---|
| 969 | u(nn, k) = u1(i, k) |
---|
| 970 | v(nn, k) = v1(i, k) |
---|
| 971 | gz(nn, k) = gz1(i, k) |
---|
| 972 | h(nn, k) = h1(i, k) |
---|
| 973 | lv(nn, k) = lv1(i, k) |
---|
| 974 | cpn(nn, k) = cpn1(i, k) |
---|
| 975 | p(nn, k) = p1(i, k) |
---|
| 976 | ph(nn, k) = ph1(i, k) |
---|
| 977 | tv(nn, k) = tv1(i, k) |
---|
| 978 | tp(nn, k) = tp1(i, k) |
---|
| 979 | tvp(nn, k) = tvp1(i, k) |
---|
| 980 | clw(nn, k) = clw1(i, k) |
---|
| 981 | th(nn, k) = th1(i, k) |
---|
| 982 | END IF |
---|
| 983 | END DO |
---|
| 984 | END DO |
---|
[524] | 985 | |
---|
[2007] | 986 | !AC! do 121 j=1,ntra |
---|
| 987 | !AC!ccccc do 111 k=1,nl+1 |
---|
| 988 | !AC! do 111 k=1,nd |
---|
| 989 | !AC! nn=0 |
---|
| 990 | !AC! do 101 i=1,len |
---|
| 991 | !AC! if(iflag1(i).eq.0)then |
---|
| 992 | !AC! nn=nn+1 |
---|
| 993 | !AC! tra(nn,k,j)=tra1(i,k,j) |
---|
| 994 | !AC! endif |
---|
| 995 | !AC! 101 continue |
---|
| 996 | !AC! 111 continue |
---|
| 997 | !AC! 121 continue |
---|
[524] | 998 | |
---|
[1992] | 999 | IF (nn/=ncum) THEN |
---|
| 1000 | WRITE (lunout, *) 'strange! nn not equal to ncum: ', nn, ncum |
---|
| 1001 | abort_message = '' |
---|
[2311] | 1002 | CALL abort_physic(modname, abort_message, 1) |
---|
[1992] | 1003 | END IF |
---|
[524] | 1004 | |
---|
[1992] | 1005 | nn = 0 |
---|
| 1006 | DO i = 1, len |
---|
| 1007 | IF (iflag1(i)==0) THEN |
---|
| 1008 | nn = nn + 1 |
---|
| 1009 | pbase(nn) = pbase1(i) |
---|
| 1010 | buoybase(nn) = buoybase1(i) |
---|
| 1011 | plcl(nn) = plcl1(i) |
---|
| 1012 | tnk(nn) = tnk1(i) |
---|
| 1013 | qnk(nn) = qnk1(i) |
---|
| 1014 | gznk(nn) = gznk1(i) |
---|
| 1015 | nk(nn) = nk1(i) |
---|
| 1016 | icb(nn) = icb1(i) |
---|
| 1017 | icbs(nn) = icbs1(i) |
---|
| 1018 | iflag(nn) = iflag1(i) |
---|
| 1019 | END IF |
---|
| 1020 | END DO |
---|
[524] | 1021 | |
---|
[1992] | 1022 | RETURN |
---|
| 1023 | END SUBROUTINE cv3_compress |
---|
[524] | 1024 | |
---|
[1992] | 1025 | SUBROUTINE icefrac(t, clw, qi, nl, len) |
---|
| 1026 | IMPLICIT NONE |
---|
[524] | 1027 | |
---|
| 1028 | |
---|
[2007] | 1029 | !JAM-------------------------------------------------------------------- |
---|
| 1030 | ! Calcul de la quantité d'eau sous forme de glace |
---|
| 1031 | ! -------------------------------------------------------------------- |
---|
[2110] | 1032 | INTEGER nl, len |
---|
[1992] | 1033 | REAL qi(len, nl) |
---|
| 1034 | REAL t(len, nl), clw(len, nl) |
---|
| 1035 | REAL fracg |
---|
[2110] | 1036 | INTEGER k, i |
---|
[524] | 1037 | |
---|
[1992] | 1038 | DO k = 3, nl |
---|
| 1039 | DO i = 1, len |
---|
| 1040 | IF (t(i,k)>263.15) THEN |
---|
| 1041 | qi(i, k) = 0. |
---|
| 1042 | ELSE |
---|
| 1043 | IF (t(i,k)<243.15) THEN |
---|
| 1044 | qi(i, k) = clw(i, k) |
---|
| 1045 | ELSE |
---|
| 1046 | fracg = (263.15-t(i,k))/20 |
---|
| 1047 | qi(i, k) = clw(i, k)*fracg |
---|
| 1048 | END IF |
---|
| 1049 | END IF |
---|
[2007] | 1050 | ! print*,t(i,k),qi(i,k),'temp,testglace' |
---|
[1992] | 1051 | END DO |
---|
| 1052 | END DO |
---|
[879] | 1053 | |
---|
[1992] | 1054 | RETURN |
---|
[524] | 1055 | |
---|
[1992] | 1056 | END SUBROUTINE icefrac |
---|
[524] | 1057 | |
---|
[2007] | 1058 | SUBROUTINE cv3_undilute2(nloc, ncum, nd, icb, icbs, nk, & |
---|
| 1059 | tnk, qnk, gznk, hnk, t, q, qs, gz, & |
---|
[2420] | 1060 | p, ph, h, tv, lv, lf, pbase, buoybase, plcl, & |
---|
[2007] | 1061 | inb, tp, tvp, clw, hp, ep, sigp, buoy, frac) |
---|
[1992] | 1062 | IMPLICIT NONE |
---|
[524] | 1063 | |
---|
[2007] | 1064 | ! --------------------------------------------------------------------- |
---|
| 1065 | ! Purpose: |
---|
| 1066 | ! FIND THE REST OF THE LIFTED PARCEL TEMPERATURES |
---|
| 1067 | ! & |
---|
| 1068 | ! COMPUTE THE PRECIPITATION EFFICIENCIES AND THE |
---|
| 1069 | ! FRACTION OF PRECIPITATION FALLING OUTSIDE OF CLOUD |
---|
| 1070 | ! & |
---|
| 1071 | ! FIND THE LEVEL OF NEUTRAL BUOYANCY |
---|
[524] | 1072 | |
---|
[2007] | 1073 | ! Main differences convect3/convect4: |
---|
| 1074 | ! - icbs (input) is the first level above LCL (may differ from icb) |
---|
| 1075 | ! - many minor differences in the iterations |
---|
| 1076 | ! - condensed water not removed from tvp in convect3 |
---|
| 1077 | ! - vertical profile of buoyancy computed here (use of buoybase) |
---|
| 1078 | ! - the determination of inb is different |
---|
| 1079 | ! - no inb1, only inb in output |
---|
| 1080 | ! --------------------------------------------------------------------- |
---|
[524] | 1081 | |
---|
[1992] | 1082 | include "cvthermo.h" |
---|
| 1083 | include "cv3param.h" |
---|
| 1084 | include "conema3.h" |
---|
| 1085 | include "cvflag.h" |
---|
[2420] | 1086 | include "YOMCST2.h" |
---|
[524] | 1087 | |
---|
[2007] | 1088 | !inputs: |
---|
[2253] | 1089 | INTEGER, INTENT (IN) :: ncum, nd, nloc |
---|
| 1090 | INTEGER, DIMENSION (nloc), INTENT (IN) :: icb, icbs, nk |
---|
| 1091 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t, q, qs, gz |
---|
| 1092 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: p |
---|
[2420] | 1093 | REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: ph |
---|
[2253] | 1094 | REAL, DIMENSION (nloc), INTENT (IN) :: tnk, qnk, gznk |
---|
| 1095 | REAL, DIMENSION (nloc), INTENT (IN) :: hnk |
---|
| 1096 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: lv, lf, tv, h |
---|
| 1097 | REAL, DIMENSION (nloc), INTENT (IN) :: pbase, buoybase, plcl |
---|
[524] | 1098 | |
---|
[2253] | 1099 | !input/outputs: |
---|
| 1100 | REAL, DIMENSION (nloc, nd), INTENT (INOUT) :: tp, tvp, clw ! Input for k = 1, icb+1 (computed in cv3_undilute1) |
---|
| 1101 | ! Output above |
---|
| 1102 | |
---|
[2007] | 1103 | !outputs: |
---|
[2253] | 1104 | INTEGER, DIMENSION (nloc), INTENT (OUT) :: inb |
---|
| 1105 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: ep, sigp, hp |
---|
| 1106 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: buoy |
---|
[2376] | 1107 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: frac |
---|
[524] | 1108 | |
---|
[2007] | 1109 | !local variables: |
---|
[2253] | 1110 | INTEGER i, j, k |
---|
[1992] | 1111 | REAL tg, qg, ahg, alv, alf, s, tc, es, esi, denom, rg, tca, elacrit |
---|
| 1112 | REAL als |
---|
| 1113 | REAL qsat_new, snew, qi(nloc, nd) |
---|
| 1114 | REAL by, defrac, pden, tbis |
---|
| 1115 | REAL ah0(nloc), cape(nloc), capem(nloc), byp(nloc) |
---|
| 1116 | LOGICAL lcape(nloc) |
---|
| 1117 | INTEGER iposit(nloc) |
---|
| 1118 | REAL fracg |
---|
[2420] | 1119 | REAL deltap |
---|
[524] | 1120 | |
---|
[2007] | 1121 | ! ===================================================================== |
---|
| 1122 | ! --- SOME INITIALIZATIONS |
---|
| 1123 | ! ===================================================================== |
---|
[524] | 1124 | |
---|
[1992] | 1125 | DO k = 1, nl |
---|
| 1126 | DO i = 1, ncum |
---|
| 1127 | qi(i, k) = 0. |
---|
| 1128 | END DO |
---|
| 1129 | END DO |
---|
[524] | 1130 | |
---|
[2007] | 1131 | ! ===================================================================== |
---|
| 1132 | ! --- FIND THE REST OF THE LIFTED PARCEL TEMPERATURES |
---|
| 1133 | ! ===================================================================== |
---|
[524] | 1134 | |
---|
[2007] | 1135 | ! --- The procedure is to solve the equation. |
---|
| 1136 | ! cp*tp+L*qp+phi=cp*tnk+L*qnk+gznk. |
---|
[524] | 1137 | |
---|
[2007] | 1138 | ! *** Calculate certain parcel quantities, including static energy *** |
---|
[524] | 1139 | |
---|
| 1140 | |
---|
[1992] | 1141 | DO i = 1, ncum |
---|
[2007] | 1142 | ah0(i) = (cpd*(1.-qnk(i))+cl*qnk(i))*tnk(i)+ & |
---|
| 1143 | ! debug qnk(i)*(lv0-clmcpv*(tnk(i)-t0))+gznk(i) |
---|
| 1144 | qnk(i)*(lv0-clmcpv*(tnk(i)-273.15)) + gznk(i) |
---|
[1992] | 1145 | END DO |
---|
[524] | 1146 | |
---|
| 1147 | |
---|
[2007] | 1148 | ! *** Find lifted parcel quantities above cloud base *** |
---|
[524] | 1149 | |
---|
| 1150 | |
---|
[1992] | 1151 | DO k = minorig + 1, nl |
---|
| 1152 | DO i = 1, ncum |
---|
[2007] | 1153 | ! ori if(k.ge.(icb(i)+1))then |
---|
| 1154 | IF (k>=(icbs(i)+1)) THEN ! convect3 |
---|
[1992] | 1155 | tg = t(i, k) |
---|
| 1156 | qg = qs(i, k) |
---|
[2007] | 1157 | ! debug alv=lv0-clmcpv*(t(i,k)-t0) |
---|
[1992] | 1158 | alv = lv0 - clmcpv*(t(i,k)-273.15) |
---|
[524] | 1159 | |
---|
[2007] | 1160 | ! First iteration. |
---|
[524] | 1161 | |
---|
[2007] | 1162 | ! ori s=cpd+alv*alv*qg/(rrv*t(i,k)*t(i,k)) |
---|
| 1163 | s = cpd*(1.-qnk(i)) + cl*qnk(i) + & ! convect3 |
---|
| 1164 | alv*alv*qg/(rrv*t(i,k)*t(i,k)) ! convect3 |
---|
[1992] | 1165 | s = 1./s |
---|
[2007] | 1166 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*t(i,k)+alv*qg+gz(i,k) |
---|
[1992] | 1167 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gz(i, k) ! convect3 |
---|
| 1168 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 1169 | ! ori tg=max(tg,35.0) |
---|
| 1170 | ! debug tc=tg-t0 |
---|
[1992] | 1171 | tc = tg - 273.15 |
---|
| 1172 | denom = 243.5 + tc |
---|
[2007] | 1173 | denom = max(denom, 1.0) ! convect3 |
---|
| 1174 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 1175 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 1176 | ! ori else |
---|
| 1177 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 1178 | ! ori endif |
---|
[1992] | 1179 | qg = eps*es/(p(i,k)-es*(1.-eps)) |
---|
[524] | 1180 | |
---|
[2007] | 1181 | ! Second iteration. |
---|
[524] | 1182 | |
---|
[2007] | 1183 | ! ori s=cpd+alv*alv*qg/(rrv*t(i,k)*t(i,k)) |
---|
| 1184 | ! ori s=1./s |
---|
| 1185 | ! ori ahg=cpd*tg+(cl-cpd)*qnk(i)*t(i,k)+alv*qg+gz(i,k) |
---|
[1992] | 1186 | ahg = cpd*tg + (cl-cpd)*qnk(i)*tg + alv*qg + gz(i, k) ! convect3 |
---|
| 1187 | tg = tg + s*(ah0(i)-ahg) |
---|
[2007] | 1188 | ! ori tg=max(tg,35.0) |
---|
| 1189 | ! debug tc=tg-t0 |
---|
[1992] | 1190 | tc = tg - 273.15 |
---|
| 1191 | denom = 243.5 + tc |
---|
[2007] | 1192 | denom = max(denom, 1.0) ! convect3 |
---|
| 1193 | ! ori if(tc.ge.0.0)then |
---|
[1992] | 1194 | es = 6.112*exp(17.67*tc/denom) |
---|
[2007] | 1195 | ! ori else |
---|
| 1196 | ! ori es=exp(23.33086-6111.72784/tg+0.15215*log(tg)) |
---|
| 1197 | ! ori endif |
---|
[1992] | 1198 | qg = eps*es/(p(i,k)-es*(1.-eps)) |
---|
[524] | 1199 | |
---|
[2007] | 1200 | ! debug alv=lv0-clmcpv*(t(i,k)-t0) |
---|
[1992] | 1201 | alv = lv0 - clmcpv*(t(i,k)-273.15) |
---|
[2007] | 1202 | ! print*,'cpd dans convect2 ',cpd |
---|
| 1203 | ! print*,'tp(i,k),ah0(i),cl,cpd,qnk(i),t(i,k),gz(i,k),alv,qg,cpd' |
---|
| 1204 | ! print*,tp(i,k),ah0(i),cl,cpd,qnk(i),t(i,k),gz(i,k),alv,qg,cpd |
---|
[524] | 1205 | |
---|
[2007] | 1206 | ! ori c approximation here: |
---|
| 1207 | ! ori tp(i,k)=(ah0(i)-(cl-cpd)*qnk(i)*t(i,k)-gz(i,k)-alv*qg)/cpd |
---|
[524] | 1208 | |
---|
[2007] | 1209 | ! convect3: no approximation: |
---|
[1992] | 1210 | IF (cvflag_ice) THEN |
---|
| 1211 | tp(i, k) = max(0., (ah0(i)-gz(i,k)-alv*qg)/(cpd+(cl-cpd)*qnk(i))) |
---|
| 1212 | ELSE |
---|
| 1213 | tp(i, k) = (ah0(i)-gz(i,k)-alv*qg)/(cpd+(cl-cpd)*qnk(i)) |
---|
| 1214 | END IF |
---|
[524] | 1215 | |
---|
[1992] | 1216 | clw(i, k) = qnk(i) - qg |
---|
| 1217 | clw(i, k) = max(0.0, clw(i,k)) |
---|
| 1218 | rg = qg/(1.-qnk(i)) |
---|
[2007] | 1219 | ! ori tvp(i,k)=tp(i,k)*(1.+rg*epsi) |
---|
| 1220 | ! convect3: (qg utilise au lieu du vrai mixing ratio rg): |
---|
[1992] | 1221 | tvp(i, k) = tp(i, k)*(1.+qg/eps-qnk(i)) ! whole thing |
---|
| 1222 | IF (cvflag_ice) THEN |
---|
| 1223 | IF (clw(i,k)<1.E-11) THEN |
---|
| 1224 | tp(i, k) = tv(i, k) |
---|
| 1225 | tvp(i, k) = tv(i, k) |
---|
| 1226 | END IF |
---|
| 1227 | END IF |
---|
[2253] | 1228 | !jyg< |
---|
| 1229 | !! END IF ! Endif moved to the end of the loop |
---|
| 1230 | !>jyg |
---|
[524] | 1231 | |
---|
[1992] | 1232 | IF (cvflag_ice) THEN |
---|
[2007] | 1233 | !CR:attention boucle en klon dans Icefrac |
---|
| 1234 | ! Call Icefrac(t,clw,qi,nl,nloc) |
---|
[1992] | 1235 | IF (t(i,k)>263.15) THEN |
---|
| 1236 | qi(i, k) = 0. |
---|
| 1237 | ELSE |
---|
| 1238 | IF (t(i,k)<243.15) THEN |
---|
| 1239 | qi(i, k) = clw(i, k) |
---|
| 1240 | ELSE |
---|
| 1241 | fracg = (263.15-t(i,k))/20 |
---|
| 1242 | qi(i, k) = clw(i, k)*fracg |
---|
| 1243 | END IF |
---|
| 1244 | END IF |
---|
[2007] | 1245 | !CR: fin test |
---|
[1992] | 1246 | IF (t(i,k)<263.15) THEN |
---|
[2007] | 1247 | !CR: on commente les calculs d'Arnaud car division par zero |
---|
| 1248 | ! nouveau calcul propose par JYG |
---|
| 1249 | ! alv=lv0-clmcpv*(t(i,k)-273.15) |
---|
| 1250 | ! alf=lf0-clmci*(t(i,k)-273.15) |
---|
| 1251 | ! tg=tp(i,k) |
---|
| 1252 | ! tc=tp(i,k)-273.15 |
---|
| 1253 | ! denom=243.5+tc |
---|
| 1254 | ! do j=1,3 |
---|
| 1255 | ! cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
| 1256 | ! il faudra que esi vienne en argument de la convection |
---|
| 1257 | ! cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
| 1258 | ! tbis=t(i,k)+(tp(i,k)-tg) |
---|
| 1259 | ! esi=exp(23.33086-(6111.72784/tbis) + & |
---|
| 1260 | ! 0.15215*log(tbis)) |
---|
| 1261 | ! qsat_new=eps*esi/(p(i,k)-esi*(1.-eps)) |
---|
| 1262 | ! snew=cpd*(1.-qnk(i))+cl*qnk(i)+alv*alv*qsat_new/ & |
---|
| 1263 | ! (rrv*tbis*tbis) |
---|
| 1264 | ! snew=1./snew |
---|
| 1265 | ! print*,esi,qsat_new,snew,'esi,qsat,snew' |
---|
| 1266 | ! tp(i,k)=tg+(alf*qi(i,k)+alv*qg*(1.-(esi/es)))*snew |
---|
| 1267 | ! print*,k,tp(i,k),qnk(i),'avec glace' |
---|
| 1268 | ! print*,'tpNAN',tg,alf,qi(i,k),alv,qg,esi,es,snew |
---|
| 1269 | ! enddo |
---|
[524] | 1270 | |
---|
[1992] | 1271 | alv = lv0 - clmcpv*(t(i,k)-273.15) |
---|
| 1272 | alf = lf0 + clmci*(t(i,k)-273.15) |
---|
| 1273 | als = alf + alv |
---|
| 1274 | tg = tp(i, k) |
---|
| 1275 | tp(i, k) = t(i, k) |
---|
| 1276 | DO j = 1, 3 |
---|
| 1277 | esi = exp(23.33086-(6111.72784/tp(i,k))+0.15215*log(tp(i,k))) |
---|
| 1278 | qsat_new = eps*esi/(p(i,k)-esi*(1.-eps)) |
---|
[2007] | 1279 | snew = cpd*(1.-qnk(i)) + cl*qnk(i) + alv*als*qsat_new/ & |
---|
| 1280 | (rrv*tp(i,k)*tp(i,k)) |
---|
[1992] | 1281 | snew = 1./snew |
---|
[2007] | 1282 | ! c print*,esi,qsat_new,snew,'esi,qsat,snew' |
---|
| 1283 | tp(i, k) = tp(i, k) + & |
---|
| 1284 | ((cpd*(1.-qnk(i))+cl*qnk(i))*(tg-tp(i,k)) + & |
---|
| 1285 | alv*(qg-qsat_new)+alf*qi(i,k))*snew |
---|
| 1286 | ! print*,k,tp(i,k),qsat_new,qnk(i),qi(i,k), & |
---|
| 1287 | ! 'k,tp,q,qt,qi avec glace' |
---|
[1992] | 1288 | END DO |
---|
[524] | 1289 | |
---|
[2007] | 1290 | !CR:reprise du code AJ |
---|
[1992] | 1291 | clw(i, k) = qnk(i) - qsat_new |
---|
| 1292 | clw(i, k) = max(0.0, clw(i,k)) |
---|
| 1293 | tvp(i, k) = max(0., tp(i,k)*(1.+qsat_new/eps-qnk(i))) |
---|
[2007] | 1294 | ! print*,tvp(i,k),'tvp' |
---|
[1992] | 1295 | END IF |
---|
| 1296 | IF (clw(i,k)<1.E-11) THEN |
---|
| 1297 | tp(i, k) = tv(i, k) |
---|
| 1298 | tvp(i, k) = tv(i, k) |
---|
| 1299 | END IF |
---|
| 1300 | END IF ! (cvflag_ice) |
---|
[2253] | 1301 | !jyg< |
---|
| 1302 | END IF ! (k>=(icbs(i)+1)) |
---|
| 1303 | !>jyg |
---|
[1992] | 1304 | END DO |
---|
| 1305 | END DO |
---|
[1849] | 1306 | |
---|
[2007] | 1307 | ! ===================================================================== |
---|
| 1308 | ! --- SET THE PRECIPITATION EFFICIENCIES AND THE FRACTION OF |
---|
| 1309 | ! --- PRECIPITATION FALLING OUTSIDE OF CLOUD |
---|
| 1310 | ! --- THESE MAY BE FUNCTIONS OF TP(I), P(I) AND CLW(I) |
---|
| 1311 | ! ===================================================================== |
---|
[2253] | 1312 | ! |
---|
| 1313 | !jyg< |
---|
| 1314 | DO k = 1, nl |
---|
| 1315 | DO i = 1, ncum |
---|
| 1316 | ep(i, k) = 0.0 |
---|
| 1317 | sigp(i, k) = spfac |
---|
| 1318 | END DO |
---|
| 1319 | END DO |
---|
| 1320 | !>jyg |
---|
| 1321 | ! |
---|
[1992] | 1322 | IF (flag_epkeorig/=1) THEN |
---|
| 1323 | DO k = 1, nl ! convect3 |
---|
| 1324 | DO i = 1, ncum |
---|
[2253] | 1325 | !jyg< |
---|
| 1326 | IF(k>=icb(i)) THEN |
---|
| 1327 | !>jyg |
---|
| 1328 | pden = ptcrit - pbcrit |
---|
| 1329 | ep(i, k) = (plcl(i)-p(i,k)-pbcrit)/pden*epmax |
---|
| 1330 | ep(i, k) = max(ep(i,k), 0.0) |
---|
| 1331 | ep(i, k) = min(ep(i,k), epmax) |
---|
| 1332 | !! sigp(i, k) = spfac ! jyg |
---|
| 1333 | ENDIF ! (k>=icb(i)) |
---|
[1992] | 1334 | END DO |
---|
| 1335 | END DO |
---|
| 1336 | ELSE |
---|
| 1337 | DO k = 1, nl |
---|
| 1338 | DO i = 1, ncum |
---|
[2253] | 1339 | IF(k>=icb(i)) THEN |
---|
| 1340 | !! IF (k>=(nk(i)+1)) THEN |
---|
| 1341 | !>jyg |
---|
[1992] | 1342 | tca = tp(i, k) - t0 |
---|
| 1343 | IF (tca>=0.0) THEN |
---|
| 1344 | elacrit = elcrit |
---|
| 1345 | ELSE |
---|
| 1346 | elacrit = elcrit*(1.0-tca/tlcrit) |
---|
| 1347 | END IF |
---|
| 1348 | elacrit = max(elacrit, 0.0) |
---|
| 1349 | ep(i, k) = 1.0 - elacrit/max(clw(i,k), 1.0E-8) |
---|
| 1350 | ep(i, k) = max(ep(i,k), 0.0) |
---|
| 1351 | ep(i, k) = min(ep(i,k), epmax) |
---|
[2253] | 1352 | !! sigp(i, k) = spfac ! jyg |
---|
| 1353 | END IF ! (k>=icb(i)) |
---|
[1992] | 1354 | END DO |
---|
| 1355 | END DO |
---|
| 1356 | END IF |
---|
[2253] | 1357 | ! |
---|
[2007] | 1358 | ! ===================================================================== |
---|
| 1359 | ! --- CALCULATE VIRTUAL TEMPERATURE AND LIFTED PARCEL |
---|
| 1360 | ! --- VIRTUAL TEMPERATURE |
---|
| 1361 | ! ===================================================================== |
---|
[1849] | 1362 | |
---|
[2007] | 1363 | ! dans convect3, tvp est calcule en une seule fois, et sans retirer |
---|
| 1364 | ! l'eau condensee (~> reversible CAPE) |
---|
[1849] | 1365 | |
---|
[2007] | 1366 | ! ori do 340 k=minorig+1,nl |
---|
| 1367 | ! ori do 330 i=1,ncum |
---|
| 1368 | ! ori if(k.ge.(icb(i)+1))then |
---|
| 1369 | ! ori tvp(i,k)=tvp(i,k)*(1.0-qnk(i)+ep(i,k)*clw(i,k)) |
---|
| 1370 | ! oric print*,'i,k,tvp(i,k),qnk(i),ep(i,k),clw(i,k)' |
---|
| 1371 | ! oric print*, i,k,tvp(i,k),qnk(i),ep(i,k),clw(i,k) |
---|
| 1372 | ! ori endif |
---|
| 1373 | ! ori 330 continue |
---|
| 1374 | ! ori 340 continue |
---|
[524] | 1375 | |
---|
[2007] | 1376 | ! ori do 350 i=1,ncum |
---|
| 1377 | ! ori tvp(i,nlp)=tvp(i,nl)-(gz(i,nlp)-gz(i,nl))/cpd |
---|
| 1378 | ! ori 350 continue |
---|
[524] | 1379 | |
---|
[2007] | 1380 | DO i = 1, ncum ! convect3 |
---|
| 1381 | tp(i, nlp) = tp(i, nl) ! convect3 |
---|
| 1382 | END DO ! convect3 |
---|
[524] | 1383 | |
---|
[2007] | 1384 | ! ===================================================================== |
---|
| 1385 | ! --- EFFECTIVE VERTICAL PROFILE OF BUOYANCY (convect3 only): |
---|
| 1386 | ! ===================================================================== |
---|
[524] | 1387 | |
---|
[2007] | 1388 | ! -- this is for convect3 only: |
---|
[524] | 1389 | |
---|
[2007] | 1390 | ! first estimate of buoyancy: |
---|
[879] | 1391 | |
---|
[2257] | 1392 | !jyg : k-loop outside i-loop (07042015) |
---|
| 1393 | DO k = 1, nl |
---|
| 1394 | DO i = 1, ncum |
---|
[1992] | 1395 | buoy(i, k) = tvp(i, k) - tv(i, k) |
---|
| 1396 | END DO |
---|
| 1397 | END DO |
---|
[524] | 1398 | |
---|
[2007] | 1399 | ! set buoyancy=buoybase for all levels below base |
---|
| 1400 | ! for safety, set buoy(icb)=buoybase |
---|
[524] | 1401 | |
---|
[2257] | 1402 | !jyg : k-loop outside i-loop (07042015) |
---|
| 1403 | DO k = 1, nl |
---|
| 1404 | DO i = 1, ncum |
---|
[1992] | 1405 | IF ((k>=icb(i)) .AND. (k<=nl) .AND. (p(i,k)>=pbase(i))) THEN |
---|
| 1406 | buoy(i, k) = buoybase(i) |
---|
| 1407 | END IF |
---|
| 1408 | END DO |
---|
[2257] | 1409 | END DO |
---|
| 1410 | DO i = 1, ncum |
---|
[2007] | 1411 | ! buoy(icb(i),k)=buoybase(i) |
---|
[1992] | 1412 | buoy(i, icb(i)) = buoybase(i) |
---|
| 1413 | END DO |
---|
[524] | 1414 | |
---|
[2007] | 1415 | ! -- end convect3 |
---|
[524] | 1416 | |
---|
[2007] | 1417 | ! ===================================================================== |
---|
| 1418 | ! --- FIND THE FIRST MODEL LEVEL (INB) ABOVE THE PARCEL'S |
---|
| 1419 | ! --- LEVEL OF NEUTRAL BUOYANCY |
---|
| 1420 | ! ===================================================================== |
---|
[524] | 1421 | |
---|
[2007] | 1422 | ! -- this is for convect3 only: |
---|
[524] | 1423 | |
---|
[1992] | 1424 | DO i = 1, ncum |
---|
| 1425 | inb(i) = nl - 1 |
---|
| 1426 | iposit(i) = nl |
---|
| 1427 | END DO |
---|
[524] | 1428 | |
---|
| 1429 | |
---|
[2007] | 1430 | ! -- iposit(i) = first level, above icb, with positive buoyancy |
---|
[1992] | 1431 | DO k = 1, nl - 1 |
---|
| 1432 | DO i = 1, ncum |
---|
| 1433 | IF (k>=icb(i) .AND. buoy(i,k)>0.) THEN |
---|
| 1434 | iposit(i) = min(iposit(i), k) |
---|
| 1435 | END IF |
---|
| 1436 | END DO |
---|
| 1437 | END DO |
---|
[1849] | 1438 | |
---|
[1992] | 1439 | DO i = 1, ncum |
---|
| 1440 | IF (iposit(i)==nl) THEN |
---|
| 1441 | iposit(i) = icb(i) |
---|
| 1442 | END IF |
---|
| 1443 | END DO |
---|
[1849] | 1444 | |
---|
[1992] | 1445 | DO k = 1, nl - 1 |
---|
| 1446 | DO i = 1, ncum |
---|
| 1447 | IF ((k>=iposit(i)) .AND. (buoy(i,k)<dtovsh)) THEN |
---|
| 1448 | inb(i) = min(inb(i), k) |
---|
| 1449 | END IF |
---|
| 1450 | END DO |
---|
| 1451 | END DO |
---|
[1849] | 1452 | |
---|
[2420] | 1453 | !CR fix computation of inb |
---|
| 1454 | !keep flag or modify in all cases? |
---|
| 1455 | IF (iflag_mix_adiab.eq.1) THEN |
---|
| 1456 | DO i = 1, ncum |
---|
| 1457 | cape(i)=0. |
---|
| 1458 | inb(i)=icb(i)+1 |
---|
| 1459 | ENDDO |
---|
| 1460 | |
---|
| 1461 | DO k = 2, nl |
---|
| 1462 | DO i = 1, ncum |
---|
| 1463 | IF ((k>=iposit(i))) THEN |
---|
| 1464 | deltap = min(plcl(i), ph(i,k-1)) - min(plcl(i), ph(i,k)) |
---|
| 1465 | cape(i) = cape(i) + rrd*buoy(i, k-1)*deltap/p(i, k-1) |
---|
| 1466 | IF (cape(i).gt.0.) THEN |
---|
| 1467 | inb(i) = max(inb(i), k) |
---|
| 1468 | END IF |
---|
| 1469 | ENDIF |
---|
| 1470 | ENDDO |
---|
| 1471 | ENDDO |
---|
| 1472 | |
---|
| 1473 | ! DO i = 1, ncum |
---|
| 1474 | ! print*,"inb",inb(i) |
---|
| 1475 | ! ENDDO |
---|
| 1476 | |
---|
| 1477 | endif |
---|
| 1478 | |
---|
[2007] | 1479 | ! -- end convect3 |
---|
[1849] | 1480 | |
---|
[2007] | 1481 | ! ori do 510 i=1,ncum |
---|
| 1482 | ! ori cape(i)=0.0 |
---|
| 1483 | ! ori capem(i)=0.0 |
---|
| 1484 | ! ori inb(i)=icb(i)+1 |
---|
| 1485 | ! ori inb1(i)=inb(i) |
---|
| 1486 | ! ori 510 continue |
---|
[524] | 1487 | |
---|
[2007] | 1488 | ! Originial Code |
---|
[524] | 1489 | |
---|
[2007] | 1490 | ! do 530 k=minorig+1,nl-1 |
---|
| 1491 | ! do 520 i=1,ncum |
---|
| 1492 | ! if(k.ge.(icb(i)+1))then |
---|
| 1493 | ! by=(tvp(i,k)-tv(i,k))*dph(i,k)/p(i,k) |
---|
| 1494 | ! byp=(tvp(i,k+1)-tv(i,k+1))*dph(i,k+1)/p(i,k+1) |
---|
| 1495 | ! cape(i)=cape(i)+by |
---|
| 1496 | ! if(by.ge.0.0)inb1(i)=k+1 |
---|
| 1497 | ! if(cape(i).gt.0.0)then |
---|
| 1498 | ! inb(i)=k+1 |
---|
| 1499 | ! capem(i)=cape(i) |
---|
| 1500 | ! endif |
---|
| 1501 | ! endif |
---|
| 1502 | !520 continue |
---|
| 1503 | !530 continue |
---|
| 1504 | ! do 540 i=1,ncum |
---|
| 1505 | ! byp=(tvp(i,nl)-tv(i,nl))*dph(i,nl)/p(i,nl) |
---|
| 1506 | ! cape(i)=capem(i)+byp |
---|
| 1507 | ! defrac=capem(i)-cape(i) |
---|
| 1508 | ! defrac=max(defrac,0.001) |
---|
| 1509 | ! frac(i)=-cape(i)/defrac |
---|
| 1510 | ! frac(i)=min(frac(i),1.0) |
---|
| 1511 | ! frac(i)=max(frac(i),0.0) |
---|
| 1512 | !540 continue |
---|
[524] | 1513 | |
---|
[2007] | 1514 | ! K Emanuel fix |
---|
[524] | 1515 | |
---|
[2007] | 1516 | ! call zilch(byp,ncum) |
---|
| 1517 | ! do 530 k=minorig+1,nl-1 |
---|
| 1518 | ! do 520 i=1,ncum |
---|
| 1519 | ! if(k.ge.(icb(i)+1))then |
---|
| 1520 | ! by=(tvp(i,k)-tv(i,k))*dph(i,k)/p(i,k) |
---|
| 1521 | ! cape(i)=cape(i)+by |
---|
| 1522 | ! if(by.ge.0.0)inb1(i)=k+1 |
---|
| 1523 | ! if(cape(i).gt.0.0)then |
---|
| 1524 | ! inb(i)=k+1 |
---|
| 1525 | ! capem(i)=cape(i) |
---|
| 1526 | ! byp(i)=(tvp(i,k+1)-tv(i,k+1))*dph(i,k+1)/p(i,k+1) |
---|
| 1527 | ! endif |
---|
| 1528 | ! endif |
---|
| 1529 | !520 continue |
---|
| 1530 | !530 continue |
---|
| 1531 | ! do 540 i=1,ncum |
---|
| 1532 | ! inb(i)=max(inb(i),inb1(i)) |
---|
| 1533 | ! cape(i)=capem(i)+byp(i) |
---|
| 1534 | ! defrac=capem(i)-cape(i) |
---|
| 1535 | ! defrac=max(defrac,0.001) |
---|
| 1536 | ! frac(i)=-cape(i)/defrac |
---|
| 1537 | ! frac(i)=min(frac(i),1.0) |
---|
| 1538 | ! frac(i)=max(frac(i),0.0) |
---|
| 1539 | !540 continue |
---|
[524] | 1540 | |
---|
[2007] | 1541 | ! J Teixeira fix |
---|
[524] | 1542 | |
---|
[2007] | 1543 | ! ori call zilch(byp,ncum) |
---|
| 1544 | ! ori do 515 i=1,ncum |
---|
| 1545 | ! ori lcape(i)=.true. |
---|
| 1546 | ! ori 515 continue |
---|
| 1547 | ! ori do 530 k=minorig+1,nl-1 |
---|
| 1548 | ! ori do 520 i=1,ncum |
---|
| 1549 | ! ori if(cape(i).lt.0.0)lcape(i)=.false. |
---|
| 1550 | ! ori if((k.ge.(icb(i)+1)).and.lcape(i))then |
---|
| 1551 | ! ori by=(tvp(i,k)-tv(i,k))*dph(i,k)/p(i,k) |
---|
| 1552 | ! ori byp(i)=(tvp(i,k+1)-tv(i,k+1))*dph(i,k+1)/p(i,k+1) |
---|
| 1553 | ! ori cape(i)=cape(i)+by |
---|
| 1554 | ! ori if(by.ge.0.0)inb1(i)=k+1 |
---|
| 1555 | ! ori if(cape(i).gt.0.0)then |
---|
| 1556 | ! ori inb(i)=k+1 |
---|
| 1557 | ! ori capem(i)=cape(i) |
---|
| 1558 | ! ori endif |
---|
| 1559 | ! ori endif |
---|
| 1560 | ! ori 520 continue |
---|
| 1561 | ! ori 530 continue |
---|
| 1562 | ! ori do 540 i=1,ncum |
---|
| 1563 | ! ori cape(i)=capem(i)+byp(i) |
---|
| 1564 | ! ori defrac=capem(i)-cape(i) |
---|
| 1565 | ! ori defrac=max(defrac,0.001) |
---|
| 1566 | ! ori frac(i)=-cape(i)/defrac |
---|
| 1567 | ! ori frac(i)=min(frac(i),1.0) |
---|
| 1568 | ! ori frac(i)=max(frac(i),0.0) |
---|
| 1569 | ! ori 540 continue |
---|
[524] | 1570 | |
---|
[2007] | 1571 | ! ===================================================================== |
---|
| 1572 | ! --- CALCULATE LIQUID WATER STATIC ENERGY OF LIFTED PARCEL |
---|
| 1573 | ! ===================================================================== |
---|
[524] | 1574 | |
---|
[2393] | 1575 | DO k = 1, nl |
---|
[1992] | 1576 | DO i = 1, ncum |
---|
| 1577 | hp(i, k) = h(i, k) |
---|
| 1578 | END DO |
---|
| 1579 | END DO |
---|
[524] | 1580 | |
---|
[2257] | 1581 | !jyg : cvflag_ice test outside the loops (07042015) |
---|
| 1582 | ! |
---|
| 1583 | IF (cvflag_ice) THEN |
---|
| 1584 | ! |
---|
| 1585 | DO k = minorig + 1, nl |
---|
| 1586 | DO i = 1, ncum |
---|
| 1587 | IF ((k>=icb(i)) .AND. (k<=inb(i))) THEN |
---|
[1992] | 1588 | frac(i, k) = 1. - (t(i,k)-243.15)/(263.15-243.15) |
---|
| 1589 | frac(i, k) = min(max(frac(i,k),0.0), 1.0) |
---|
[2007] | 1590 | hp(i, k) = hnk(i) + (lv(i,k)+(cpd-cpv)*t(i,k)+frac(i,k)*lf(i,k))* & |
---|
| 1591 | ep(i, k)*clw(i, k) |
---|
[2257] | 1592 | END IF |
---|
| 1593 | END DO |
---|
| 1594 | END DO |
---|
[2376] | 1595 | ! Below cloud base, set ice fraction to cloud base value |
---|
| 1596 | DO k = 1, nl |
---|
| 1597 | DO i = 1, ncum |
---|
| 1598 | IF (k<icb(i)) THEN |
---|
| 1599 | frac(i,k) = frac(i,icb(i)) |
---|
| 1600 | END IF |
---|
| 1601 | END DO |
---|
| 1602 | END DO |
---|
[2257] | 1603 | ! |
---|
| 1604 | ELSE |
---|
| 1605 | ! |
---|
| 1606 | DO k = minorig + 1, nl |
---|
| 1607 | DO i = 1, ncum |
---|
| 1608 | IF ((k>=icb(i)) .AND. (k<=inb(i))) THEN |
---|
[1992] | 1609 | hp(i, k) = hnk(i) + (lv(i,k)+(cpd-cpv)*t(i,k))*ep(i, k)*clw(i, k) |
---|
| 1610 | END IF |
---|
[2257] | 1611 | END DO |
---|
[1992] | 1612 | END DO |
---|
[2257] | 1613 | ! |
---|
| 1614 | END IF ! (cvflag_ice) |
---|
[524] | 1615 | |
---|
[1992] | 1616 | RETURN |
---|
| 1617 | END SUBROUTINE cv3_undilute2 |
---|
[524] | 1618 | |
---|
[2007] | 1619 | SUBROUTINE cv3_closure(nloc, ncum, nd, icb, inb, & |
---|
| 1620 | pbase, p, ph, tv, buoy, & |
---|
| 1621 | sig, w0, cape, m, iflag) |
---|
[1992] | 1622 | IMPLICIT NONE |
---|
[524] | 1623 | |
---|
[2007] | 1624 | ! =================================================================== |
---|
| 1625 | ! --- CLOSURE OF CONVECT3 |
---|
| 1626 | ! |
---|
| 1627 | ! vectorization: S. Bony |
---|
| 1628 | ! =================================================================== |
---|
[524] | 1629 | |
---|
[1992] | 1630 | include "cvthermo.h" |
---|
| 1631 | include "cv3param.h" |
---|
[524] | 1632 | |
---|
[2007] | 1633 | !input: |
---|
[1992] | 1634 | INTEGER ncum, nd, nloc |
---|
| 1635 | INTEGER icb(nloc), inb(nloc) |
---|
| 1636 | REAL pbase(nloc) |
---|
| 1637 | REAL p(nloc, nd), ph(nloc, nd+1) |
---|
| 1638 | REAL tv(nloc, nd), buoy(nloc, nd) |
---|
[524] | 1639 | |
---|
[2007] | 1640 | !input/output: |
---|
[1992] | 1641 | REAL sig(nloc, nd), w0(nloc, nd) |
---|
| 1642 | INTEGER iflag(nloc) |
---|
[524] | 1643 | |
---|
[2007] | 1644 | !output: |
---|
[1992] | 1645 | REAL cape(nloc) |
---|
| 1646 | REAL m(nloc, nd) |
---|
[524] | 1647 | |
---|
[2007] | 1648 | !local variables: |
---|
[1992] | 1649 | INTEGER i, j, k, icbmax |
---|
| 1650 | REAL deltap, fac, w, amu |
---|
| 1651 | REAL dtmin(nloc, nd), sigold(nloc, nd) |
---|
| 1652 | REAL cbmflast(nloc) |
---|
[524] | 1653 | |
---|
[776] | 1654 | |
---|
[2007] | 1655 | ! ------------------------------------------------------- |
---|
| 1656 | ! -- Initialization |
---|
| 1657 | ! ------------------------------------------------------- |
---|
[524] | 1658 | |
---|
[1992] | 1659 | DO k = 1, nl |
---|
| 1660 | DO i = 1, ncum |
---|
| 1661 | m(i, k) = 0.0 |
---|
| 1662 | END DO |
---|
| 1663 | END DO |
---|
[524] | 1664 | |
---|
[2007] | 1665 | ! ------------------------------------------------------- |
---|
| 1666 | ! -- Reset sig(i) and w0(i) for i>inb and i<icb |
---|
| 1667 | ! ------------------------------------------------------- |
---|
[524] | 1668 | |
---|
[2007] | 1669 | ! update sig and w0 above LNB: |
---|
[879] | 1670 | |
---|
[1992] | 1671 | DO k = 1, nl - 1 |
---|
| 1672 | DO i = 1, ncum |
---|
| 1673 | IF ((inb(i)<(nl-1)) .AND. (k>=(inb(i)+1))) THEN |
---|
[2007] | 1674 | sig(i, k) = beta*sig(i, k) + & |
---|
| 1675 | 2.*alpha*buoy(i, inb(i))*abs(buoy(i,inb(i))) |
---|
[1992] | 1676 | sig(i, k) = amax1(sig(i,k), 0.0) |
---|
| 1677 | w0(i, k) = beta*w0(i, k) |
---|
| 1678 | END IF |
---|
| 1679 | END DO |
---|
| 1680 | END DO |
---|
[1494] | 1681 | |
---|
[2007] | 1682 | ! compute icbmax: |
---|
[524] | 1683 | |
---|
[1992] | 1684 | icbmax = 2 |
---|
| 1685 | DO i = 1, ncum |
---|
| 1686 | icbmax = max(icbmax, icb(i)) |
---|
| 1687 | END DO |
---|
[524] | 1688 | |
---|
[2007] | 1689 | ! update sig and w0 below cloud base: |
---|
[1494] | 1690 | |
---|
[1992] | 1691 | DO k = 1, icbmax |
---|
| 1692 | DO i = 1, ncum |
---|
| 1693 | IF (k<=icb(i)) THEN |
---|
[2007] | 1694 | sig(i, k) = beta*sig(i, k) - & |
---|
| 1695 | 2.*alpha*buoy(i, icb(i))*buoy(i, icb(i)) |
---|
[1992] | 1696 | sig(i, k) = max(sig(i,k), 0.0) |
---|
| 1697 | w0(i, k) = beta*w0(i, k) |
---|
| 1698 | END IF |
---|
| 1699 | END DO |
---|
| 1700 | END DO |
---|
[524] | 1701 | |
---|
[2007] | 1702 | !! if(inb.lt.(nl-1))then |
---|
| 1703 | !! do 85 i=inb+1,nl-1 |
---|
| 1704 | !! sig(i)=beta*sig(i)+2.*alpha*buoy(inb)* |
---|
| 1705 | !! 1 abs(buoy(inb)) |
---|
| 1706 | !! sig(i)=max(sig(i),0.0) |
---|
| 1707 | !! w0(i)=beta*w0(i) |
---|
| 1708 | !! 85 continue |
---|
| 1709 | !! end if |
---|
[524] | 1710 | |
---|
[2007] | 1711 | !! do 87 i=1,icb |
---|
| 1712 | !! sig(i)=beta*sig(i)-2.*alpha*buoy(icb)*buoy(icb) |
---|
| 1713 | !! sig(i)=max(sig(i),0.0) |
---|
| 1714 | !! w0(i)=beta*w0(i) |
---|
| 1715 | !! 87 continue |
---|
[524] | 1716 | |
---|
[2007] | 1717 | ! ------------------------------------------------------------- |
---|
| 1718 | ! -- Reset fractional areas of updrafts and w0 at initial time |
---|
| 1719 | ! -- and after 10 time steps of no convection |
---|
| 1720 | ! ------------------------------------------------------------- |
---|
[524] | 1721 | |
---|
[1992] | 1722 | DO k = 1, nl - 1 |
---|
| 1723 | DO i = 1, ncum |
---|
| 1724 | IF (sig(i,nd)<1.5 .OR. sig(i,nd)>12.0) THEN |
---|
| 1725 | sig(i, k) = 0.0 |
---|
| 1726 | w0(i, k) = 0.0 |
---|
| 1727 | END IF |
---|
| 1728 | END DO |
---|
| 1729 | END DO |
---|
[524] | 1730 | |
---|
[2007] | 1731 | ! ------------------------------------------------------------- |
---|
| 1732 | ! -- Calculate convective available potential energy (cape), |
---|
| 1733 | ! -- vertical velocity (w), fractional area covered by |
---|
| 1734 | ! -- undilute updraft (sig), and updraft mass flux (m) |
---|
| 1735 | ! ------------------------------------------------------------- |
---|
[1849] | 1736 | |
---|
[1992] | 1737 | DO i = 1, ncum |
---|
| 1738 | cape(i) = 0.0 |
---|
| 1739 | END DO |
---|
[1849] | 1740 | |
---|
[2007] | 1741 | ! compute dtmin (minimum buoyancy between ICB and given level k): |
---|
[1849] | 1742 | |
---|
[1992] | 1743 | DO i = 1, ncum |
---|
| 1744 | DO k = 1, nl |
---|
| 1745 | dtmin(i, k) = 100.0 |
---|
| 1746 | END DO |
---|
| 1747 | END DO |
---|
[524] | 1748 | |
---|
[1992] | 1749 | DO i = 1, ncum |
---|
| 1750 | DO k = 1, nl |
---|
| 1751 | DO j = minorig, nl |
---|
[2007] | 1752 | IF ((k>=(icb(i)+1)) .AND. (k<=inb(i)) .AND. (j>=icb(i)) .AND. (j<=(k-1))) THEN |
---|
[1992] | 1753 | dtmin(i, k) = amin1(dtmin(i,k), buoy(i,j)) |
---|
| 1754 | END IF |
---|
| 1755 | END DO |
---|
| 1756 | END DO |
---|
| 1757 | END DO |
---|
[1849] | 1758 | |
---|
[2007] | 1759 | ! the interval on which cape is computed starts at pbase : |
---|
[1849] | 1760 | |
---|
[1992] | 1761 | DO k = 1, nl |
---|
| 1762 | DO i = 1, ncum |
---|
[1849] | 1763 | |
---|
[1992] | 1764 | IF ((k>=(icb(i)+1)) .AND. (k<=inb(i))) THEN |
---|
[1849] | 1765 | |
---|
[1992] | 1766 | deltap = min(pbase(i), ph(i,k-1)) - min(pbase(i), ph(i,k)) |
---|
| 1767 | cape(i) = cape(i) + rrd*buoy(i, k-1)*deltap/p(i, k-1) |
---|
| 1768 | cape(i) = amax1(0.0, cape(i)) |
---|
| 1769 | sigold(i, k) = sig(i, k) |
---|
[1849] | 1770 | |
---|
[2007] | 1771 | ! dtmin(i,k)=100.0 |
---|
| 1772 | ! do 97 j=icb(i),k-1 ! mauvaise vectorisation |
---|
| 1773 | ! dtmin(i,k)=AMIN1(dtmin(i,k),buoy(i,j)) |
---|
| 1774 | ! 97 continue |
---|
[1849] | 1775 | |
---|
[1992] | 1776 | sig(i, k) = beta*sig(i, k) + alpha*dtmin(i, k)*abs(dtmin(i,k)) |
---|
| 1777 | sig(i, k) = max(sig(i,k), 0.0) |
---|
| 1778 | sig(i, k) = amin1(sig(i,k), 0.01) |
---|
| 1779 | fac = amin1(((dtcrit-dtmin(i,k))/dtcrit), 1.0) |
---|
| 1780 | w = (1.-beta)*fac*sqrt(cape(i)) + beta*w0(i, k) |
---|
| 1781 | amu = 0.5*(sig(i,k)+sigold(i,k))*w |
---|
| 1782 | m(i, k) = amu*0.007*p(i, k)*(ph(i,k)-ph(i,k+1))/tv(i, k) |
---|
| 1783 | w0(i, k) = w |
---|
| 1784 | END IF |
---|
[1849] | 1785 | |
---|
[1992] | 1786 | END DO |
---|
| 1787 | END DO |
---|
[1849] | 1788 | |
---|
[1992] | 1789 | DO i = 1, ncum |
---|
| 1790 | w0(i, icb(i)) = 0.5*w0(i, icb(i)+1) |
---|
[2007] | 1791 | m(i, icb(i)) = 0.5*m(i, icb(i)+1)*(ph(i,icb(i))-ph(i,icb(i)+1))/(ph(i,icb(i)+1)-ph(i,icb(i)+2)) |
---|
[1992] | 1792 | sig(i, icb(i)) = sig(i, icb(i)+1) |
---|
| 1793 | sig(i, icb(i)-1) = sig(i, icb(i)) |
---|
| 1794 | END DO |
---|
[1849] | 1795 | |
---|
[2007] | 1796 | ! ccc 3. Compute final cloud base mass flux and set iflag to 3 if |
---|
| 1797 | ! ccc cloud base mass flux is exceedingly small and is decreasing (i.e. if |
---|
| 1798 | ! ccc the final mass flux (cbmflast) is greater than the target mass flux |
---|
| 1799 | ! ccc (cbmf) ??). |
---|
| 1800 | ! cc |
---|
| 1801 | ! c do i = 1,ncum |
---|
| 1802 | ! c cbmflast(i) = 0. |
---|
| 1803 | ! c enddo |
---|
| 1804 | ! cc |
---|
| 1805 | ! c do k= 1,nl |
---|
| 1806 | ! c do i = 1,ncum |
---|
| 1807 | ! c IF (k .ge. icb(i) .and. k .le. inb(i)) THEN |
---|
| 1808 | ! c cbmflast(i) = cbmflast(i)+M(i,k) |
---|
| 1809 | ! c ENDIF |
---|
| 1810 | ! c enddo |
---|
| 1811 | ! c enddo |
---|
| 1812 | ! cc |
---|
| 1813 | ! c do i = 1,ncum |
---|
| 1814 | ! c IF (cbmflast(i) .lt. 1.e-6) THEN |
---|
| 1815 | ! c iflag(i) = 3 |
---|
| 1816 | ! c ENDIF |
---|
| 1817 | ! c enddo |
---|
| 1818 | ! cc |
---|
| 1819 | ! c do k= 1,nl |
---|
| 1820 | ! c do i = 1,ncum |
---|
| 1821 | ! c IF (iflag(i) .ge. 3) THEN |
---|
| 1822 | ! c M(i,k) = 0. |
---|
| 1823 | ! c sig(i,k) = 0. |
---|
| 1824 | ! c w0(i,k) = 0. |
---|
| 1825 | ! c ENDIF |
---|
| 1826 | ! c enddo |
---|
| 1827 | ! c enddo |
---|
| 1828 | ! cc |
---|
| 1829 | !! cape=0.0 |
---|
| 1830 | !! do 98 i=icb+1,inb |
---|
| 1831 | !! deltap = min(pbase,ph(i-1))-min(pbase,ph(i)) |
---|
| 1832 | !! cape=cape+rrd*buoy(i-1)*deltap/p(i-1) |
---|
| 1833 | !! dcape=rrd*buoy(i-1)*deltap/p(i-1) |
---|
| 1834 | !! dlnp=deltap/p(i-1) |
---|
| 1835 | !! cape=max(0.0,cape) |
---|
| 1836 | !! sigold=sig(i) |
---|
[1849] | 1837 | |
---|
[2007] | 1838 | !! dtmin=100.0 |
---|
| 1839 | !! do 97 j=icb,i-1 |
---|
| 1840 | !! dtmin=amin1(dtmin,buoy(j)) |
---|
| 1841 | !! 97 continue |
---|
[1849] | 1842 | |
---|
[2007] | 1843 | !! sig(i)=beta*sig(i)+alpha*dtmin*abs(dtmin) |
---|
| 1844 | !! sig(i)=max(sig(i),0.0) |
---|
| 1845 | !! sig(i)=amin1(sig(i),0.01) |
---|
| 1846 | !! fac=amin1(((dtcrit-dtmin)/dtcrit),1.0) |
---|
| 1847 | !! w=(1.-beta)*fac*sqrt(cape)+beta*w0(i) |
---|
| 1848 | !! amu=0.5*(sig(i)+sigold)*w |
---|
| 1849 | !! m(i)=amu*0.007*p(i)*(ph(i)-ph(i+1))/tv(i) |
---|
| 1850 | !! w0(i)=w |
---|
| 1851 | !! 98 continue |
---|
| 1852 | !! w0(icb)=0.5*w0(icb+1) |
---|
| 1853 | !! m(icb)=0.5*m(icb+1)*(ph(icb)-ph(icb+1))/(ph(icb+1)-ph(icb+2)) |
---|
| 1854 | !! sig(icb)=sig(icb+1) |
---|
| 1855 | !! sig(icb-1)=sig(icb) |
---|
[1849] | 1856 | |
---|
[1992] | 1857 | RETURN |
---|
| 1858 | END SUBROUTINE cv3_closure |
---|
[1849] | 1859 | |
---|
[2007] | 1860 | SUBROUTINE cv3_mixing(nloc, ncum, nd, na, ntra, icb, nk, inb, & |
---|
| 1861 | ph, t, rr, rs, u, v, tra, h, lv, lf, frac, qnk, & |
---|
| 1862 | unk, vnk, hp, tv, tvp, ep, clw, m, sig, & |
---|
| 1863 | ment, qent, uent, vent, nent, sij, elij, ments, qents, traent) |
---|
[1992] | 1864 | IMPLICIT NONE |
---|
[1849] | 1865 | |
---|
[2007] | 1866 | ! --------------------------------------------------------------------- |
---|
| 1867 | ! a faire: |
---|
| 1868 | ! - vectorisation de la partie normalisation des flux (do 789...) |
---|
| 1869 | ! --------------------------------------------------------------------- |
---|
[524] | 1870 | |
---|
[1992] | 1871 | include "cvthermo.h" |
---|
| 1872 | include "cv3param.h" |
---|
| 1873 | include "cvflag.h" |
---|
[524] | 1874 | |
---|
[2007] | 1875 | !inputs: |
---|
[2253] | 1876 | INTEGER, INTENT (IN) :: ncum, nd, na, ntra, nloc |
---|
| 1877 | INTEGER, DIMENSION (nloc), INTENT (IN) :: icb, inb, nk |
---|
| 1878 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: sig |
---|
| 1879 | REAL, DIMENSION (nloc), INTENT (IN) :: qnk, unk, vnk |
---|
| 1880 | REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: ph |
---|
| 1881 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t, rr, rs |
---|
| 1882 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: u, v |
---|
| 1883 | REAL, DIMENSION (nloc, nd, ntra), INTENT (IN) :: tra ! input of convect3 |
---|
| 1884 | REAL, DIMENSION (nloc, na), INTENT (IN) :: lv, h, hp |
---|
| 1885 | REAL, DIMENSION (nloc, na), INTENT (IN) :: lf, frac |
---|
| 1886 | REAL, DIMENSION (nloc, na), INTENT (IN) :: tv, tvp, ep, clw |
---|
| 1887 | REAL, DIMENSION (nloc, na), INTENT (IN) :: m ! input of convect3 |
---|
[524] | 1888 | |
---|
[2007] | 1889 | !outputs: |
---|
[2253] | 1890 | REAL, DIMENSION (nloc, na, na), INTENT (OUT) :: ment, qent |
---|
| 1891 | REAL, DIMENSION (nloc, na, na), INTENT (OUT) :: uent, vent |
---|
| 1892 | REAL, DIMENSION (nloc, na, na), INTENT (OUT) :: sij, elij |
---|
| 1893 | REAL, DIMENSION (nloc, nd, nd, ntra), INTENT (OUT) :: traent |
---|
| 1894 | REAL, DIMENSION (nloc, nd, nd), INTENT (OUT) :: ments, qents |
---|
| 1895 | INTEGER, DIMENSION (nloc, nd), INTENT (OUT) :: nent |
---|
[524] | 1896 | |
---|
[2007] | 1897 | !local variables: |
---|
[1992] | 1898 | INTEGER i, j, k, il, im, jm |
---|
| 1899 | INTEGER num1, num2 |
---|
| 1900 | REAL rti, bf2, anum, denom, dei, altem, cwat, stemp, qp |
---|
| 1901 | REAL alt, smid, sjmin, sjmax, delp, delm |
---|
| 1902 | REAL asij(nloc), smax(nloc), scrit(nloc) |
---|
| 1903 | REAL asum(nloc, nd), bsum(nloc, nd), csum(nloc, nd) |
---|
[2253] | 1904 | REAL sigij(nloc, nd, nd) |
---|
[1992] | 1905 | REAL wgh |
---|
| 1906 | REAL zm(nloc, na) |
---|
| 1907 | LOGICAL lwork(nloc) |
---|
[524] | 1908 | |
---|
[2007] | 1909 | ! ===================================================================== |
---|
| 1910 | ! --- INITIALIZE VARIOUS ARRAYS USED IN THE COMPUTATIONS |
---|
| 1911 | ! ===================================================================== |
---|
[524] | 1912 | |
---|
[2007] | 1913 | ! ori do 360 i=1,ncum*nlp |
---|
[1992] | 1914 | DO j = 1, nl |
---|
| 1915 | DO i = 1, ncum |
---|
| 1916 | nent(i, j) = 0 |
---|
[2007] | 1917 | ! in convect3, m is computed in cv3_closure |
---|
| 1918 | ! ori m(i,1)=0.0 |
---|
[1992] | 1919 | END DO |
---|
| 1920 | END DO |
---|
[524] | 1921 | |
---|
[2007] | 1922 | ! ori do 400 k=1,nlp |
---|
| 1923 | ! ori do 390 j=1,nlp |
---|
[1992] | 1924 | DO j = 1, nl |
---|
[2459] | 1925 | DO k = 1, nl |
---|
| 1926 | DO i = 1, ncum |
---|
| 1927 | qent(i, k, j) = rr(i, j) |
---|
| 1928 | uent(i, k, j) = u(i, j) |
---|
| 1929 | vent(i, k, j) = v(i, j) |
---|
| 1930 | elij(i, k, j) = 0.0 |
---|
| 1931 | !ym ment(i,k,j)=0.0 |
---|
| 1932 | !ym sij(i,k,j)=0.0 |
---|
| 1933 | END DO |
---|
| 1934 | END DO |
---|
[1992] | 1935 | END DO |
---|
[524] | 1936 | |
---|
[2007] | 1937 | !ym |
---|
[1992] | 1938 | ment(1:ncum, 1:nd, 1:nd) = 0.0 |
---|
| 1939 | sij(1:ncum, 1:nd, 1:nd) = 0.0 |
---|
[524] | 1940 | |
---|
[2007] | 1941 | !AC! do k=1,ntra |
---|
| 1942 | !AC! do j=1,nd ! instead nlp |
---|
| 1943 | !AC! do i=1,nd ! instead nlp |
---|
| 1944 | !AC! do il=1,ncum |
---|
| 1945 | !AC! traent(il,i,j,k)=tra(il,j,k) |
---|
| 1946 | !AC! enddo |
---|
| 1947 | !AC! enddo |
---|
| 1948 | !AC! enddo |
---|
| 1949 | !AC! enddo |
---|
[1992] | 1950 | zm(:, :) = 0. |
---|
[524] | 1951 | |
---|
[2007] | 1952 | ! ===================================================================== |
---|
| 1953 | ! --- CALCULATE ENTRAINED AIR MASS FLUX (ment), TOTAL WATER MIXING |
---|
| 1954 | ! --- RATIO (QENT), TOTAL CONDENSED WATER (elij), AND MIXING |
---|
| 1955 | ! --- FRACTION (sij) |
---|
| 1956 | ! ===================================================================== |
---|
[524] | 1957 | |
---|
[1992] | 1958 | DO i = minorig + 1, nl |
---|
[524] | 1959 | |
---|
[1992] | 1960 | DO j = minorig, nl |
---|
| 1961 | DO il = 1, ncum |
---|
[2007] | 1962 | IF ((i>=icb(il)) .AND. (i<=inb(il)) .AND. (j>=(icb(il)-1)) .AND. (j<=inb(il))) THEN |
---|
[524] | 1963 | |
---|
[1992] | 1964 | rti = qnk(il) - ep(il, i)*clw(il, i) |
---|
| 1965 | bf2 = 1. + lv(il, j)*lv(il, j)*rs(il, j)/(rrv*t(il,j)*t(il,j)*cpd) |
---|
[524] | 1966 | |
---|
| 1967 | |
---|
[1992] | 1968 | IF (cvflag_ice) THEN |
---|
[2007] | 1969 | ! print*,cvflag_ice,'cvflag_ice dans do 700' |
---|
[1992] | 1970 | IF (t(il,j)<=263.15) THEN |
---|
[2007] | 1971 | bf2 = 1. + (lf(il,j)+lv(il,j))*(lv(il,j)+frac(il,j)* & |
---|
| 1972 | lf(il,j))*rs(il, j)/(rrv*t(il,j)*t(il,j)*cpd) |
---|
[1992] | 1973 | END IF |
---|
| 1974 | END IF |
---|
[524] | 1975 | |
---|
[1992] | 1976 | anum = h(il, j) - hp(il, i) + (cpv-cpd)*t(il, j)*(rti-rr(il,j)) |
---|
| 1977 | denom = h(il, i) - hp(il, i) + (cpd-cpv)*(rr(il,i)-rti)*t(il, j) |
---|
| 1978 | dei = denom |
---|
| 1979 | IF (abs(dei)<0.01) dei = 0.01 |
---|
| 1980 | sij(il, i, j) = anum/dei |
---|
| 1981 | sij(il, i, i) = 1.0 |
---|
| 1982 | altem = sij(il, i, j)*rr(il, i) + (1.-sij(il,i,j))*rti - rs(il, j) |
---|
| 1983 | altem = altem/bf2 |
---|
| 1984 | cwat = clw(il, j)*(1.-ep(il,j)) |
---|
| 1985 | stemp = sij(il, i, j) |
---|
| 1986 | IF ((stemp<0.0 .OR. stemp>1.0 .OR. altem>cwat) .AND. j>i) THEN |
---|
[524] | 1987 | |
---|
[1992] | 1988 | IF (cvflag_ice) THEN |
---|
[2007] | 1989 | anum = anum - (lv(il,j)+frac(il,j)*lf(il,j))*(rti-rs(il,j)-cwat*bf2) |
---|
[1992] | 1990 | denom = denom + (lv(il,j)+frac(il,j)*lf(il,j))*(rr(il,i)-rti) |
---|
| 1991 | ELSE |
---|
| 1992 | anum = anum - lv(il, j)*(rti-rs(il,j)-cwat*bf2) |
---|
| 1993 | denom = denom + lv(il, j)*(rr(il,i)-rti) |
---|
| 1994 | END IF |
---|
[524] | 1995 | |
---|
[1992] | 1996 | IF (abs(denom)<0.01) denom = 0.01 |
---|
| 1997 | sij(il, i, j) = anum/denom |
---|
[2007] | 1998 | altem = sij(il, i, j)*rr(il, i) + (1.-sij(il,i,j))*rti - rs(il, j) |
---|
[1992] | 1999 | altem = altem - (bf2-1.)*cwat |
---|
| 2000 | END IF |
---|
| 2001 | IF (sij(il,i,j)>0.0 .AND. sij(il,i,j)<0.95) THEN |
---|
| 2002 | qent(il, i, j) = sij(il, i, j)*rr(il, i) + (1.-sij(il,i,j))*rti |
---|
[2007] | 2003 | uent(il, i, j) = sij(il, i, j)*u(il, i) + (1.-sij(il,i,j))*unk(il) |
---|
| 2004 | vent(il, i, j) = sij(il, i, j)*v(il, i) + (1.-sij(il,i,j))*vnk(il) |
---|
| 2005 | !!!! do k=1,ntra |
---|
| 2006 | !!!! traent(il,i,j,k)=sij(il,i,j)*tra(il,i,k) |
---|
| 2007 | !!!! : +(1.-sij(il,i,j))*tra(il,nk(il),k) |
---|
| 2008 | !!!! end do |
---|
[1992] | 2009 | elij(il, i, j) = altem |
---|
| 2010 | elij(il, i, j) = max(0.0, elij(il,i,j)) |
---|
| 2011 | ment(il, i, j) = m(il, i)/(1.-sij(il,i,j)) |
---|
| 2012 | nent(il, i) = nent(il, i) + 1 |
---|
| 2013 | END IF |
---|
| 2014 | sij(il, i, j) = max(0.0, sij(il,i,j)) |
---|
| 2015 | sij(il, i, j) = amin1(1.0, sij(il,i,j)) |
---|
| 2016 | END IF ! new |
---|
| 2017 | END DO |
---|
| 2018 | END DO |
---|
[524] | 2019 | |
---|
[2007] | 2020 | !AC! do k=1,ntra |
---|
| 2021 | !AC! do j=minorig,nl |
---|
| 2022 | !AC! do il=1,ncum |
---|
| 2023 | !AC! if( (i.ge.icb(il)).and.(i.le.inb(il)).and. |
---|
| 2024 | !AC! : (j.ge.(icb(il)-1)).and.(j.le.inb(il)))then |
---|
| 2025 | !AC! traent(il,i,j,k)=sij(il,i,j)*tra(il,i,k) |
---|
| 2026 | !AC! : +(1.-sij(il,i,j))*tra(il,nk(il),k) |
---|
| 2027 | !AC! endif |
---|
| 2028 | !AC! enddo |
---|
| 2029 | !AC! enddo |
---|
| 2030 | !AC! enddo |
---|
[524] | 2031 | |
---|
| 2032 | |
---|
[2007] | 2033 | ! *** if no air can entrain at level i assume that updraft detrains *** |
---|
| 2034 | ! *** at that level and calculate detrained air flux and properties *** |
---|
[524] | 2035 | |
---|
| 2036 | |
---|
[2007] | 2037 | ! @ do 170 i=icb(il),inb(il) |
---|
[524] | 2038 | |
---|
[1992] | 2039 | DO il = 1, ncum |
---|
| 2040 | IF ((i>=icb(il)) .AND. (i<=inb(il)) .AND. (nent(il,i)==0)) THEN |
---|
[2007] | 2041 | ! @ if(nent(il,i).eq.0)then |
---|
[1992] | 2042 | ment(il, i, i) = m(il, i) |
---|
| 2043 | qent(il, i, i) = qnk(il) - ep(il, i)*clw(il, i) |
---|
| 2044 | uent(il, i, i) = unk(il) |
---|
| 2045 | vent(il, i, i) = vnk(il) |
---|
| 2046 | elij(il, i, i) = clw(il, i) |
---|
[2007] | 2047 | ! MAF sij(il,i,i)=1.0 |
---|
[1992] | 2048 | sij(il, i, i) = 0.0 |
---|
| 2049 | END IF |
---|
| 2050 | END DO |
---|
| 2051 | END DO |
---|
[879] | 2052 | |
---|
[2007] | 2053 | !AC! do j=1,ntra |
---|
| 2054 | !AC! do i=minorig+1,nl |
---|
| 2055 | !AC! do il=1,ncum |
---|
| 2056 | !AC! if (i.ge.icb(il) .and. i.le.inb(il) .and. nent(il,i).eq.0) then |
---|
| 2057 | !AC! traent(il,i,i,j)=tra(il,nk(il),j) |
---|
| 2058 | !AC! endif |
---|
| 2059 | !AC! enddo |
---|
| 2060 | !AC! enddo |
---|
| 2061 | !AC! enddo |
---|
[879] | 2062 | |
---|
[1992] | 2063 | DO j = minorig, nl |
---|
| 2064 | DO i = minorig, nl |
---|
| 2065 | DO il = 1, ncum |
---|
[2007] | 2066 | IF ((j>=(icb(il)-1)) .AND. (j<=inb(il)) .AND. (i>=icb(il)) .AND. (i<=inb(il))) THEN |
---|
[1992] | 2067 | sigij(il, i, j) = sij(il, i, j) |
---|
| 2068 | END IF |
---|
| 2069 | END DO |
---|
| 2070 | END DO |
---|
| 2071 | END DO |
---|
[2007] | 2072 | ! @ enddo |
---|
[879] | 2073 | |
---|
[2007] | 2074 | ! @170 continue |
---|
[524] | 2075 | |
---|
[2007] | 2076 | ! ===================================================================== |
---|
| 2077 | ! --- NORMALIZE ENTRAINED AIR MASS FLUXES |
---|
| 2078 | ! --- TO REPRESENT EQUAL PROBABILITIES OF MIXING |
---|
| 2079 | ! ===================================================================== |
---|
[970] | 2080 | |
---|
[1992] | 2081 | CALL zilch(asum, nloc*nd) |
---|
| 2082 | CALL zilch(csum, nloc*nd) |
---|
| 2083 | CALL zilch(csum, nloc*nd) |
---|
[524] | 2084 | |
---|
[1992] | 2085 | DO il = 1, ncum |
---|
| 2086 | lwork(il) = .FALSE. |
---|
| 2087 | END DO |
---|
[524] | 2088 | |
---|
[1992] | 2089 | DO i = minorig + 1, nl |
---|
[524] | 2090 | |
---|
[1992] | 2091 | num1 = 0 |
---|
| 2092 | DO il = 1, ncum |
---|
| 2093 | IF (i>=icb(il) .AND. i<=inb(il)) num1 = num1 + 1 |
---|
| 2094 | END DO |
---|
| 2095 | IF (num1<=0) GO TO 789 |
---|
[524] | 2096 | |
---|
[879] | 2097 | |
---|
[1992] | 2098 | DO il = 1, ncum |
---|
| 2099 | IF (i>=icb(il) .AND. i<=inb(il)) THEN |
---|
| 2100 | lwork(il) = (nent(il,i)/=0) |
---|
| 2101 | qp = qnk(il) - ep(il, i)*clw(il, i) |
---|
[524] | 2102 | |
---|
[1992] | 2103 | IF (cvflag_ice) THEN |
---|
[524] | 2104 | |
---|
[2007] | 2105 | anum = h(il, i) - hp(il, i) - (lv(il,i)+frac(il,i)*lf(il,i))* & |
---|
| 2106 | (qp-rs(il,i)) + (cpv-cpd)*t(il, i)*(qp-rr(il,i)) |
---|
| 2107 | denom = h(il, i) - hp(il, i) + (lv(il,i)+frac(il,i)*lf(il,i))* & |
---|
| 2108 | (rr(il,i)-qp) + (cpd-cpv)*t(il, i)*(rr(il,i)-qp) |
---|
[1992] | 2109 | ELSE |
---|
[879] | 2110 | |
---|
[1992] | 2111 | anum = h(il, i) - hp(il, i) - lv(il, i)*(qp-rs(il,i)) + & |
---|
[2007] | 2112 | (cpv-cpd)*t(il, i)*(qp-rr(il,i)) |
---|
[1992] | 2113 | denom = h(il, i) - hp(il, i) + lv(il, i)*(rr(il,i)-qp) + & |
---|
[2007] | 2114 | (cpd-cpv)*t(il, i)*(rr(il,i)-qp) |
---|
[1992] | 2115 | END IF |
---|
[524] | 2116 | |
---|
[1992] | 2117 | IF (abs(denom)<0.01) denom = 0.01 |
---|
| 2118 | scrit(il) = anum/denom |
---|
| 2119 | alt = qp - rs(il, i) + scrit(il)*(rr(il,i)-qp) |
---|
| 2120 | IF (scrit(il)<=0.0 .OR. alt<=0.0) scrit(il) = 1.0 |
---|
| 2121 | smax(il) = 0.0 |
---|
| 2122 | asij(il) = 0.0 |
---|
| 2123 | END IF |
---|
| 2124 | END DO |
---|
[524] | 2125 | |
---|
[1992] | 2126 | DO j = nl, minorig, -1 |
---|
[524] | 2127 | |
---|
[1992] | 2128 | num2 = 0 |
---|
| 2129 | DO il = 1, ncum |
---|
[2007] | 2130 | IF (i>=icb(il) .AND. i<=inb(il) .AND. & |
---|
| 2131 | j>=(icb(il)-1) .AND. j<=inb(il) .AND. & |
---|
| 2132 | lwork(il)) num2 = num2 + 1 |
---|
[1992] | 2133 | END DO |
---|
| 2134 | IF (num2<=0) GO TO 175 |
---|
[524] | 2135 | |
---|
[1992] | 2136 | DO il = 1, ncum |
---|
[2007] | 2137 | IF (i>=icb(il) .AND. i<=inb(il) .AND. & |
---|
| 2138 | j>=(icb(il)-1) .AND. j<=inb(il) .AND. & |
---|
| 2139 | lwork(il)) THEN |
---|
[524] | 2140 | |
---|
[1992] | 2141 | IF (sij(il,i,j)>1.0E-16 .AND. sij(il,i,j)<0.95) THEN |
---|
| 2142 | wgh = 1.0 |
---|
| 2143 | IF (j>i) THEN |
---|
| 2144 | sjmax = max(sij(il,i,j+1), smax(il)) |
---|
| 2145 | sjmax = amin1(sjmax, scrit(il)) |
---|
| 2146 | smax(il) = max(sij(il,i,j), smax(il)) |
---|
| 2147 | sjmin = max(sij(il,i,j-1), smax(il)) |
---|
| 2148 | sjmin = amin1(sjmin, scrit(il)) |
---|
| 2149 | IF (sij(il,i,j)<(smax(il)-1.0E-16)) wgh = 0.0 |
---|
| 2150 | smid = amin1(sij(il,i,j), scrit(il)) |
---|
| 2151 | ELSE |
---|
| 2152 | sjmax = max(sij(il,i,j+1), scrit(il)) |
---|
| 2153 | smid = max(sij(il,i,j), scrit(il)) |
---|
| 2154 | sjmin = 0.0 |
---|
| 2155 | IF (j>1) sjmin = sij(il, i, j-1) |
---|
| 2156 | sjmin = max(sjmin, scrit(il)) |
---|
| 2157 | END IF |
---|
| 2158 | delp = abs(sjmax-smid) |
---|
| 2159 | delm = abs(sjmin-smid) |
---|
| 2160 | asij(il) = asij(il) + wgh*(delp+delm) |
---|
| 2161 | ment(il, i, j) = ment(il, i, j)*(delp+delm)*wgh |
---|
| 2162 | END IF |
---|
| 2163 | END IF |
---|
| 2164 | END DO |
---|
[524] | 2165 | |
---|
[1992] | 2166 | 175 END DO |
---|
[524] | 2167 | |
---|
[1992] | 2168 | DO il = 1, ncum |
---|
| 2169 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il)) THEN |
---|
| 2170 | asij(il) = max(1.0E-16, asij(il)) |
---|
| 2171 | asij(il) = 1.0/asij(il) |
---|
| 2172 | asum(il, i) = 0.0 |
---|
| 2173 | bsum(il, i) = 0.0 |
---|
| 2174 | csum(il, i) = 0.0 |
---|
| 2175 | END IF |
---|
| 2176 | END DO |
---|
[524] | 2177 | |
---|
[1992] | 2178 | DO j = minorig, nl |
---|
| 2179 | DO il = 1, ncum |
---|
[2007] | 2180 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il) .AND. & |
---|
| 2181 | j>=(icb(il)-1) .AND. j<=inb(il)) THEN |
---|
[1992] | 2182 | ment(il, i, j) = ment(il, i, j)*asij(il) |
---|
| 2183 | END IF |
---|
| 2184 | END DO |
---|
| 2185 | END DO |
---|
[524] | 2186 | |
---|
[1992] | 2187 | DO j = minorig, nl |
---|
| 2188 | DO il = 1, ncum |
---|
[2007] | 2189 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il) .AND. & |
---|
| 2190 | j>=(icb(il)-1) .AND. j<=inb(il)) THEN |
---|
[1992] | 2191 | asum(il, i) = asum(il, i) + ment(il, i, j) |
---|
| 2192 | ment(il, i, j) = ment(il, i, j)*sig(il, j) |
---|
| 2193 | bsum(il, i) = bsum(il, i) + ment(il, i, j) |
---|
| 2194 | END IF |
---|
| 2195 | END DO |
---|
| 2196 | END DO |
---|
[1849] | 2197 | |
---|
[1992] | 2198 | DO il = 1, ncum |
---|
| 2199 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il)) THEN |
---|
| 2200 | bsum(il, i) = max(bsum(il,i), 1.0E-16) |
---|
| 2201 | bsum(il, i) = 1.0/bsum(il, i) |
---|
| 2202 | END IF |
---|
| 2203 | END DO |
---|
[1849] | 2204 | |
---|
[1992] | 2205 | DO j = minorig, nl |
---|
| 2206 | DO il = 1, ncum |
---|
[2007] | 2207 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il) .AND. & |
---|
| 2208 | j>=(icb(il)-1) .AND. j<=inb(il)) THEN |
---|
[1992] | 2209 | ment(il, i, j) = ment(il, i, j)*asum(il, i)*bsum(il, i) |
---|
| 2210 | END IF |
---|
| 2211 | END DO |
---|
| 2212 | END DO |
---|
[879] | 2213 | |
---|
[1992] | 2214 | DO j = minorig, nl |
---|
| 2215 | DO il = 1, ncum |
---|
[2007] | 2216 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il) .AND. & |
---|
| 2217 | j>=(icb(il)-1) .AND. j<=inb(il)) THEN |
---|
[1992] | 2218 | csum(il, i) = csum(il, i) + ment(il, i, j) |
---|
| 2219 | END IF |
---|
| 2220 | END DO |
---|
| 2221 | END DO |
---|
[1849] | 2222 | |
---|
[1992] | 2223 | DO il = 1, ncum |
---|
| 2224 | IF (i>=icb(il) .AND. i<=inb(il) .AND. lwork(il) .AND. & |
---|
| 2225 | csum(il,i)<m(il,i)) THEN |
---|
| 2226 | nent(il, i) = 0 |
---|
| 2227 | ment(il, i, i) = m(il, i) |
---|
| 2228 | qent(il, i, i) = qnk(il) - ep(il, i)*clw(il, i) |
---|
| 2229 | uent(il, i, i) = unk(il) |
---|
| 2230 | vent(il, i, i) = vnk(il) |
---|
| 2231 | elij(il, i, i) = clw(il, i) |
---|
[2007] | 2232 | ! MAF sij(il,i,i)=1.0 |
---|
[1992] | 2233 | sij(il, i, i) = 0.0 |
---|
| 2234 | END IF |
---|
| 2235 | END DO ! il |
---|
[1849] | 2236 | |
---|
[2007] | 2237 | !AC! do j=1,ntra |
---|
| 2238 | !AC! do il=1,ncum |
---|
| 2239 | !AC! if ( i.ge.icb(il) .and. i.le.inb(il) .and. lwork(il) |
---|
| 2240 | !AC! : .and. csum(il,i).lt.m(il,i) ) then |
---|
| 2241 | !AC! traent(il,i,i,j)=tra(il,nk(il),j) |
---|
| 2242 | !AC! endif |
---|
| 2243 | !AC! enddo |
---|
| 2244 | !AC! enddo |
---|
[1992] | 2245 | 789 END DO |
---|
[879] | 2246 | |
---|
[2007] | 2247 | ! MAF: renormalisation de MENT |
---|
[1992] | 2248 | CALL zilch(zm, nloc*na) |
---|
[2393] | 2249 | DO jm = 1, nl |
---|
[2459] | 2250 | DO im = 1, nl |
---|
| 2251 | DO il = 1, ncum |
---|
| 2252 | zm(il, im) = zm(il, im) + (1.-sij(il,im,jm))*ment(il, im, jm) |
---|
| 2253 | END DO |
---|
| 2254 | END DO |
---|
[1992] | 2255 | END DO |
---|
[524] | 2256 | |
---|
[2393] | 2257 | DO jm = 1, nl |
---|
| 2258 | DO im = 1, nl |
---|
[1992] | 2259 | DO il = 1, ncum |
---|
| 2260 | IF (zm(il,im)/=0.) THEN |
---|
| 2261 | ment(il, im, jm) = ment(il, im, jm)*m(il, im)/zm(il, im) |
---|
| 2262 | END IF |
---|
| 2263 | END DO |
---|
| 2264 | END DO |
---|
| 2265 | END DO |
---|
[524] | 2266 | |
---|
[2459] | 2267 | DO jm = 1, nl |
---|
| 2268 | DO im = 1, nl |
---|
| 2269 | DO il = 1, ncum |
---|
| 2270 | qents(il, im, jm) = qent(il, im, jm) |
---|
| 2271 | ments(il, im, jm) = ment(il, im, jm) |
---|
| 2272 | END DO |
---|
| 2273 | END DO |
---|
| 2274 | END DO |
---|
[524] | 2275 | |
---|
[1992] | 2276 | RETURN |
---|
| 2277 | END SUBROUTINE cv3_mixing |
---|
[879] | 2278 | |
---|
[2007] | 2279 | SUBROUTINE cv3_unsat(nloc, ncum, nd, na, ntra, icb, inb, iflag, & |
---|
| 2280 | t, rr, rs, gz, u, v, tra, p, ph, & |
---|
| 2281 | th, tv, lv, lf, cpn, ep, sigp, clw, & |
---|
| 2282 | m, ment, elij, delt, plcl, coef_clos, & |
---|
| 2283 | mp, rp, up, vp, trap, wt, water, evap, fondue, ice, & |
---|
| 2284 | faci, b, sigd, & |
---|
| 2285 | wdtrainA, wdtrainM) ! RomP |
---|
[2393] | 2286 | USE print_control_mod, ONLY: prt_level, lunout |
---|
[1992] | 2287 | IMPLICIT NONE |
---|
[879] | 2288 | |
---|
| 2289 | |
---|
[1992] | 2290 | include "cvthermo.h" |
---|
| 2291 | include "cv3param.h" |
---|
| 2292 | include "cvflag.h" |
---|
[2287] | 2293 | include "nuage.h" |
---|
[524] | 2294 | |
---|
[2007] | 2295 | !inputs: |
---|
[2393] | 2296 | INTEGER, INTENT (IN) :: ncum, nd, na, ntra, nloc |
---|
| 2297 | INTEGER, DIMENSION (nloc), INTENT (IN) :: icb, inb |
---|
| 2298 | REAL, INTENT(IN) :: delt |
---|
| 2299 | REAL, DIMENSION (nloc), INTENT (IN) :: plcl |
---|
| 2300 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t, rr, rs |
---|
| 2301 | REAL, DIMENSION (nloc, na), INTENT (IN) :: gz |
---|
| 2302 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: u, v |
---|
[1992] | 2303 | REAL tra(nloc, nd, ntra) |
---|
| 2304 | REAL p(nloc, nd), ph(nloc, nd+1) |
---|
[2393] | 2305 | REAL, DIMENSION (nloc, na), INTENT (IN) :: ep, sigp, clw |
---|
| 2306 | REAL, DIMENSION (nloc, na), INTENT (IN) :: th, tv, lv, cpn |
---|
| 2307 | REAL, DIMENSION (nloc, na), INTENT (IN) :: lf |
---|
| 2308 | REAL, DIMENSION (nloc, na), INTENT (IN) :: m |
---|
| 2309 | REAL, DIMENSION (nloc, na, na), INTENT (IN) :: ment, elij |
---|
| 2310 | REAL, DIMENSION (nloc), INTENT (IN) :: coef_clos |
---|
[524] | 2311 | |
---|
[2007] | 2312 | !input/output |
---|
[2393] | 2313 | INTEGER, DIMENSION (nloc), INTENT (INOUT) :: iflag(nloc) |
---|
[524] | 2314 | |
---|
[2007] | 2315 | !outputs: |
---|
[2393] | 2316 | REAL, DIMENSION (nloc, na), INTENT (OUT) :: mp, rp, up, vp |
---|
| 2317 | REAL, DIMENSION (nloc, na), INTENT (OUT) :: water, evap, wt |
---|
| 2318 | REAL, DIMENSION (nloc, na), INTENT (OUT) :: ice, fondue, faci |
---|
| 2319 | REAL, DIMENSION (nloc, na, ntra), INTENT (OUT) :: trap |
---|
| 2320 | REAL, DIMENSION (nloc, na), INTENT (OUT) :: b |
---|
| 2321 | REAL, DIMENSION (nloc), INTENT (OUT) :: sigd |
---|
[2007] | 2322 | ! 25/08/10 - RomP---- ajout des masses precipitantes ejectees |
---|
| 2323 | ! de l ascendance adiabatique et des flux melanges Pa et Pm. |
---|
| 2324 | ! Distinction des wdtrain |
---|
| 2325 | ! Pa = wdtrainA Pm = wdtrainM |
---|
[2393] | 2326 | REAL, DIMENSION (nloc, na), INTENT (OUT) :: wdtrainA, wdtrainM |
---|
[879] | 2327 | |
---|
[2007] | 2328 | !local variables |
---|
[1992] | 2329 | INTEGER i, j, k, il, num1, ndp1 |
---|
| 2330 | REAL tinv, delti, coef |
---|
| 2331 | REAL awat, afac, afac1, afac2, bfac |
---|
| 2332 | REAL pr1, pr2, sigt, b6, c6, d6, e6, f6, revap, delth |
---|
| 2333 | REAL amfac, amp2, xf, tf, fac2, ur, sru, fac, d, af, bf |
---|
| 2334 | REAL ampmax, thaw |
---|
| 2335 | REAL tevap(nloc) |
---|
| 2336 | REAL lvcp(nloc, na), lfcp(nloc, na) |
---|
| 2337 | REAL h(nloc, na), hm(nloc, na) |
---|
| 2338 | REAL frac(nloc, na) |
---|
| 2339 | REAL fraci(nloc, na), prec(nloc, na) |
---|
| 2340 | REAL wdtrain(nloc) |
---|
| 2341 | LOGICAL lwork(nloc), mplus(nloc) |
---|
[524] | 2342 | |
---|
| 2343 | |
---|
[2007] | 2344 | ! ------------------------------------------------------ |
---|
[524] | 2345 | |
---|
[2393] | 2346 | ! ============================= |
---|
| 2347 | ! --- INITIALIZE OUTPUT ARRAYS |
---|
| 2348 | ! ============================= |
---|
| 2349 | ! (loops up to nl+1) |
---|
[524] | 2350 | |
---|
[2393] | 2351 | DO i = 1, nlp |
---|
[1992] | 2352 | DO il = 1, ncum |
---|
| 2353 | mp(il, i) = 0.0 |
---|
| 2354 | rp(il, i) = rr(il, i) |
---|
| 2355 | up(il, i) = u(il, i) |
---|
| 2356 | vp(il, i) = v(il, i) |
---|
| 2357 | wt(il, i) = 0.001 |
---|
| 2358 | water(il, i) = 0.0 |
---|
| 2359 | faci(il, i) = 0.0 |
---|
| 2360 | ice(il, i) = 0.0 |
---|
| 2361 | fondue(il, i) = 0.0 |
---|
| 2362 | evap(il, i) = 0.0 |
---|
| 2363 | b(il, i) = 0.0 |
---|
[2393] | 2364 | END DO |
---|
| 2365 | END DO |
---|
| 2366 | !! RomP >>> |
---|
| 2367 | DO i = 1, nlp |
---|
| 2368 | DO il = 1, ncum |
---|
| 2369 | wdtrainA(il, i) = 0.0 |
---|
| 2370 | wdtrainM(il, i) = 0.0 |
---|
| 2371 | END DO |
---|
| 2372 | END DO |
---|
| 2373 | !! RomP <<< |
---|
| 2374 | |
---|
| 2375 | ! *** Set the fractionnal area sigd of precipitating downdraughts |
---|
| 2376 | DO il = 1, ncum |
---|
| 2377 | sigd(il) = sigdz*coef_clos(il) |
---|
| 2378 | END DO |
---|
| 2379 | |
---|
| 2380 | ! ===================================================================== |
---|
| 2381 | ! --- INITIALIZE VARIOUS ARRAYS AND PARAMETERS USED IN THE COMPUTATIONS |
---|
| 2382 | ! ===================================================================== |
---|
| 2383 | ! (loops up to nl+1) |
---|
| 2384 | |
---|
| 2385 | delti = 1./delt |
---|
| 2386 | tinv = 1./3. |
---|
| 2387 | |
---|
| 2388 | DO i = 1, nlp |
---|
| 2389 | DO il = 1, ncum |
---|
| 2390 | frac(il, i) = 0.0 |
---|
| 2391 | fraci(il, i) = 0.0 |
---|
| 2392 | prec(il, i) = 0.0 |
---|
[1992] | 2393 | lvcp(il, i) = lv(il, i)/cpn(il, i) |
---|
| 2394 | lfcp(il, i) = lf(il, i)/cpn(il, i) |
---|
| 2395 | END DO |
---|
| 2396 | END DO |
---|
[2393] | 2397 | |
---|
[2007] | 2398 | !AC! do k=1,ntra |
---|
| 2399 | !AC! do i=1,nd |
---|
| 2400 | !AC! do il=1,ncum |
---|
| 2401 | !AC! trap(il,i,k)=tra(il,i,k) |
---|
| 2402 | !AC! enddo |
---|
| 2403 | !AC! enddo |
---|
| 2404 | !AC! enddo |
---|
[524] | 2405 | |
---|
[2007] | 2406 | ! *** check whether ep(inb)=0, if so, skip precipitating *** |
---|
| 2407 | ! *** downdraft calculation *** |
---|
[524] | 2408 | |
---|
| 2409 | |
---|
[1992] | 2410 | DO il = 1, ncum |
---|
[2007] | 2411 | !! lwork(il)=.TRUE. |
---|
| 2412 | !! if(ep(il,inb(il)).lt.0.0001)lwork(il)=.FALSE. |
---|
[1992] | 2413 | lwork(il) = ep(il, inb(il)) >= 0.0001 |
---|
| 2414 | END DO |
---|
[524] | 2415 | |
---|
| 2416 | |
---|
[2007] | 2417 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
| 2418 | ! |
---|
| 2419 | ! *** begin downdraft loop *** |
---|
| 2420 | ! |
---|
| 2421 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
[524] | 2422 | |
---|
[1992] | 2423 | DO i = nl + 1, 1, -1 |
---|
[524] | 2424 | |
---|
[1992] | 2425 | num1 = 0 |
---|
| 2426 | DO il = 1, ncum |
---|
| 2427 | IF (i<=inb(il) .AND. lwork(il)) num1 = num1 + 1 |
---|
| 2428 | END DO |
---|
| 2429 | IF (num1<=0) GO TO 400 |
---|
[1146] | 2430 | |
---|
[1992] | 2431 | CALL zilch(wdtrain, ncum) |
---|
[1146] | 2432 | |
---|
| 2433 | |
---|
[2007] | 2434 | ! *** integrate liquid water equation to find condensed water *** |
---|
| 2435 | ! *** and condensed water flux *** |
---|
| 2436 | ! |
---|
| 2437 | ! |
---|
| 2438 | ! *** calculate detrained precipitation *** |
---|
[524] | 2439 | |
---|
[1992] | 2440 | DO il = 1, ncum |
---|
| 2441 | IF (i<=inb(il) .AND. lwork(il)) THEN |
---|
| 2442 | IF (cvflag_grav) THEN |
---|
| 2443 | wdtrain(il) = grav*ep(il, i)*m(il, i)*clw(il, i) |
---|
[2007] | 2444 | wdtrainA(il, i) = wdtrain(il)/grav ! Pa RomP |
---|
[1992] | 2445 | ELSE |
---|
| 2446 | wdtrain(il) = 10.0*ep(il, i)*m(il, i)*clw(il, i) |
---|
[2007] | 2447 | wdtrainA(il, i) = wdtrain(il)/10. ! Pa RomP |
---|
[1992] | 2448 | END IF |
---|
| 2449 | END IF |
---|
| 2450 | END DO |
---|
[524] | 2451 | |
---|
[1992] | 2452 | IF (i>1) THEN |
---|
| 2453 | DO j = 1, i - 1 |
---|
| 2454 | DO il = 1, ncum |
---|
| 2455 | IF (i<=inb(il) .AND. lwork(il)) THEN |
---|
| 2456 | awat = elij(il, j, i) - (1.-ep(il,i))*clw(il, i) |
---|
| 2457 | awat = max(awat, 0.0) |
---|
| 2458 | IF (cvflag_grav) THEN |
---|
| 2459 | wdtrain(il) = wdtrain(il) + grav*awat*ment(il, j, i) |
---|
[2007] | 2460 | wdtrainM(il, i) = wdtrain(il)/grav - wdtrainA(il, i) ! Pm RomP |
---|
[1992] | 2461 | ELSE |
---|
| 2462 | wdtrain(il) = wdtrain(il) + 10.0*awat*ment(il, j, i) |
---|
[2007] | 2463 | wdtrainM(il, i) = wdtrain(il)/10. - wdtrainA(il, i) ! Pm RomP |
---|
[1992] | 2464 | END IF |
---|
| 2465 | END IF |
---|
| 2466 | END DO |
---|
| 2467 | END DO |
---|
| 2468 | END IF |
---|
[524] | 2469 | |
---|
[1146] | 2470 | |
---|
[2007] | 2471 | ! *** find rain water and evaporation using provisional *** |
---|
| 2472 | ! *** estimates of rp(i)and rp(i-1) *** |
---|
[1146] | 2473 | |
---|
[1650] | 2474 | |
---|
[1992] | 2475 | DO il = 1, ncum |
---|
| 2476 | IF (i<=inb(il) .AND. lwork(il)) THEN |
---|
[524] | 2477 | |
---|
[1992] | 2478 | wt(il, i) = 45.0 |
---|
[524] | 2479 | |
---|
[1992] | 2480 | IF (cvflag_ice) THEN |
---|
| 2481 | frac(il, inb(il)) = 1. - (t(il,inb(il))-243.15)/(263.15-243.15) |
---|
| 2482 | frac(il, inb(il)) = min(max(frac(il,inb(il)),0.), 1.) |
---|
| 2483 | fraci(il, inb(il)) = frac(il, inb(il)) |
---|
| 2484 | ELSE |
---|
| 2485 | CONTINUE |
---|
| 2486 | END IF |
---|
[879] | 2487 | |
---|
[1992] | 2488 | IF (i<inb(il)) THEN |
---|
[524] | 2489 | |
---|
[1992] | 2490 | IF (cvflag_ice) THEN |
---|
[2287] | 2491 | !CR:tmax_fonte_cv: T for which ice is totally melted (used to be 275.15) |
---|
| 2492 | thaw = (t(il,i)-273.15)/(tmax_fonte_cv-273.15) |
---|
[1992] | 2493 | thaw = min(max(thaw,0.0), 1.0) |
---|
| 2494 | frac(il, i) = frac(il, i)*(1.-thaw) |
---|
| 2495 | ELSE |
---|
| 2496 | CONTINUE |
---|
| 2497 | END IF |
---|
[524] | 2498 | |
---|
[2007] | 2499 | rp(il, i) = rp(il, i+1) + & |
---|
| 2500 | (cpd*(t(il,i+1)-t(il,i))+gz(il,i+1)-gz(il,i))/lv(il, i) |
---|
[1992] | 2501 | rp(il, i) = 0.5*(rp(il,i)+rr(il,i)) |
---|
| 2502 | END IF |
---|
| 2503 | fraci(il, i) = 1. - (t(il,i)-243.15)/(263.15-243.15) |
---|
| 2504 | fraci(il, i) = min(max(fraci(il,i),0.0), 1.0) |
---|
| 2505 | rp(il, i) = max(rp(il,i), 0.0) |
---|
| 2506 | rp(il, i) = amin1(rp(il,i), rs(il,i)) |
---|
| 2507 | rp(il, inb(il)) = rr(il, inb(il)) |
---|
[524] | 2508 | |
---|
[1992] | 2509 | IF (i==1) THEN |
---|
| 2510 | afac = p(il, 1)*(rs(il,1)-rp(il,1))/(1.0E4+2000.0*p(il,1)*rs(il,1)) |
---|
| 2511 | IF (cvflag_ice) THEN |
---|
[2007] | 2512 | afac1 = p(il, i)*(rs(il,1)-rp(il,1))/(1.0E4+2000.0*p(il,1)*rs(il,1)) |
---|
[1992] | 2513 | END IF |
---|
| 2514 | ELSE |
---|
[2007] | 2515 | rp(il, i-1) = rp(il, i) + (cpd*(t(il,i)-t(il,i-1))+gz(il,i)-gz(il,i-1))/lv(il, i) |
---|
[1992] | 2516 | rp(il, i-1) = 0.5*(rp(il,i-1)+rr(il,i-1)) |
---|
| 2517 | rp(il, i-1) = amin1(rp(il,i-1), rs(il,i-1)) |
---|
| 2518 | rp(il, i-1) = max(rp(il,i-1), 0.0) |
---|
[2007] | 2519 | afac1 = p(il, i)*(rs(il,i)-rp(il,i))/(1.0E4+2000.0*p(il,i)*rs(il,i)) |
---|
| 2520 | afac2 = p(il, i-1)*(rs(il,i-1)-rp(il,i-1))/(1.0E4+2000.0*p(il,i-1)*rs(il,i-1)) |
---|
[1992] | 2521 | afac = 0.5*(afac1+afac2) |
---|
| 2522 | END IF |
---|
| 2523 | IF (i==inb(il)) afac = 0.0 |
---|
| 2524 | afac = max(afac, 0.0) |
---|
| 2525 | bfac = 1./(sigd(il)*wt(il,i)) |
---|
[524] | 2526 | |
---|
[2393] | 2527 | ! |
---|
| 2528 | IF (prt_level >= 20) THEN |
---|
| 2529 | Print*, 'cv3_unsat after provisional rp estimate: rp, afac, bfac ', & |
---|
| 2530 | i, rp(1, i), afac,bfac |
---|
| 2531 | ENDIF |
---|
| 2532 | ! |
---|
[2007] | 2533 | !JYG1 |
---|
| 2534 | ! cc sigt=1.0 |
---|
| 2535 | ! cc if(i.ge.icb)sigt=sigp(i) |
---|
| 2536 | ! prise en compte de la variation progressive de sigt dans |
---|
| 2537 | ! les couches icb et icb-1: |
---|
| 2538 | ! pour plcl<ph(i+1), pr1=0 & pr2=1 |
---|
| 2539 | ! pour plcl>ph(i), pr1=1 & pr2=0 |
---|
| 2540 | ! pour ph(i+1)<plcl<ph(i), pr1 est la proportion a cheval |
---|
| 2541 | ! sur le nuage, et pr2 est la proportion sous la base du |
---|
| 2542 | ! nuage. |
---|
[1992] | 2543 | pr1 = (plcl(il)-ph(il,i+1))/(ph(il,i)-ph(il,i+1)) |
---|
| 2544 | pr1 = max(0., min(1.,pr1)) |
---|
| 2545 | pr2 = (ph(il,i)-plcl(il))/(ph(il,i)-ph(il,i+1)) |
---|
| 2546 | pr2 = max(0., min(1.,pr2)) |
---|
| 2547 | sigt = sigp(il, i)*pr1 + pr2 |
---|
[2007] | 2548 | !JYG2 |
---|
[524] | 2549 | |
---|
[2007] | 2550 | !JYG---- |
---|
| 2551 | ! b6 = bfac*100.*sigd(il)*(ph(il,i)-ph(il,i+1))*sigt*afac |
---|
| 2552 | ! c6 = water(il,i+1) + wdtrain(il)*bfac |
---|
| 2553 | ! c6 = prec(il,i+1) + wdtrain(il)*bfac |
---|
| 2554 | ! revap=0.5*(-b6+sqrt(b6*b6+4.*c6)) |
---|
| 2555 | ! evap(il,i)=sigt*afac*revap |
---|
| 2556 | ! water(il,i)=revap*revap |
---|
| 2557 | ! prec(il,i)=revap*revap |
---|
| 2558 | !! print *,' i,b6,c6,revap,evap(il,i),water(il,i),wdtrain(il) ', & |
---|
| 2559 | !! i,b6,c6,revap,evap(il,i),water(il,i),wdtrain(il) |
---|
| 2560 | !!---end jyg--- |
---|
[879] | 2561 | |
---|
[2007] | 2562 | ! --------retour à la formulation originale d'Emanuel. |
---|
[1992] | 2563 | IF (cvflag_ice) THEN |
---|
[524] | 2564 | |
---|
[2007] | 2565 | ! b6=bfac*50.*sigd(il)*(ph(il,i)-ph(il,i+1))*sigt*afac |
---|
| 2566 | ! c6=prec(il,i+1)+bfac*wdtrain(il) & |
---|
| 2567 | ! -50.*sigd(il)*bfac*(ph(il,i)-ph(il,i+1))*evap(il,i+1) |
---|
| 2568 | ! if(c6.gt.0.0)then |
---|
| 2569 | ! revap=0.5*(-b6+sqrt(b6*b6+4.*c6)) |
---|
[524] | 2570 | |
---|
[2007] | 2571 | !JAM Attention: evap=sigt*E |
---|
| 2572 | ! Modification: evap devient l'évaporation en milieu de couche |
---|
| 2573 | ! car nécessaire dans cv3_yield |
---|
| 2574 | ! Du coup, il faut modifier pas mal d'équations... |
---|
| 2575 | ! et l'expression de afac qui devient afac1 |
---|
| 2576 | ! revap=sqrt((prec(i+1)+prec(i))/2) |
---|
[524] | 2577 | |
---|
[1992] | 2578 | b6 = bfac*50.*sigd(il)*(ph(il,i)-ph(il,i+1))*sigt*afac1 |
---|
| 2579 | c6 = prec(il, i+1) + 0.5*bfac*wdtrain(il) |
---|
[2007] | 2580 | ! print *,'bfac,sigd(il),sigt,afac1 ',bfac,sigd(il),sigt,afac1 |
---|
| 2581 | ! print *,'prec(il,i+1),wdtrain(il) ',prec(il,i+1),wdtrain(il) |
---|
| 2582 | ! print *,'b6,c6,b6*b6+4.*c6 ',b6,c6,b6*b6+4.*c6 |
---|
[1992] | 2583 | IF (c6>b6*b6+1.E-20) THEN |
---|
| 2584 | revap = 2.*c6/(b6+sqrt(b6*b6+4.*c6)) |
---|
| 2585 | ELSE |
---|
| 2586 | revap = (-b6+sqrt(b6*b6+4.*c6))/2. |
---|
| 2587 | END IF |
---|
| 2588 | prec(il, i) = max(0., 2.*revap*revap-prec(il,i+1)) |
---|
[2007] | 2589 | ! print*,prec(il,i),'neige' |
---|
[524] | 2590 | |
---|
[2007] | 2591 | !JYG Dans sa formulation originale, Emanuel calcule l'evaporation par: |
---|
| 2592 | ! c evap(il,i)=sigt*afac*revap |
---|
| 2593 | ! ce qui n'est pas correct. Dans cv_routines, la formulation a été modifiee. |
---|
| 2594 | ! Ici,l'evaporation evap est simplement calculee par l'equation de |
---|
| 2595 | ! conservation. |
---|
| 2596 | ! prec(il,i)=revap*revap |
---|
| 2597 | ! else |
---|
| 2598 | !JYG---- Correction : si c6 <= 0, water(il,i)=0. |
---|
| 2599 | ! prec(il,i)=0. |
---|
| 2600 | ! endif |
---|
[524] | 2601 | |
---|
[2007] | 2602 | !JYG--- Dans tous les cas, evaporation = [tt ce qui entre dans la couche i] |
---|
| 2603 | ! moins [tt ce qui sort de la couche i] |
---|
| 2604 | ! print *, 'evap avec ice' |
---|
| 2605 | evap(il, i) = (wdtrain(il)+sigd(il)*wt(il,i)*(prec(il,i+1)-prec(il,i))) / & |
---|
| 2606 | (sigd(il)*(ph(il,i)-ph(il,i+1))*100.) |
---|
[2393] | 2607 | ! |
---|
| 2608 | IF (prt_level >= 20) THEN |
---|
| 2609 | Print*, 'cv3_unsat after evap computation: wdtrain, sigd, wt, prec(i+1),prec(i) ', & |
---|
| 2610 | i, wdtrain(1), sigd(1), wt(1,i), prec(1,i+1),prec(1,i) |
---|
| 2611 | ENDIF |
---|
| 2612 | ! |
---|
[524] | 2613 | |
---|
[2490] | 2614 | !jyg< |
---|
| 2615 | d6 = prec(il,i)-prec(il,i+1) |
---|
[524] | 2616 | |
---|
[2490] | 2617 | !! d6 = bfac*wdtrain(il) - 100.*sigd(il)*bfac*(ph(il,i)-ph(il,i+1))*evap(il, i) |
---|
| 2618 | !! e6 = bfac*wdtrain(il) |
---|
| 2619 | !! f6 = -100.*sigd(il)*bfac*(ph(il,i)-ph(il,i+1))*evap(il, i) |
---|
| 2620 | !>jyg |
---|
[2287] | 2621 | !CR:tmax_fonte_cv: T for which ice is totally melted (used to be 275.15) |
---|
| 2622 | thaw = (t(il,i)-273.15)/(tmax_fonte_cv-273.15) |
---|
[1992] | 2623 | thaw = min(max(thaw,0.0), 1.0) |
---|
[2490] | 2624 | !jyg< |
---|
[1992] | 2625 | water(il, i) = water(il, i+1) + (1-fraci(il,i))*d6 |
---|
[2490] | 2626 | ice(il, i) = ice(il, i+1) + fraci(il, i)*d6 |
---|
| 2627 | water(il, i) = min(prec(il,i), max(water(il,i), 0.)) |
---|
| 2628 | ice(il, i) = min(prec(il,i), max(ice(il,i), 0.)) |
---|
| 2629 | |
---|
| 2630 | !! water(il, i) = water(il, i+1) + (1-fraci(il,i))*d6 |
---|
| 2631 | !! water(il, i) = max(water(il,i), 0.) |
---|
| 2632 | !! ice(il, i) = ice(il, i+1) + fraci(il, i)*d6 |
---|
| 2633 | !! ice(il, i) = max(ice(il,i), 0.) |
---|
| 2634 | !>jyg |
---|
[1992] | 2635 | fondue(il, i) = ice(il, i)*thaw |
---|
| 2636 | water(il, i) = water(il, i) + fondue(il, i) |
---|
| 2637 | ice(il, i) = ice(il, i) - fondue(il, i) |
---|
[524] | 2638 | |
---|
[1992] | 2639 | IF (water(il,i)+ice(il,i)<1.E-30) THEN |
---|
| 2640 | faci(il, i) = 0. |
---|
| 2641 | ELSE |
---|
| 2642 | faci(il, i) = ice(il, i)/(water(il,i)+ice(il,i)) |
---|
| 2643 | END IF |
---|
[524] | 2644 | |
---|
[2007] | 2645 | ! water(il,i)=water(il,i+1)+(1.-fraci(il,i))*e6+(1.-faci(il,i))*f6 |
---|
| 2646 | ! water(il,i)=max(water(il,i),0.) |
---|
| 2647 | ! ice(il,i)=ice(il,i+1)+fraci(il,i)*e6+faci(il,i)*f6 |
---|
| 2648 | ! ice(il,i)=max(ice(il,i),0.) |
---|
| 2649 | ! fondue(il,i)=ice(il,i)*thaw |
---|
| 2650 | ! water(il,i)=water(il,i)+fondue(il,i) |
---|
| 2651 | ! ice(il,i)=ice(il,i)-fondue(il,i) |
---|
| 2652 | |
---|
| 2653 | ! if((water(il,i)+ice(il,i)).lt.1.e-30)then |
---|
| 2654 | ! faci(il,i)=0. |
---|
| 2655 | ! else |
---|
| 2656 | ! faci(il,i)=ice(il,i)/(water(il,i)+ice(il,i)) |
---|
| 2657 | ! endif |
---|
[524] | 2658 | |
---|
[1992] | 2659 | ELSE |
---|
| 2660 | b6 = bfac*50.*sigd(il)*(ph(il,i)-ph(il,i+1))*sigt*afac |
---|
[2007] | 2661 | c6 = water(il, i+1) + bfac*wdtrain(il) - & |
---|
| 2662 | 50.*sigd(il)*bfac*(ph(il,i)-ph(il,i+1))*evap(il, i+1) |
---|
[1992] | 2663 | IF (c6>0.0) THEN |
---|
| 2664 | revap = 0.5*(-b6+sqrt(b6*b6+4.*c6)) |
---|
| 2665 | water(il, i) = revap*revap |
---|
| 2666 | ELSE |
---|
| 2667 | water(il, i) = 0. |
---|
| 2668 | END IF |
---|
[2007] | 2669 | ! print *, 'evap sans ice' |
---|
| 2670 | evap(il, i) = (wdtrain(il)+sigd(il)*wt(il,i)*(water(il,i+1)-water(il,i)))/ & |
---|
| 2671 | (sigd(il)*(ph(il,i)-ph(il,i+1))*100.) |
---|
[524] | 2672 | |
---|
[1992] | 2673 | END IF |
---|
| 2674 | END IF !(i.le.inb(il) .and. lwork(il)) |
---|
| 2675 | END DO |
---|
[2007] | 2676 | ! ---------------------------------------------------------------- |
---|
[524] | 2677 | |
---|
[2007] | 2678 | ! cc |
---|
| 2679 | ! *** calculate precipitating downdraft mass flux under *** |
---|
| 2680 | ! *** hydrostatic approximation *** |
---|
[524] | 2681 | |
---|
[1992] | 2682 | DO il = 1, ncum |
---|
| 2683 | IF (i<=inb(il) .AND. lwork(il) .AND. i/=1) THEN |
---|
[524] | 2684 | |
---|
[1992] | 2685 | tevap(il) = max(0.0, evap(il,i)) |
---|
| 2686 | delth = max(0.001, (th(il,i)-th(il,i-1))) |
---|
| 2687 | IF (cvflag_ice) THEN |
---|
| 2688 | IF (cvflag_grav) THEN |
---|
[2007] | 2689 | mp(il, i) = 100.*ginv*(lvcp(il,i)*sigd(il)*tevap(il)* & |
---|
| 2690 | (p(il,i-1)-p(il,i))/delth + & |
---|
| 2691 | lfcp(il,i)*sigd(il)*faci(il,i)*tevap(il)* & |
---|
| 2692 | (p(il,i-1)-p(il,i))/delth + & |
---|
| 2693 | lfcp(il,i)*sigd(il)*wt(il,i)/100.*fondue(il,i)* & |
---|
| 2694 | (p(il,i-1)-p(il,i))/delth/(ph(il,i)-ph(il,i+1))) |
---|
[1992] | 2695 | ELSE |
---|
[2007] | 2696 | mp(il, i) = 10.*(lvcp(il,i)*sigd(il)*tevap(il)* & |
---|
| 2697 | (p(il,i-1)-p(il,i))/delth + & |
---|
| 2698 | lfcp(il,i)*sigd(il)*faci(il,i)*tevap(il)* & |
---|
| 2699 | (p(il,i-1)-p(il,i))/delth + & |
---|
| 2700 | lfcp(il,i)*sigd(il)*wt(il,i)/100.*fondue(il,i)* & |
---|
| 2701 | (p(il,i-1)-p(il,i))/delth/(ph(il,i)-ph(il,i+1))) |
---|
[524] | 2702 | |
---|
[1992] | 2703 | END IF |
---|
| 2704 | ELSE |
---|
| 2705 | IF (cvflag_grav) THEN |
---|
| 2706 | mp(il, i) = 100.*ginv*lvcp(il, i)*sigd(il)*tevap(il)* & |
---|
[2007] | 2707 | (p(il,i-1)-p(il,i))/delth |
---|
[1992] | 2708 | ELSE |
---|
| 2709 | mp(il, i) = 10.*lvcp(il, i)*sigd(il)*tevap(il)* & |
---|
[2007] | 2710 | (p(il,i-1)-p(il,i))/delth |
---|
[1992] | 2711 | END IF |
---|
[524] | 2712 | |
---|
[1992] | 2713 | END IF |
---|
[879] | 2714 | |
---|
[1992] | 2715 | END IF !(i.le.inb(il) .and. lwork(il) .and. i.ne.1) |
---|
| 2716 | END DO |
---|
[2007] | 2717 | ! ---------------------------------------------------------------- |
---|
[524] | 2718 | |
---|
[2007] | 2719 | ! *** if hydrostatic assumption fails, *** |
---|
| 2720 | ! *** solve cubic difference equation for downdraft theta *** |
---|
| 2721 | ! *** and mass flux from two simultaneous differential eqns *** |
---|
[524] | 2722 | |
---|
[1992] | 2723 | DO il = 1, ncum |
---|
| 2724 | IF (i<=inb(il) .AND. lwork(il) .AND. i/=1) THEN |
---|
[1742] | 2725 | |
---|
[1992] | 2726 | amfac = sigd(il)*sigd(il)*70.0*ph(il, i)*(p(il,i-1)-p(il,i))* & |
---|
[2007] | 2727 | (th(il,i)-th(il,i-1))/(tv(il,i)*th(il,i)) |
---|
[1992] | 2728 | amp2 = abs(mp(il,i+1)*mp(il,i+1)-mp(il,i)*mp(il,i)) |
---|
[1742] | 2729 | |
---|
[1992] | 2730 | IF (amp2>(0.1*amfac)) THEN |
---|
| 2731 | xf = 100.0*sigd(il)*sigd(il)*sigd(il)*(ph(il,i)-ph(il,i+1)) |
---|
[2007] | 2732 | tf = b(il, i) - 5.0*(th(il,i)-th(il,i-1))*t(il, i) / & |
---|
| 2733 | (lvcp(il,i)*sigd(il)*th(il,i)) |
---|
[1992] | 2734 | af = xf*tf + mp(il, i+1)*mp(il, i+1)*tinv |
---|
[1742] | 2735 | |
---|
[1992] | 2736 | IF (cvflag_ice) THEN |
---|
| 2737 | bf = 2.*(tinv*mp(il,i+1))**3 + tinv*mp(il, i+1)*xf*tf + & |
---|
[2007] | 2738 | 50.*(p(il,i-1)-p(il,i))*xf*(tevap(il)*(1.+(lf(il,i)/lv(il,i))*faci(il,i)) + & |
---|
| 2739 | (lf(il,i)/lv(il,i))*wt(il,i)/100.*fondue(il,i)/(ph(il,i)-ph(il,i+1))) |
---|
[1992] | 2740 | ELSE |
---|
[1774] | 2741 | |
---|
[1992] | 2742 | bf = 2.*(tinv*mp(il,i+1))**3 + tinv*mp(il, i+1)*xf*tf + & |
---|
[2007] | 2743 | 50.*(p(il,i-1)-p(il,i))*xf*tevap(il) |
---|
[1992] | 2744 | END IF |
---|
[1742] | 2745 | |
---|
[1992] | 2746 | fac2 = 1.0 |
---|
| 2747 | IF (bf<0.0) fac2 = -1.0 |
---|
| 2748 | bf = abs(bf) |
---|
| 2749 | ur = 0.25*bf*bf - af*af*af*tinv*tinv*tinv |
---|
| 2750 | IF (ur>=0.0) THEN |
---|
| 2751 | sru = sqrt(ur) |
---|
| 2752 | fac = 1.0 |
---|
| 2753 | IF ((0.5*bf-sru)<0.0) fac = -1.0 |
---|
| 2754 | mp(il, i) = mp(il, i+1)*tinv + (0.5*bf+sru)**tinv + & |
---|
[2007] | 2755 | fac*(abs(0.5*bf-sru))**tinv |
---|
[1992] | 2756 | ELSE |
---|
| 2757 | d = atan(2.*sqrt(-ur)/(bf+1.0E-28)) |
---|
| 2758 | IF (fac2<0.0) d = 3.14159 - d |
---|
| 2759 | mp(il, i) = mp(il, i+1)*tinv + 2.*sqrt(af*tinv)*cos(d*tinv) |
---|
| 2760 | END IF |
---|
| 2761 | mp(il, i) = max(0.0, mp(il,i)) |
---|
[524] | 2762 | |
---|
[1992] | 2763 | IF (cvflag_ice) THEN |
---|
| 2764 | IF (cvflag_grav) THEN |
---|
[2007] | 2765 | !JYG : il y a vraisemblablement une erreur dans la ligne 2 suivante: |
---|
| 2766 | ! il faut diviser par (mp(il,i)*sigd(il)*grav) et non par (mp(il,i)+sigd(il)*0.1). |
---|
| 2767 | ! Et il faut bien revoir les facteurs 100. |
---|
| 2768 | b(il, i-1) = b(il, i) + 100.0*(p(il,i-1)-p(il,i))* & |
---|
| 2769 | (tevap(il)*(1.+(lf(il,i)/lv(il,i))*faci(il,i)) + & |
---|
| 2770 | (lf(il,i)/lv(il,i))*wt(il,i)/100.*fondue(il,i) / & |
---|
| 2771 | (ph(il,i)-ph(il,i+1))) / & |
---|
| 2772 | (mp(il,i)+sigd(il)*0.1) - & |
---|
| 2773 | 10.0*(th(il,i)-th(il,i-1))*t(il, i) / & |
---|
| 2774 | (lvcp(il,i)*sigd(il)*th(il,i)) |
---|
[1992] | 2775 | ELSE |
---|
[2007] | 2776 | b(il, i-1) = b(il, i) + 100.0*(p(il,i-1)-p(il,i))*& |
---|
| 2777 | (tevap(il)*(1.+(lf(il,i)/lv(il,i))*faci(il,i)) + & |
---|
| 2778 | (lf(il,i)/lv(il,i))*wt(il,i)/100.*fondue(il,i) / & |
---|
| 2779 | (ph(il,i)-ph(il,i+1))) / & |
---|
| 2780 | (mp(il,i)+sigd(il)*0.1) - & |
---|
| 2781 | 10.0*(th(il,i)-th(il,i-1))*t(il, i) / & |
---|
| 2782 | (lvcp(il,i)*sigd(il)*th(il,i)) |
---|
[1992] | 2783 | END IF |
---|
| 2784 | ELSE |
---|
| 2785 | IF (cvflag_grav) THEN |
---|
[2007] | 2786 | b(il, i-1) = b(il, i) + 100.0*(p(il,i-1)-p(il,i))*tevap(il) / & |
---|
| 2787 | (mp(il,i)+sigd(il)*0.1) - & |
---|
| 2788 | 10.0*(th(il,i)-th(il,i-1))*t(il, i) / & |
---|
| 2789 | (lvcp(il,i)*sigd(il)*th(il,i)) |
---|
[1992] | 2790 | ELSE |
---|
[2007] | 2791 | b(il, i-1) = b(il, i) + 100.0*(p(il,i-1)-p(il,i))*tevap(il) / & |
---|
| 2792 | (mp(il,i)+sigd(il)*0.1) - & |
---|
| 2793 | 10.0*(th(il,i)-th(il,i-1))*t(il, i) / & |
---|
| 2794 | (lvcp(il,i)*sigd(il)*th(il,i)) |
---|
[1992] | 2795 | END IF |
---|
| 2796 | END IF |
---|
| 2797 | b(il, i-1) = max(b(il,i-1), 0.0) |
---|
[524] | 2798 | |
---|
[1992] | 2799 | END IF !(amp2.gt.(0.1*amfac)) |
---|
[524] | 2800 | |
---|
[2007] | 2801 | ! *** limit magnitude of mp(i) to meet cfl condition *** |
---|
[524] | 2802 | |
---|
[1992] | 2803 | ampmax = 2.0*(ph(il,i)-ph(il,i+1))*delti |
---|
| 2804 | amp2 = 2.0*(ph(il,i-1)-ph(il,i))*delti |
---|
| 2805 | ampmax = min(ampmax, amp2) |
---|
| 2806 | mp(il, i) = min(mp(il,i), ampmax) |
---|
[524] | 2807 | |
---|
[2007] | 2808 | ! *** force mp to decrease linearly to zero *** |
---|
| 2809 | ! *** between cloud base and the surface *** |
---|
[524] | 2810 | |
---|
| 2811 | |
---|
[2007] | 2812 | ! c if(p(il,i).gt.p(il,icb(il)))then |
---|
| 2813 | ! c mp(il,i)=mp(il,icb(il))*(p(il,1)-p(il,i))/(p(il,1)-p(il,icb(il))) |
---|
| 2814 | ! c endif |
---|
[1992] | 2815 | IF (ph(il,i)>0.9*plcl(il)) THEN |
---|
| 2816 | mp(il, i) = mp(il, i)*(ph(il,1)-ph(il,i))/(ph(il,1)-0.9*plcl(il)) |
---|
| 2817 | END IF |
---|
[524] | 2818 | |
---|
[1992] | 2819 | END IF ! (i.le.inb(il) .and. lwork(il) .and. i.ne.1) |
---|
| 2820 | END DO |
---|
[2007] | 2821 | ! ---------------------------------------------------------------- |
---|
[2393] | 2822 | ! |
---|
| 2823 | IF (prt_level >= 20) THEN |
---|
| 2824 | Print*, 'cv3_unsat after mp computation: mp, b(i), b(i-1) ', & |
---|
| 2825 | i, mp(1, i), b(1,i), b(1,max(i-1,1)) |
---|
| 2826 | ENDIF |
---|
| 2827 | ! |
---|
[524] | 2828 | |
---|
[2007] | 2829 | ! *** find mixing ratio of precipitating downdraft *** |
---|
[524] | 2830 | |
---|
[1992] | 2831 | DO il = 1, ncum |
---|
| 2832 | IF (i<inb(il) .AND. lwork(il)) THEN |
---|
| 2833 | mplus(il) = mp(il, i) > mp(il, i+1) |
---|
| 2834 | END IF ! (i.lt.inb(il) .and. lwork(il)) |
---|
| 2835 | END DO |
---|
| 2836 | |
---|
| 2837 | DO il = 1, ncum |
---|
| 2838 | IF (i<inb(il) .AND. lwork(il)) THEN |
---|
| 2839 | |
---|
| 2840 | rp(il, i) = rr(il, i) |
---|
| 2841 | |
---|
| 2842 | IF (mplus(il)) THEN |
---|
| 2843 | |
---|
| 2844 | IF (cvflag_grav) THEN |
---|
[2007] | 2845 | rp(il, i) = rp(il, i+1)*mp(il, i+1) + rr(il, i)*(mp(il,i)-mp(il,i+1)) + & |
---|
| 2846 | 100.*ginv*0.5*sigd(il)*(ph(il,i)-ph(il,i+1))*(evap(il,i+1)+evap(il,i)) |
---|
[1992] | 2847 | ELSE |
---|
[2007] | 2848 | rp(il, i) = rp(il, i+1)*mp(il, i+1) + rr(il, i)*(mp(il,i)-mp(il,i+1)) + & |
---|
| 2849 | 5.*sigd(il)*(ph(il,i)-ph(il,i+1))*(evap(il,i+1)+evap(il,i)) |
---|
[1992] | 2850 | END IF |
---|
| 2851 | rp(il, i) = rp(il, i)/mp(il, i) |
---|
[2007] | 2852 | up(il, i) = up(il, i+1)*mp(il, i+1) + u(il, i)*(mp(il,i)-mp(il,i+1)) |
---|
[1992] | 2853 | up(il, i) = up(il, i)/mp(il, i) |
---|
[2007] | 2854 | vp(il, i) = vp(il, i+1)*mp(il, i+1) + v(il, i)*(mp(il,i)-mp(il,i+1)) |
---|
[1992] | 2855 | vp(il, i) = vp(il, i)/mp(il, i) |
---|
| 2856 | |
---|
| 2857 | ELSE ! if (mplus(il)) |
---|
| 2858 | |
---|
| 2859 | IF (mp(il,i+1)>1.0E-16) THEN |
---|
| 2860 | IF (cvflag_grav) THEN |
---|
[2007] | 2861 | rp(il, i) = rp(il,i+1) + 100.*ginv*0.5*sigd(il)*(ph(il,i)-ph(il,i+1)) * & |
---|
| 2862 | (evap(il,i+1)+evap(il,i))/mp(il,i+1) |
---|
[1992] | 2863 | ELSE |
---|
[2007] | 2864 | rp(il, i) = rp(il,i+1) + 5.*sigd(il)*(ph(il,i)-ph(il,i+1)) * & |
---|
| 2865 | (evap(il,i+1)+evap(il,i))/mp(il, i+1) |
---|
[1992] | 2866 | END IF |
---|
| 2867 | up(il, i) = up(il, i+1) |
---|
| 2868 | vp(il, i) = vp(il, i+1) |
---|
| 2869 | END IF ! (mp(il,i+1).gt.1.0e-16) |
---|
| 2870 | END IF ! (mplus(il)) else if (.not.mplus(il)) |
---|
| 2871 | |
---|
| 2872 | rp(il, i) = amin1(rp(il,i), rs(il,i)) |
---|
| 2873 | rp(il, i) = max(rp(il,i), 0.0) |
---|
| 2874 | |
---|
| 2875 | END IF ! (i.lt.inb(il) .and. lwork(il)) |
---|
| 2876 | END DO |
---|
[2007] | 2877 | ! ---------------------------------------------------------------- |
---|
[1992] | 2878 | |
---|
[2007] | 2879 | ! *** find tracer concentrations in precipitating downdraft *** |
---|
[1992] | 2880 | |
---|
[2007] | 2881 | !AC! do j=1,ntra |
---|
| 2882 | !AC! do il = 1,ncum |
---|
| 2883 | !AC! if (i.lt.inb(il) .and. lwork(il)) then |
---|
| 2884 | !AC!c |
---|
| 2885 | !AC! if(mplus(il))then |
---|
| 2886 | !AC! trap(il,i,j)=trap(il,i+1,j)*mp(il,i+1) |
---|
| 2887 | !AC! : +trap(il,i,j)*(mp(il,i)-mp(il,i+1)) |
---|
| 2888 | !AC! trap(il,i,j)=trap(il,i,j)/mp(il,i) |
---|
| 2889 | !AC! else ! if (mplus(il)) |
---|
| 2890 | !AC! if(mp(il,i+1).gt.1.0e-16)then |
---|
| 2891 | !AC! trap(il,i,j)=trap(il,i+1,j) |
---|
| 2892 | !AC! endif |
---|
| 2893 | !AC! endif ! (mplus(il)) else if (.not.mplus(il)) |
---|
| 2894 | !AC!c |
---|
| 2895 | !AC! endif ! (i.lt.inb(il) .and. lwork(il)) |
---|
| 2896 | !AC! enddo |
---|
| 2897 | !AC! end do |
---|
[1992] | 2898 | |
---|
| 2899 | 400 END DO |
---|
[2007] | 2900 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
[1992] | 2901 | |
---|
[2007] | 2902 | ! *** end of downdraft loop *** |
---|
[1992] | 2903 | |
---|
[2007] | 2904 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
[1992] | 2905 | |
---|
| 2906 | |
---|
| 2907 | RETURN |
---|
| 2908 | END SUBROUTINE cv3_unsat |
---|
| 2909 | |
---|
[2007] | 2910 | SUBROUTINE cv3_yield(nloc, ncum, nd, na, ntra, ok_conserv_q, & |
---|
| 2911 | icb, inb, delt, & |
---|
| 2912 | t, rr, t_wake, rr_wake, s_wake, u, v, tra, & |
---|
| 2913 | gz, p, ph, h, hp, lv, lf, cpn, th, th_wake, & |
---|
| 2914 | ep, clw, m, tp, mp, rp, up, vp, trap, & |
---|
| 2915 | wt, water, ice, evap, fondue, faci, b, sigd, & |
---|
| 2916 | ment, qent, hent, iflag_mix, uent, vent, & |
---|
| 2917 | nent, elij, traent, sig, & |
---|
| 2918 | tv, tvp, wghti, & |
---|
[2306] | 2919 | iflag, precip, Vprecip, Vprecipi, & ! jyg: Vprecipi |
---|
| 2920 | ft, fr, fu, fv, ftra, & ! jyg |
---|
[2007] | 2921 | cbmf, upwd, dnwd, dnwd0, ma, mip, & |
---|
[2259] | 2922 | !! tls, tps, ! useless . jyg |
---|
| 2923 | qcondc, wd, & |
---|
[2205] | 2924 | ftd, fqd, qnk, qtc, sigt, tau_cld_cv, coefw_cld_cv) |
---|
[1992] | 2925 | |
---|
| 2926 | IMPLICIT NONE |
---|
| 2927 | |
---|
| 2928 | include "cvthermo.h" |
---|
| 2929 | include "cv3param.h" |
---|
| 2930 | include "cvflag.h" |
---|
| 2931 | include "conema3.h" |
---|
| 2932 | |
---|
[2007] | 2933 | !inputs: |
---|
[2327] | 2934 | INTEGER, INTENT (IN) :: iflag_mix |
---|
| 2935 | INTEGER, INTENT (IN) :: ncum, nd, na, ntra, nloc |
---|
| 2936 | LOGICAL, INTENT (IN) :: ok_conserv_q |
---|
| 2937 | INTEGER, DIMENSION (nloc), INTENT (IN) :: icb, inb |
---|
| 2938 | REAL, INTENT (IN) :: delt |
---|
| 2939 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t, rr, u, v |
---|
| 2940 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t_wake, rr_wake |
---|
| 2941 | REAL, DIMENSION (nloc), INTENT (IN) :: s_wake |
---|
| 2942 | REAL, DIMENSION (nloc, nd, ntra), INTENT (IN) :: tra |
---|
| 2943 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: p |
---|
| 2944 | REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: ph |
---|
| 2945 | REAL, DIMENSION (nloc, na), INTENT (IN) :: gz, h, hp |
---|
| 2946 | REAL, DIMENSION (nloc, na), INTENT (IN) :: th, tp |
---|
| 2947 | REAL, DIMENSION (nloc, na), INTENT (IN) :: lv, cpn, ep, clw |
---|
| 2948 | REAL, DIMENSION (nloc, na), INTENT (IN) :: lf |
---|
| 2949 | REAL, DIMENSION (nloc, na), INTENT (IN) :: rp, up |
---|
| 2950 | REAL, DIMENSION (nloc, na), INTENT (IN) :: vp |
---|
| 2951 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: wt |
---|
| 2952 | REAL, DIMENSION (nloc, nd, ntra), INTENT (IN) :: trap |
---|
| 2953 | REAL, DIMENSION (nloc, na), INTENT (IN) :: water, evap, b |
---|
| 2954 | REAL, DIMENSION (nloc, na), INTENT (IN) :: fondue, faci, ice |
---|
| 2955 | REAL, DIMENSION (nloc, na, na), INTENT (IN) :: qent, uent |
---|
| 2956 | REAL, DIMENSION (nloc, na, na), INTENT (IN) :: hent |
---|
| 2957 | REAL, DIMENSION (nloc, na, na), INTENT (IN) :: vent, elij |
---|
| 2958 | INTEGER, DIMENSION (nloc, nd), INTENT (IN) :: nent |
---|
| 2959 | REAL, DIMENSION (nloc, na, na, ntra), INTENT (IN) :: traent |
---|
| 2960 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: tv, tvp, wghti |
---|
| 2961 | REAL,INTENT(IN) :: tau_cld_cv, coefw_cld_cv |
---|
[2007] | 2962 | ! |
---|
| 2963 | !input/output: |
---|
[2327] | 2964 | REAL, DIMENSION (nloc, na), INTENT (INOUT) :: m, mp |
---|
| 2965 | REAL, DIMENSION (nloc, na, na), INTENT (INOUT) :: ment |
---|
| 2966 | INTEGER, DIMENSION (nloc), INTENT (INOUT) :: iflag |
---|
| 2967 | REAL, DIMENSION (nloc, nd), INTENT (INOUT) :: sig |
---|
| 2968 | REAL, DIMENSION (nloc), INTENT (INOUT) :: sigd |
---|
[2007] | 2969 | ! |
---|
| 2970 | !outputs: |
---|
[2327] | 2971 | REAL, DIMENSION (nloc), INTENT (OUT) :: precip |
---|
| 2972 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: ft, fr, fu, fv |
---|
| 2973 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: ftd, fqd |
---|
| 2974 | REAL, DIMENSION (nloc, nd, ntra), INTENT (OUT) :: ftra |
---|
| 2975 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: upwd, dnwd, ma |
---|
| 2976 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: dnwd0, mip |
---|
| 2977 | REAL, DIMENSION (nloc, nd+1), INTENT (OUT) :: Vprecip |
---|
| 2978 | REAL, DIMENSION (nloc, nd+1), INTENT (OUT) :: Vprecipi |
---|
| 2979 | !! REAL tls(nloc, nd), tps(nloc, nd) ! useless . jyg |
---|
| 2980 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: qcondc ! cld |
---|
| 2981 | REAL, DIMENSION (nloc, nd), INTENT (OUT) :: qtc, sigt ! cld |
---|
| 2982 | REAL, DIMENSION (nloc), INTENT (OUT) :: wd ! gust |
---|
| 2983 | REAL, DIMENSION (nloc), INTENT (OUT) :: cbmf |
---|
[2007] | 2984 | ! |
---|
| 2985 | !local variables: |
---|
[2508] | 2986 | INTEGER :: i, k, il, n, j, num1 |
---|
| 2987 | REAL :: rat, delti |
---|
| 2988 | REAL :: ax, bx, cx, dx, ex |
---|
| 2989 | REAL :: cpinv, rdcp, dpinv |
---|
| 2990 | REAL, DIMENSION (nloc) :: awat |
---|
| 2991 | REAL, DIMENSION (nloc, nd) :: lvcp, lfcp ! , mke ! unused . jyg |
---|
| 2992 | REAL, DIMENSION (nloc) :: am, work, ad, amp1 |
---|
[2007] | 2993 | !! real up1(nloc), dn1(nloc) |
---|
[2508] | 2994 | REAL, DIMENSION (nloc, nd, nd) :: up1, dn1 |
---|
| 2995 | !jyg< |
---|
| 2996 | REAL, DIMENSION (nloc, nd) :: up_to, up_from |
---|
| 2997 | REAL, DIMENSION (nloc, nd) :: dn_to, dn_from |
---|
| 2998 | !>jyg |
---|
| 2999 | REAL, DIMENSION (nloc) :: asum, bsum, csum, dsum |
---|
| 3000 | REAL, DIMENSION (nloc) :: esum, fsum, gsum, hsum |
---|
| 3001 | REAL, DIMENSION (nloc, nd) :: th_wake |
---|
| 3002 | REAL, DIMENSION (nloc) :: alpha_qpos, alpha_qpos1 |
---|
| 3003 | REAL, DIMENSION (nloc, nd) :: qcond, nqcond, wa ! cld |
---|
| 3004 | REAL, DIMENSION (nloc, nd) :: siga, sax, mac ! cld |
---|
| 3005 | REAL, DIMENSION (nloc) :: sument |
---|
| 3006 | REAL, DIMENSION (nloc, nd) :: sigment, qtment ! cld |
---|
| 3007 | REAL, DIMENSION (nloc) :: qnk |
---|
[2007] | 3008 | REAL sumdq !jyg |
---|
| 3009 | ! |
---|
| 3010 | ! ------------------------------------------------------------- |
---|
[1992] | 3011 | |
---|
[2007] | 3012 | ! initialization: |
---|
[1992] | 3013 | |
---|
| 3014 | delti = 1.0/delt |
---|
[2007] | 3015 | ! print*,'cv3_yield initialisation delt', delt |
---|
[2393] | 3016 | |
---|
[1992] | 3017 | DO il = 1, ncum |
---|
| 3018 | precip(il) = 0.0 |
---|
| 3019 | wd(il) = 0.0 ! gust |
---|
| 3020 | END DO |
---|
| 3021 | |
---|
[2393] | 3022 | ! Fluxes are on a staggered grid : loops extend up to nl+1 |
---|
| 3023 | DO i = 1, nlp |
---|
[1992] | 3024 | DO il = 1, ncum |
---|
[2007] | 3025 | Vprecip(il, i) = 0.0 |
---|
[2306] | 3026 | Vprecipi(il, i) = 0.0 ! jyg |
---|
[2393] | 3027 | upwd(il, i) = 0.0 |
---|
| 3028 | dnwd(il, i) = 0.0 |
---|
| 3029 | dnwd0(il, i) = 0.0 |
---|
| 3030 | mip(il, i) = 0.0 |
---|
| 3031 | END DO |
---|
| 3032 | END DO |
---|
| 3033 | DO i = 1, nl |
---|
| 3034 | DO il = 1, ncum |
---|
[1992] | 3035 | ft(il, i) = 0.0 |
---|
| 3036 | fr(il, i) = 0.0 |
---|
| 3037 | fu(il, i) = 0.0 |
---|
| 3038 | fv(il, i) = 0.0 |
---|
| 3039 | ftd(il, i) = 0.0 |
---|
| 3040 | fqd(il, i) = 0.0 |
---|
| 3041 | qcondc(il, i) = 0.0 ! cld |
---|
| 3042 | qcond(il, i) = 0.0 ! cld |
---|
[2205] | 3043 | qtc(il, i) = 0.0 ! cld |
---|
| 3044 | qtment(il, i) = 0.0 ! cld |
---|
| 3045 | sigment(il, i) = 0.0 ! cld |
---|
| 3046 | sigt(il, i) = 0.0 ! cld |
---|
[1992] | 3047 | nqcond(il, i) = 0.0 ! cld |
---|
| 3048 | END DO |
---|
| 3049 | END DO |
---|
[2007] | 3050 | ! print*,'cv3_yield initialisation 2' |
---|
| 3051 | !AC! do j=1,ntra |
---|
| 3052 | !AC! do i=1,nd |
---|
| 3053 | !AC! do il=1,ncum |
---|
| 3054 | !AC! ftra(il,i,j)=0.0 |
---|
| 3055 | !AC! enddo |
---|
| 3056 | !AC! enddo |
---|
| 3057 | !AC! enddo |
---|
| 3058 | ! print*,'cv3_yield initialisation 3' |
---|
[1992] | 3059 | DO i = 1, nl |
---|
| 3060 | DO il = 1, ncum |
---|
| 3061 | lvcp(il, i) = lv(il, i)/cpn(il, i) |
---|
| 3062 | lfcp(il, i) = lf(il, i)/cpn(il, i) |
---|
| 3063 | END DO |
---|
| 3064 | END DO |
---|
| 3065 | |
---|
| 3066 | |
---|
| 3067 | |
---|
[2007] | 3068 | ! *** calculate surface precipitation in mm/day *** |
---|
[1992] | 3069 | |
---|
| 3070 | DO il = 1, ncum |
---|
| 3071 | IF (ep(il,inb(il))>=0.0001 .AND. iflag(il)<=1) THEN |
---|
| 3072 | IF (cvflag_ice) THEN |
---|
[2007] | 3073 | precip(il) = wt(il, 1)*sigd(il)*(water(il,1)+ice(il,1)) & |
---|
| 3074 | *86400.*1000./(rowl*grav) |
---|
[1992] | 3075 | ELSE |
---|
[2007] | 3076 | precip(il) = wt(il, 1)*sigd(il)*water(il, 1) & |
---|
| 3077 | *86400.*1000./(rowl*grav) |
---|
[1992] | 3078 | END IF |
---|
| 3079 | END IF |
---|
| 3080 | END DO |
---|
[2007] | 3081 | ! print*,'cv3_yield apres calcul precip' |
---|
[1992] | 3082 | |
---|
| 3083 | |
---|
[2007] | 3084 | ! === calculate vertical profile of precipitation in kg/m2/s === |
---|
[1992] | 3085 | |
---|
| 3086 | DO i = 1, nl |
---|
| 3087 | DO il = 1, ncum |
---|
| 3088 | IF (ep(il,inb(il))>=0.0001 .AND. i<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3089 | IF (cvflag_ice) THEN |
---|
[2007] | 3090 | Vprecip(il, i) = wt(il, i)*sigd(il)*(water(il,i)+ice(il,i))/grav |
---|
[2306] | 3091 | Vprecipi(il, i) = wt(il, i)*sigd(il)*ice(il,i)/grav ! jyg |
---|
[1992] | 3092 | ELSE |
---|
[2007] | 3093 | Vprecip(il, i) = wt(il, i)*sigd(il)*water(il, i)/grav |
---|
[2306] | 3094 | Vprecipi(il, i) = 0. ! jyg |
---|
[1992] | 3095 | END IF |
---|
| 3096 | END IF |
---|
| 3097 | END DO |
---|
| 3098 | END DO |
---|
| 3099 | |
---|
| 3100 | |
---|
[2007] | 3101 | ! *** Calculate downdraft velocity scale *** |
---|
| 3102 | ! *** NE PAS UTILISER POUR L'INSTANT *** |
---|
[1992] | 3103 | |
---|
[2007] | 3104 | !! do il=1,ncum |
---|
| 3105 | !! wd(il)=betad*abs(mp(il,icb(il)))*0.01*rrd*t(il,icb(il)) & |
---|
| 3106 | !! /(sigd(il)*p(il,icb(il))) |
---|
| 3107 | !! enddo |
---|
[1992] | 3108 | |
---|
| 3109 | |
---|
[2007] | 3110 | ! *** calculate tendencies of lowest level potential temperature *** |
---|
| 3111 | ! *** and mixing ratio *** |
---|
[1992] | 3112 | |
---|
| 3113 | DO il = 1, ncum |
---|
| 3114 | work(il) = 1.0/(ph(il,1)-ph(il,2)) |
---|
| 3115 | cbmf(il) = 0.0 |
---|
| 3116 | END DO |
---|
| 3117 | |
---|
| 3118 | DO k = 2, nl |
---|
| 3119 | DO il = 1, ncum |
---|
| 3120 | IF (k>=icb(il)) THEN |
---|
| 3121 | cbmf(il) = cbmf(il) + m(il, k) |
---|
| 3122 | END IF |
---|
| 3123 | END DO |
---|
| 3124 | END DO |
---|
| 3125 | |
---|
[2007] | 3126 | ! print*,'cv3_yield avant ft' |
---|
| 3127 | ! am is the part of cbmf taken from the first level |
---|
[1992] | 3128 | DO il = 1, ncum |
---|
| 3129 | am(il) = cbmf(il)*wghti(il, 1) |
---|
| 3130 | END DO |
---|
| 3131 | |
---|
| 3132 | DO il = 1, ncum |
---|
| 3133 | IF (iflag(il)<=1) THEN |
---|
[2007] | 3134 | ! convect3 if((0.1*dpinv*am).ge.delti)iflag(il)=4 |
---|
| 3135 | !JYG Correction pour conserver l'eau |
---|
| 3136 | ! cc ft(il,1)=-0.5*lvcp(il,1)*sigd(il)*(evap(il,1)+evap(il,2)) !precip |
---|
[1992] | 3137 | IF (cvflag_ice) THEN |
---|
| 3138 | ft(il, 1) = -lvcp(il, 1)*sigd(il)*evap(il, 1) - & |
---|
[2007] | 3139 | lfcp(il, 1)*sigd(il)*evap(il, 1)*faci(il, 1) - & |
---|
| 3140 | lfcp(il, 1)*sigd(il)*(fondue(il,1)*wt(il,1)) / & |
---|
| 3141 | (100.*(ph(il,1)-ph(il,2))) !precip |
---|
[1992] | 3142 | ELSE |
---|
| 3143 | ft(il, 1) = -lvcp(il, 1)*sigd(il)*evap(il, 1) |
---|
| 3144 | END IF |
---|
| 3145 | |
---|
[2007] | 3146 | ft(il, 1) = ft(il, 1) - 0.009*grav*sigd(il)*mp(il, 2)*t_wake(il, 1)*b(il, 1)*work(il) |
---|
[1992] | 3147 | |
---|
| 3148 | IF (cvflag_ice) THEN |
---|
[2007] | 3149 | ft(il, 1) = ft(il, 1) + 0.01*sigd(il)*wt(il, 1)*(cl-cpd)*water(il, 2) * & |
---|
| 3150 | (t_wake(il,2)-t_wake(il,1))*work(il)/cpn(il, 1) + & |
---|
| 3151 | 0.01*sigd(il)*wt(il, 1)*(ci-cpd)*ice(il, 2) * & |
---|
| 3152 | (t_wake(il,2)-t_wake(il,1))*work(il)/cpn(il, 1) |
---|
[1992] | 3153 | ELSE |
---|
[2007] | 3154 | ft(il, 1) = ft(il, 1) + 0.01*sigd(il)*wt(il, 1)*(cl-cpd)*water(il, 2) * & |
---|
| 3155 | (t_wake(il,2)-t_wake(il,1))*work(il)/cpn(il, 1) |
---|
[1992] | 3156 | END IF |
---|
| 3157 | |
---|
[2007] | 3158 | ftd(il, 1) = ft(il, 1) ! fin precip |
---|
[1992] | 3159 | |
---|
[2007] | 3160 | IF ((0.01*grav*work(il)*am(il))>=delti) iflag(il) = 1 !consist vect |
---|
| 3161 | ft(il, 1) = ft(il, 1) + 0.01*grav*work(il)*am(il) * & |
---|
| 3162 | (t(il,2)-t(il,1)+(gz(il,2)-gz(il,1))/cpn(il,1)) |
---|
[1992] | 3163 | END IF ! iflag |
---|
| 3164 | END DO |
---|
| 3165 | |
---|
| 3166 | |
---|
| 3167 | DO j = 2, nl |
---|
| 3168 | IF (iflag_mix>0) THEN |
---|
| 3169 | DO il = 1, ncum |
---|
[2007] | 3170 | ! FH WARNING a modifier : |
---|
[1992] | 3171 | cpinv = 0. |
---|
[2007] | 3172 | ! cpinv=1.0/cpn(il,1) |
---|
[1992] | 3173 | IF (j<=inb(il) .AND. iflag(il)<=1) THEN |
---|
[2007] | 3174 | ft(il, 1) = ft(il, 1) + 0.01*grav*work(il)*ment(il, j, 1) * & |
---|
| 3175 | (hent(il,j,1)-h(il,1)+t(il,1)*(cpv-cpd)*(rr(il,1)-qent(il,j,1)))*cpinv |
---|
[1992] | 3176 | END IF ! j |
---|
| 3177 | END DO |
---|
| 3178 | END IF |
---|
| 3179 | END DO |
---|
[2007] | 3180 | ! fin sature |
---|
[1992] | 3181 | |
---|
| 3182 | |
---|
| 3183 | DO il = 1, ncum |
---|
| 3184 | IF (iflag(il)<=1) THEN |
---|
[2007] | 3185 | !JYG1 Correction pour mieux conserver l'eau (conformite avec CONVECT4.3) |
---|
| 3186 | fr(il, 1) = 0.01*grav*mp(il, 2)*(rp(il,2)-rr_wake(il,1))*work(il) + & |
---|
| 3187 | sigd(il)*evap(il, 1) |
---|
| 3188 | !!! sigd(il)*0.5*(evap(il,1)+evap(il,2)) |
---|
[1992] | 3189 | |
---|
[2007] | 3190 | fqd(il, 1) = fr(il, 1) !precip |
---|
[1992] | 3191 | |
---|
[2007] | 3192 | fr(il, 1) = fr(il, 1) + 0.01*grav*am(il)*(rr(il,2)-rr(il,1))*work(il) !sature |
---|
[1992] | 3193 | |
---|
[2007] | 3194 | fu(il, 1) = fu(il, 1) + 0.01*grav*work(il)*(mp(il,2)*(up(il,2)-u(il,1)) + & |
---|
| 3195 | am(il)*(u(il,2)-u(il,1))) |
---|
| 3196 | fv(il, 1) = fv(il, 1) + 0.01*grav*work(il)*(mp(il,2)*(vp(il,2)-v(il,1)) + & |
---|
| 3197 | am(il)*(v(il,2)-v(il,1))) |
---|
[1992] | 3198 | END IF ! iflag |
---|
| 3199 | END DO ! il |
---|
| 3200 | |
---|
| 3201 | |
---|
[2007] | 3202 | !AC! do j=1,ntra |
---|
| 3203 | !AC! do il=1,ncum |
---|
| 3204 | !AC! if (iflag(il) .le. 1) then |
---|
| 3205 | !AC! if (cvflag_grav) then |
---|
| 3206 | !AC! ftra(il,1,j)=ftra(il,1,j)+0.01*grav*work(il) |
---|
| 3207 | !AC! : *(mp(il,2)*(trap(il,2,j)-tra(il,1,j)) |
---|
| 3208 | !AC! : +am(il)*(tra(il,2,j)-tra(il,1,j))) |
---|
| 3209 | !AC! else |
---|
| 3210 | !AC! ftra(il,1,j)=ftra(il,1,j)+0.1*work(il) |
---|
| 3211 | !AC! : *(mp(il,2)*(trap(il,2,j)-tra(il,1,j)) |
---|
| 3212 | !AC! : +am(il)*(tra(il,2,j)-tra(il,1,j))) |
---|
| 3213 | !AC! endif |
---|
| 3214 | !AC! endif ! iflag |
---|
| 3215 | !AC! enddo |
---|
| 3216 | !AC! enddo |
---|
[1992] | 3217 | |
---|
| 3218 | DO j = 2, nl |
---|
| 3219 | DO il = 1, ncum |
---|
| 3220 | IF (j<=inb(il) .AND. iflag(il)<=1) THEN |
---|
[2007] | 3221 | fr(il, 1) = fr(il, 1) + 0.01*grav*work(il)*ment(il, j, 1)*(qent(il,j,1)-rr(il,1)) |
---|
| 3222 | fu(il, 1) = fu(il, 1) + 0.01*grav*work(il)*ment(il, j, 1)*(uent(il,j,1)-u(il,1)) |
---|
| 3223 | fv(il, 1) = fv(il, 1) + 0.01*grav*work(il)*ment(il, j, 1)*(vent(il,j,1)-v(il,1)) |
---|
[1992] | 3224 | END IF ! j |
---|
| 3225 | END DO |
---|
| 3226 | END DO |
---|
| 3227 | |
---|
[2007] | 3228 | !AC! do k=1,ntra |
---|
| 3229 | !AC! do j=2,nl |
---|
| 3230 | !AC! do il=1,ncum |
---|
| 3231 | !AC! if (j.le.inb(il) .and. iflag(il) .le. 1) then |
---|
| 3232 | !AC! |
---|
| 3233 | !AC! if (cvflag_grav) then |
---|
| 3234 | !AC! ftra(il,1,k)=ftra(il,1,k)+0.01*grav*work(il)*ment(il,j,1) |
---|
| 3235 | !AC! : *(traent(il,j,1,k)-tra(il,1,k)) |
---|
| 3236 | !AC! else |
---|
| 3237 | !AC! ftra(il,1,k)=ftra(il,1,k)+0.1*work(il)*ment(il,j,1) |
---|
| 3238 | !AC! : *(traent(il,j,1,k)-tra(il,1,k)) |
---|
| 3239 | !AC! endif |
---|
| 3240 | !AC! |
---|
| 3241 | !AC! endif |
---|
| 3242 | !AC! enddo |
---|
| 3243 | !AC! enddo |
---|
| 3244 | !AC! enddo |
---|
| 3245 | ! print*,'cv3_yield apres ft' |
---|
[1992] | 3246 | |
---|
[2508] | 3247 | !jyg< |
---|
| 3248 | !----------------------------------------------------------- |
---|
| 3249 | IF (ok_optim_yield) THEN !| |
---|
| 3250 | !----------------------------------------------------------- |
---|
| 3251 | ! |
---|
| 3252 | !*** *** |
---|
| 3253 | !*** Compute convective mass fluxes upwd and dnwd *** |
---|
| 3254 | |
---|
| 3255 | upwd(:,:) = 0. |
---|
| 3256 | up_to(:,:) = 0. |
---|
| 3257 | up_from(:,:) = 0. |
---|
| 3258 | dnwd(:,:) = 0. |
---|
| 3259 | dn_to(:,:) = 0. |
---|
| 3260 | dn_from(:,:) = 0. |
---|
| 3261 | ! |
---|
| 3262 | ! ================================================= |
---|
| 3263 | ! upward fluxes | |
---|
| 3264 | ! ------------------------------------------------ |
---|
| 3265 | DO i = 2, nl |
---|
| 3266 | DO il = 1, ncum |
---|
| 3267 | IF (i<=inb(il)) THEN |
---|
| 3268 | up_to(il,i) = m(il,i) |
---|
| 3269 | ENDIF |
---|
| 3270 | ENDDO |
---|
| 3271 | DO j = 1, i-1 |
---|
| 3272 | DO il = 1, ncum |
---|
| 3273 | IF (i<=inb(il)) THEN |
---|
| 3274 | up_to(il,i) = up_to(il,i) + ment(il,j,i) |
---|
| 3275 | ENDIF |
---|
| 3276 | ENDDO |
---|
| 3277 | ENDDO |
---|
| 3278 | ENDDO |
---|
| 3279 | ! |
---|
| 3280 | DO i = 1, nl |
---|
| 3281 | DO il = 1, ncum |
---|
| 3282 | IF (i<=inb(il)) THEN |
---|
| 3283 | up_from(il,i) = cbmf(il)*wghti(il,i) |
---|
| 3284 | ENDIF |
---|
| 3285 | ENDDO |
---|
| 3286 | ENDDO |
---|
| 3287 | !!DO i = 2, nl |
---|
| 3288 | !! DO j = i+1, nl !! Permuter les boucles i et j |
---|
| 3289 | DO j = 3, nl |
---|
| 3290 | DO i = 2, j-1 |
---|
| 3291 | DO il = 1, ncum |
---|
| 3292 | IF (j<=inb(il)) THEN |
---|
| 3293 | up_from(il,i) = up_from(il,i) + ment(il,i,j) |
---|
| 3294 | ENDIF |
---|
| 3295 | ENDDO |
---|
| 3296 | ENDDO |
---|
| 3297 | ENDDO |
---|
| 3298 | ! |
---|
| 3299 | ! The difference between upwd(il,i) and upwd(il,i-1) is due to updrafts ending in layer |
---|
| 3300 | !(i-1) (theses drafts cross interface (i-1) but not interface(i)) and to updrafts starting |
---|
| 3301 | !from layer (i-1) (theses drafts cross interface (i) but not interface(i-1)): |
---|
| 3302 | ! |
---|
| 3303 | DO i = 2, nlp |
---|
| 3304 | DO il = 1, ncum |
---|
| 3305 | upwd(il,i) = max(0., upwd(il,i-1) - up_to(il,i-1) + up_from(il,i-1)) |
---|
| 3306 | ENDDO |
---|
| 3307 | ENDDO |
---|
| 3308 | ! |
---|
| 3309 | ! ================================================= |
---|
| 3310 | ! downward fluxes | |
---|
| 3311 | ! ------------------------------------------------ |
---|
| 3312 | DO i = 1, nl |
---|
| 3313 | DO j = i+1, nl |
---|
| 3314 | DO il = 1, ncum |
---|
| 3315 | IF (j<=inb(il)) THEN |
---|
| 3316 | dn_to(il,i) = dn_to(il,i) + ment(il,j,i) |
---|
| 3317 | ENDIF |
---|
| 3318 | ENDDO |
---|
| 3319 | ENDDO |
---|
| 3320 | ENDDO |
---|
| 3321 | ! |
---|
| 3322 | !!DO i = 2, nl |
---|
| 3323 | !! DO j = 1, i-1 !! Permuter les boucles i et j |
---|
| 3324 | DO j = 1, nl |
---|
| 3325 | DO i = j+1, nl |
---|
| 3326 | DO il = 1, ncum |
---|
| 3327 | IF (i<=inb(il)) THEN |
---|
| 3328 | dn_from(il,i) = dn_from(il,i) + ment(il,i,j) |
---|
| 3329 | ENDIF |
---|
| 3330 | ENDDO |
---|
| 3331 | ENDDO |
---|
| 3332 | ENDDO |
---|
| 3333 | ! |
---|
| 3334 | ! The difference between dnwd(il,i) and dnwd(il,i+1) is due to downdrafts ending in layer |
---|
| 3335 | !(i) (theses drafts cross interface (i+1) but not interface(i)) and to downdrafts |
---|
| 3336 | !starting from layer (i) (theses drafts cross interface (i) but not interface(i+1)): |
---|
| 3337 | ! |
---|
| 3338 | DO i = nl-1, 1, -1 |
---|
| 3339 | DO il = 1, ncum |
---|
| 3340 | dnwd(il,i) = max(0., dnwd(il,i+1) - dn_to(il,i) + dn_from(il,i)) |
---|
| 3341 | ENDDO |
---|
| 3342 | ENDDO |
---|
| 3343 | ! ================================================= |
---|
| 3344 | ! |
---|
| 3345 | !----------------------------------------------------------- |
---|
| 3346 | ENDIF !(ok_optim_yield) !| |
---|
| 3347 | !----------------------------------------------------------- |
---|
| 3348 | !>jyg |
---|
| 3349 | |
---|
[2007] | 3350 | ! *** calculate tendencies of potential temperature and mixing ratio *** |
---|
| 3351 | ! *** at levels above the lowest level *** |
---|
[1992] | 3352 | |
---|
[2007] | 3353 | ! *** first find the net saturated updraft and downdraft mass fluxes *** |
---|
| 3354 | ! *** through each level *** |
---|
[1992] | 3355 | |
---|
| 3356 | |
---|
[2508] | 3357 | !jyg< |
---|
| 3358 | !! DO i = 2, nl + 1 ! newvecto: mettre nl au lieu nl+1? |
---|
| 3359 | DO i = 2, nl |
---|
| 3360 | !>jyg |
---|
[1992] | 3361 | |
---|
| 3362 | num1 = 0 |
---|
| 3363 | DO il = 1, ncum |
---|
| 3364 | IF (i<=inb(il) .AND. iflag(il)<=1) num1 = num1 + 1 |
---|
| 3365 | END DO |
---|
| 3366 | IF (num1<=0) GO TO 500 |
---|
| 3367 | |
---|
[2508] | 3368 | ! |
---|
[2393] | 3369 | !jyg< |
---|
[2508] | 3370 | !----------------------------------------------------------- |
---|
| 3371 | IF (ok_optim_yield) THEN !| |
---|
| 3372 | !----------------------------------------------------------- |
---|
| 3373 | DO il = 1, ncum |
---|
| 3374 | amp1(il) = upwd(il,i+1) |
---|
| 3375 | ad(il) = dnwd(il,i) |
---|
| 3376 | ENDDO |
---|
| 3377 | !----------------------------------------------------------- |
---|
| 3378 | ELSE !(ok_optim_yield) !| |
---|
| 3379 | !----------------------------------------------------------- |
---|
| 3380 | !>jyg |
---|
[2393] | 3381 | DO il = 1,ncum |
---|
| 3382 | amp1(il) = 0. |
---|
| 3383 | ad(il) = 0. |
---|
| 3384 | ENDDO |
---|
[1992] | 3385 | |
---|
| 3386 | DO k = 1, nl + 1 |
---|
| 3387 | DO il = 1, ncum |
---|
| 3388 | IF (i>=icb(il)) THEN |
---|
| 3389 | IF (k>=i+1 .AND. k<=(inb(il)+1)) THEN |
---|
| 3390 | amp1(il) = amp1(il) + m(il, k) |
---|
| 3391 | END IF |
---|
| 3392 | ELSE |
---|
[2007] | 3393 | ! AMP1 is the part of cbmf taken from layers I and lower |
---|
[1992] | 3394 | IF (k<=i) THEN |
---|
| 3395 | amp1(il) = amp1(il) + cbmf(il)*wghti(il, k) |
---|
| 3396 | END IF |
---|
| 3397 | END IF |
---|
| 3398 | END DO |
---|
| 3399 | END DO |
---|
| 3400 | |
---|
[2508] | 3401 | DO j = i + 1, nl + 1 |
---|
| 3402 | DO k = 1, i |
---|
| 3403 | !yor! reverted j and k loops |
---|
| 3404 | DO il = 1, ncum |
---|
| 3405 | !yor! IF (i<=inb(il) .AND. j<=(inb(il)+1)) THEN ! the second condition implies the first ! |
---|
| 3406 | IF (j<=(inb(il)+1)) THEN |
---|
| 3407 | amp1(il) = amp1(il) + ment(il, k, j) |
---|
| 3408 | END IF |
---|
| 3409 | END DO |
---|
| 3410 | END DO |
---|
[1992] | 3411 | END DO |
---|
| 3412 | |
---|
| 3413 | DO k = 1, i - 1 |
---|
[2508] | 3414 | !jyg< |
---|
| 3415 | !! DO j = i, nl + 1 ! newvecto: nl au lieu nl+1? |
---|
| 3416 | DO j = i, nl |
---|
| 3417 | !>jyg |
---|
[1992] | 3418 | DO il = 1, ncum |
---|
[2508] | 3419 | !yor! IF (i<=inb(il) .AND. j<=inb(il)) THEN ! the second condition implies the 1st ! |
---|
| 3420 | IF (j<=inb(il)) THEN |
---|
[1992] | 3421 | ad(il) = ad(il) + ment(il, j, k) |
---|
| 3422 | END IF |
---|
| 3423 | END DO |
---|
| 3424 | END DO |
---|
| 3425 | END DO |
---|
[2508] | 3426 | ! |
---|
| 3427 | !----------------------------------------------------------- |
---|
| 3428 | ENDIF !(ok_optim_yield) !| |
---|
| 3429 | !----------------------------------------------------------- |
---|
| 3430 | ! |
---|
| 3431 | !! print *,'yield, i, amp1, ad', i, amp1(1), ad(1) |
---|
[1992] | 3432 | |
---|
| 3433 | DO il = 1, ncum |
---|
| 3434 | IF (i<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3435 | dpinv = 1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3436 | cpinv = 1.0/cpn(il, i) |
---|
| 3437 | |
---|
[2007] | 3438 | ! convect3 if((0.1*dpinv*amp1).ge.delti)iflag(il)=4 |
---|
| 3439 | IF ((0.01*grav*dpinv*amp1(il))>=delti) iflag(il) = 1 ! vecto |
---|
[1992] | 3440 | |
---|
[2007] | 3441 | ! precip |
---|
| 3442 | ! cc ft(il,i)= -0.5*sigd(il)*lvcp(il,i)*(evap(il,i)+evap(il,i+1)) |
---|
[1992] | 3443 | IF (cvflag_ice) THEN |
---|
| 3444 | ft(il, i) = -sigd(il)*lvcp(il, i)*evap(il, i) - & |
---|
[2007] | 3445 | sigd(il)*lfcp(il, i)*evap(il, i)*faci(il, i) - & |
---|
| 3446 | sigd(il)*lfcp(il, i)*fondue(il, i)*wt(il, i)/(100.*(p(il,i-1)-p(il,i))) |
---|
[1992] | 3447 | ELSE |
---|
| 3448 | ft(il, i) = -sigd(il)*lvcp(il, i)*evap(il, i) |
---|
| 3449 | END IF |
---|
| 3450 | |
---|
| 3451 | rat = cpn(il, i-1)*cpinv |
---|
| 3452 | |
---|
[2007] | 3453 | ft(il, i) = ft(il, i) - 0.009*grav*sigd(il) * & |
---|
| 3454 | (mp(il,i+1)*t_wake(il,i)*b(il,i)-mp(il,i)*t_wake(il,i-1)*rat*b(il,i-1))*dpinv |
---|
| 3455 | IF (cvflag_ice) THEN |
---|
| 3456 | ft(il, i) = ft(il, i) + 0.01*sigd(il)*wt(il, i)*(cl-cpd)*water(il, i+1) * & |
---|
| 3457 | (t_wake(il,i+1)-t_wake(il,i))*dpinv*cpinv + & |
---|
| 3458 | 0.01*sigd(il)*wt(il, i)*(ci-cpd)*ice(il, i+1) * & |
---|
| 3459 | (t_wake(il,i+1)-t_wake(il,i))*dpinv*cpinv |
---|
| 3460 | ELSE |
---|
| 3461 | ft(il, i) = ft(il, i) + 0.01*sigd(il)*wt(il, i)*(cl-cpd)*water(il, i+1) * & |
---|
| 3462 | (t_wake(il,i+1)-t_wake(il,i))*dpinv* & |
---|
| 3463 | cpinv |
---|
| 3464 | END IF |
---|
[1992] | 3465 | |
---|
[2007] | 3466 | ftd(il, i) = ft(il, i) |
---|
| 3467 | ! fin precip |
---|
[1992] | 3468 | |
---|
[2007] | 3469 | ! sature |
---|
| 3470 | ft(il, i) = ft(il, i) + 0.01*grav*dpinv * & |
---|
| 3471 | (amp1(il)*(t(il,i+1)-t(il,i) + (gz(il,i+1)-gz(il,i))*cpinv) - & |
---|
| 3472 | ad(il)*(t(il,i)-t(il,i-1)+(gz(il,i)-gz(il,i-1))*cpinv)) |
---|
[1992] | 3473 | |
---|
| 3474 | |
---|
[2007] | 3475 | IF (iflag_mix==0) THEN |
---|
| 3476 | ft(il, i) = ft(il, i) + 0.01*grav*dpinv*ment(il, i, i)*(hp(il,i)-h(il,i) + & |
---|
| 3477 | t(il,i)*(cpv-cpd)*(rr(il,i)-qent(il,i,i)))*cpinv |
---|
| 3478 | END IF |
---|
[1992] | 3479 | |
---|
| 3480 | |
---|
| 3481 | |
---|
[2007] | 3482 | ! sb: on ne fait pas encore la correction permettant de mieux |
---|
| 3483 | ! conserver l'eau: |
---|
| 3484 | !JYG: correction permettant de mieux conserver l'eau: |
---|
| 3485 | ! cc fr(il,i)=0.5*sigd(il)*(evap(il,i)+evap(il,i+1)) |
---|
| 3486 | fr(il, i) = sigd(il)*evap(il, i) + 0.01*grav*(mp(il,i+1)*(rp(il,i+1)-rr_wake(il,i)) - & |
---|
| 3487 | mp(il,i)*(rp(il,i)-rr_wake(il,i-1)))*dpinv |
---|
| 3488 | fqd(il, i) = fr(il, i) ! precip |
---|
[1992] | 3489 | |
---|
[2007] | 3490 | fu(il, i) = 0.01*grav*(mp(il,i+1)*(up(il,i+1)-u(il,i)) - & |
---|
| 3491 | mp(il,i)*(up(il,i)-u(il,i-1)))*dpinv |
---|
| 3492 | fv(il, i) = 0.01*grav*(mp(il,i+1)*(vp(il,i+1)-v(il,i)) - & |
---|
| 3493 | mp(il,i)*(vp(il,i)-v(il,i-1)))*dpinv |
---|
[1992] | 3494 | |
---|
| 3495 | |
---|
[2007] | 3496 | fr(il, i) = fr(il, i) + 0.01*grav*dpinv*(amp1(il)*(rr(il,i+1)-rr(il,i)) - & |
---|
| 3497 | ad(il)*(rr(il,i)-rr(il,i-1))) |
---|
| 3498 | fu(il, i) = fu(il, i) + 0.01*grav*dpinv*(amp1(il)*(u(il,i+1)-u(il,i)) - & |
---|
| 3499 | ad(il)*(u(il,i)-u(il,i-1))) |
---|
| 3500 | fv(il, i) = fv(il, i) + 0.01*grav*dpinv*(amp1(il)*(v(il,i+1)-v(il,i)) - & |
---|
| 3501 | ad(il)*(v(il,i)-v(il,i-1))) |
---|
[1992] | 3502 | |
---|
| 3503 | END IF ! i |
---|
| 3504 | END DO |
---|
| 3505 | |
---|
[2007] | 3506 | !AC! do k=1,ntra |
---|
| 3507 | !AC! do il=1,ncum |
---|
| 3508 | !AC! if (i.le.inb(il) .and. iflag(il) .le. 1) then |
---|
| 3509 | !AC! dpinv=1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3510 | !AC! cpinv=1.0/cpn(il,i) |
---|
| 3511 | !AC! if (cvflag_grav) then |
---|
| 3512 | !AC! ftra(il,i,k)=ftra(il,i,k)+0.01*grav*dpinv |
---|
| 3513 | !AC! : *(amp1(il)*(tra(il,i+1,k)-tra(il,i,k)) |
---|
| 3514 | !AC! : -ad(il)*(tra(il,i,k)-tra(il,i-1,k))) |
---|
| 3515 | !AC! else |
---|
| 3516 | !AC! ftra(il,i,k)=ftra(il,i,k)+0.1*dpinv |
---|
| 3517 | !AC! : *(amp1(il)*(tra(il,i+1,k)-tra(il,i,k)) |
---|
| 3518 | !AC! : -ad(il)*(tra(il,i,k)-tra(il,i-1,k))) |
---|
| 3519 | !AC! endif |
---|
| 3520 | !AC! endif |
---|
| 3521 | !AC! enddo |
---|
| 3522 | !AC! enddo |
---|
[1992] | 3523 | |
---|
| 3524 | DO k = 1, i - 1 |
---|
| 3525 | |
---|
| 3526 | DO il = 1, ncum |
---|
| 3527 | awat(il) = elij(il, k, i) - (1.-ep(il,i))*clw(il, i) |
---|
| 3528 | awat(il) = max(awat(il), 0.0) |
---|
| 3529 | END DO |
---|
| 3530 | |
---|
| 3531 | IF (iflag_mix/=0) THEN |
---|
| 3532 | DO il = 1, ncum |
---|
| 3533 | IF (i<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3534 | dpinv = 1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3535 | cpinv = 1.0/cpn(il, i) |
---|
[2007] | 3536 | ft(il, i) = ft(il, i) + 0.01*grav*dpinv*ment(il, k, i) * & |
---|
| 3537 | (hent(il,k,i)-h(il,i)+t(il,i)*(cpv-cpd)*(rr(il,i)+awat(il)-qent(il,k,i)))*cpinv |
---|
| 3538 | ! |
---|
| 3539 | ! |
---|
[1992] | 3540 | END IF ! i |
---|
| 3541 | END DO |
---|
| 3542 | END IF |
---|
| 3543 | |
---|
| 3544 | DO il = 1, ncum |
---|
| 3545 | IF (i<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3546 | dpinv = 1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3547 | cpinv = 1.0/cpn(il, i) |
---|
[2007] | 3548 | fr(il, i) = fr(il, i) + 0.01*grav*dpinv*ment(il, k, i) * & |
---|
| 3549 | (qent(il,k,i)-awat(il)-rr(il,i)) |
---|
| 3550 | fu(il, i) = fu(il, i) + 0.01*grav*dpinv*ment(il, k, i)*(uent(il,k,i)-u(il,i)) |
---|
| 3551 | fv(il, i) = fv(il, i) + 0.01*grav*dpinv*ment(il, k, i)*(vent(il,k,i)-v(il,i)) |
---|
[1992] | 3552 | |
---|
[2007] | 3553 | ! (saturated updrafts resulting from mixing) ! cld |
---|
| 3554 | qcond(il, i) = qcond(il, i) + (elij(il,k,i)-awat(il)) ! cld |
---|
[2205] | 3555 | qtment(il, i) = qtment(il, i) + qent(il,k,i) ! cld |
---|
| 3556 | nqcond(il, i) = nqcond(il, i) + 1. ! cld |
---|
[1992] | 3557 | END IF ! i |
---|
| 3558 | END DO |
---|
| 3559 | END DO |
---|
| 3560 | |
---|
[2007] | 3561 | !AC! do j=1,ntra |
---|
| 3562 | !AC! do k=1,i-1 |
---|
| 3563 | !AC! do il=1,ncum |
---|
| 3564 | !AC! if (i.le.inb(il) .and. iflag(il) .le. 1) then |
---|
| 3565 | !AC! dpinv=1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3566 | !AC! cpinv=1.0/cpn(il,i) |
---|
| 3567 | !AC! if (cvflag_grav) then |
---|
| 3568 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.01*grav*dpinv*ment(il,k,i) |
---|
| 3569 | !AC! : *(traent(il,k,i,j)-tra(il,i,j)) |
---|
| 3570 | !AC! else |
---|
| 3571 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.1*dpinv*ment(il,k,i) |
---|
| 3572 | !AC! : *(traent(il,k,i,j)-tra(il,i,j)) |
---|
| 3573 | !AC! endif |
---|
| 3574 | !AC! endif |
---|
| 3575 | !AC! enddo |
---|
| 3576 | !AC! enddo |
---|
| 3577 | !AC! enddo |
---|
[1992] | 3578 | |
---|
[2508] | 3579 | !jyg< |
---|
| 3580 | !! DO k = i, nl + 1 |
---|
| 3581 | DO k = i, nl |
---|
| 3582 | !>jyg |
---|
[1992] | 3583 | |
---|
| 3584 | IF (iflag_mix/=0) THEN |
---|
| 3585 | DO il = 1, ncum |
---|
| 3586 | IF (i<=inb(il) .AND. k<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3587 | dpinv = 1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3588 | cpinv = 1.0/cpn(il, i) |
---|
[2007] | 3589 | ft(il, i) = ft(il, i) + 0.01*grav*dpinv*ment(il, k, i) * & |
---|
| 3590 | (hent(il,k,i)-h(il,i)+t(il,i)*(cpv-cpd)*(rr(il,i)-qent(il,k,i)))*cpinv |
---|
[1992] | 3591 | |
---|
| 3592 | |
---|
| 3593 | END IF ! i |
---|
| 3594 | END DO |
---|
| 3595 | END IF |
---|
| 3596 | |
---|
| 3597 | DO il = 1, ncum |
---|
| 3598 | IF (i<=inb(il) .AND. k<=inb(il) .AND. iflag(il)<=1) THEN |
---|
| 3599 | dpinv = 1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3600 | cpinv = 1.0/cpn(il, i) |
---|
| 3601 | |
---|
[2007] | 3602 | fr(il, i) = fr(il, i) + 0.01*grav*dpinv*ment(il, k, i)*(qent(il,k,i)-rr(il,i)) |
---|
| 3603 | fu(il, i) = fu(il, i) + 0.01*grav*dpinv*ment(il, k, i)*(uent(il,k,i)-u(il,i)) |
---|
| 3604 | fv(il, i) = fv(il, i) + 0.01*grav*dpinv*ment(il, k, i)*(vent(il,k,i)-v(il,i)) |
---|
[1992] | 3605 | END IF ! i and k |
---|
| 3606 | END DO |
---|
| 3607 | END DO |
---|
| 3608 | |
---|
[2007] | 3609 | !AC! do j=1,ntra |
---|
| 3610 | !AC! do k=i,nl+1 |
---|
| 3611 | !AC! do il=1,ncum |
---|
| 3612 | !AC! if (i.le.inb(il) .and. k.le.inb(il) |
---|
| 3613 | !AC! $ .and. iflag(il) .le. 1) then |
---|
| 3614 | !AC! dpinv=1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3615 | !AC! cpinv=1.0/cpn(il,i) |
---|
| 3616 | !AC! if (cvflag_grav) then |
---|
| 3617 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.01*grav*dpinv*ment(il,k,i) |
---|
| 3618 | !AC! : *(traent(il,k,i,j)-tra(il,i,j)) |
---|
| 3619 | !AC! else |
---|
| 3620 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.1*dpinv*ment(il,k,i) |
---|
| 3621 | !AC! : *(traent(il,k,i,j)-tra(il,i,j)) |
---|
| 3622 | !AC! endif |
---|
| 3623 | !AC! endif ! i and k |
---|
| 3624 | !AC! enddo |
---|
| 3625 | !AC! enddo |
---|
| 3626 | !AC! enddo |
---|
[1992] | 3627 | |
---|
[2007] | 3628 | ! sb: interface with the cloud parameterization: ! cld |
---|
[1992] | 3629 | |
---|
| 3630 | DO k = i + 1, nl |
---|
| 3631 | DO il = 1, ncum |
---|
[2007] | 3632 | IF (k<=inb(il) .AND. i<=inb(il) .AND. iflag(il)<=1) THEN ! cld |
---|
| 3633 | ! (saturated downdrafts resulting from mixing) ! cld |
---|
| 3634 | qcond(il, i) = qcond(il, i) + elij(il, k, i) ! cld |
---|
[2205] | 3635 | qtment(il, i) = qent(il,k,i) + qtment(il,i) ! cld |
---|
| 3636 | nqcond(il, i) = nqcond(il, i) + 1. ! cld |
---|
[1992] | 3637 | END IF ! cld |
---|
| 3638 | END DO ! cld |
---|
| 3639 | END DO ! cld |
---|
| 3640 | |
---|
[2007] | 3641 | ! (particular case: no detraining level is found) ! cld |
---|
| 3642 | DO il = 1, ncum ! cld |
---|
| 3643 | IF (i<=inb(il) .AND. nent(il,i)==0 .AND. iflag(il)<=1) THEN ! cld |
---|
| 3644 | qcond(il, i) = qcond(il, i) + (1.-ep(il,i))*clw(il, i) ! cld |
---|
[2205] | 3645 | qtment(il, i) = qent(il,k,i) + qtment(il,i) ! cld |
---|
[2007] | 3646 | nqcond(il, i) = nqcond(il, i) + 1. ! cld |
---|
| 3647 | END IF ! cld |
---|
| 3648 | END DO ! cld |
---|
[1992] | 3649 | |
---|
[2007] | 3650 | DO il = 1, ncum ! cld |
---|
| 3651 | IF (i<=inb(il) .AND. nqcond(il,i)/=0 .AND. iflag(il)<=1) THEN ! cld |
---|
| 3652 | qcond(il, i) = qcond(il, i)/nqcond(il, i) ! cld |
---|
[2205] | 3653 | qtment(il, i) = qtment(il,i)/nqcond(il, i) ! cld |
---|
[2007] | 3654 | END IF ! cld |
---|
[1992] | 3655 | END DO |
---|
| 3656 | |
---|
[2007] | 3657 | !AC! do j=1,ntra |
---|
| 3658 | !AC! do il=1,ncum |
---|
| 3659 | !AC! if (i.le.inb(il) .and. iflag(il) .le. 1) then |
---|
| 3660 | !AC! dpinv=1.0/(ph(il,i)-ph(il,i+1)) |
---|
| 3661 | !AC! cpinv=1.0/cpn(il,i) |
---|
| 3662 | !AC! |
---|
| 3663 | !AC! if (cvflag_grav) then |
---|
| 3664 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.01*grav*dpinv |
---|
| 3665 | !AC! : *(mp(il,i+1)*(trap(il,i+1,j)-tra(il,i,j)) |
---|
| 3666 | !AC! : -mp(il,i)*(trap(il,i,j)-trap(il,i-1,j))) |
---|
| 3667 | !AC! else |
---|
| 3668 | !AC! ftra(il,i,j)=ftra(il,i,j)+0.1*dpinv |
---|
| 3669 | !AC! : *(mp(il,i+1)*(trap(il,i+1,j)-tra(il,i,j)) |
---|
| 3670 | !AC! : -mp(il,i)*(trap(il,i,j)-trap(il,i-1,j))) |
---|
| 3671 | !AC! endif |
---|
| 3672 | !AC! endif ! i |
---|
| 3673 | !AC! enddo |
---|
| 3674 | !AC! enddo |
---|
[1992] | 3675 | |
---|
| 3676 | |
---|
| 3677 | 500 END DO |
---|
| 3678 | |
---|
[2007] | 3679 | !JYG< |
---|
| 3680 | !Conservation de l'eau |
---|
| 3681 | ! sumdq = 0. |
---|
| 3682 | ! DO k = 1, nl |
---|
| 3683 | ! sumdq = sumdq + fr(1, k)*100.*(ph(1,k)-ph(1,k+1))/grav |
---|
| 3684 | ! END DO |
---|
| 3685 | ! PRINT *, 'cv3_yield, apres 500, sum(dq), precip, somme ', sumdq, Vprecip(1, 1), sumdq + vprecip(1, 1) |
---|
| 3686 | !JYG> |
---|
| 3687 | ! *** move the detrainment at level inb down to level inb-1 *** |
---|
| 3688 | ! *** in such a way as to preserve the vertically *** |
---|
| 3689 | ! *** integrated enthalpy and water tendencies *** |
---|
[1992] | 3690 | |
---|
[2007] | 3691 | ! Correction bug le 18-03-09 |
---|
[1992] | 3692 | DO il = 1, ncum |
---|
| 3693 | IF (iflag(il)<=1) THEN |
---|
[2007] | 3694 | ax = 0.01*grav*ment(il, inb(il), inb(il))* & |
---|
| 3695 | (hp(il,inb(il))-h(il,inb(il))+t(il,inb(il))*(cpv-cpd)*(rr(il,inb(il))-qent(il,inb(il),inb(il))))/ & |
---|
| 3696 | (cpn(il,inb(il))*(ph(il,inb(il))-ph(il,inb(il)+1))) |
---|
| 3697 | ft(il, inb(il)) = ft(il, inb(il)) - ax |
---|
| 3698 | ft(il, inb(il)-1) = ft(il, inb(il)-1) + ax*cpn(il, inb(il))*(ph(il,inb(il))-ph(il,inb(il)+1))/ & |
---|
| 3699 | (cpn(il,inb(il)-1)*(ph(il,inb(il)-1)-ph(il,inb(il)))) |
---|
[1992] | 3700 | |
---|
[2007] | 3701 | bx = 0.01*grav*ment(il, inb(il), inb(il))*(qent(il,inb(il),inb(il))-rr(il,inb(il)))/ & |
---|
| 3702 | (ph(il,inb(il))-ph(il,inb(il)+1)) |
---|
| 3703 | fr(il, inb(il)) = fr(il, inb(il)) - bx |
---|
| 3704 | fr(il, inb(il)-1) = fr(il, inb(il)-1) + bx*(ph(il,inb(il))-ph(il,inb(il)+1))/ & |
---|
| 3705 | (ph(il,inb(il)-1)-ph(il,inb(il))) |
---|
[1992] | 3706 | |
---|
[2007] | 3707 | cx = 0.01*grav*ment(il, inb(il), inb(il))*(uent(il,inb(il),inb(il))-u(il,inb(il)))/ & |
---|
| 3708 | (ph(il,inb(il))-ph(il,inb(il)+1)) |
---|
| 3709 | fu(il, inb(il)) = fu(il, inb(il)) - cx |
---|
| 3710 | fu(il, inb(il)-1) = fu(il, inb(il)-1) + cx*(ph(il,inb(il))-ph(il,inb(il)+1))/ & |
---|
| 3711 | (ph(il,inb(il)-1)-ph(il,inb(il))) |
---|
[1992] | 3712 | |
---|
[2007] | 3713 | dx = 0.01*grav*ment(il, inb(il), inb(il))*(vent(il,inb(il),inb(il))-v(il,inb(il)))/ & |
---|
| 3714 | (ph(il,inb(il))-ph(il,inb(il)+1)) |
---|
| 3715 | fv(il, inb(il)) = fv(il, inb(il)) - dx |
---|
| 3716 | fv(il, inb(il)-1) = fv(il, inb(il)-1) + dx*(ph(il,inb(il))-ph(il,inb(il)+1))/ & |
---|
| 3717 | (ph(il,inb(il)-1)-ph(il,inb(il))) |
---|
[1992] | 3718 | END IF !iflag |
---|
| 3719 | END DO |
---|
| 3720 | |
---|
[2007] | 3721 | !JYG< |
---|
| 3722 | !Conservation de l'eau |
---|
| 3723 | ! sumdq = 0. |
---|
| 3724 | ! DO k = 1, nl |
---|
| 3725 | ! sumdq = sumdq + fr(1, k)*100.*(ph(1,k)-ph(1,k+1))/grav |
---|
| 3726 | ! END DO |
---|
| 3727 | ! PRINT *, 'cv3_yield, apres 503, sum(dq), precip, somme ', sumdq, Vprecip(1, 1), sumdq + vprecip(1, 1) |
---|
| 3728 | !JYG> |
---|
[1992] | 3729 | |
---|
[2007] | 3730 | !AC! do j=1,ntra |
---|
| 3731 | !AC! do il=1,ncum |
---|
| 3732 | !AC! IF (iflag(il) .le. 1) THEN |
---|
| 3733 | !AC! IF (cvflag_grav) then |
---|
| 3734 | !AC! ex=0.01*grav*ment(il,inb(il),inb(il)) |
---|
| 3735 | !AC! : *(traent(il,inb(il),inb(il),j)-tra(il,inb(il),j)) |
---|
| 3736 | !AC! : /(ph(i l,inb(il))-ph(il,inb(il)+1)) |
---|
| 3737 | !AC! ftra(il,inb(il),j)=ftra(il,inb(il),j)-ex |
---|
| 3738 | !AC! ftra(il,inb(il)-1,j)=ftra(il,inb(il)-1,j) |
---|
| 3739 | !AC! : +ex*(ph(il,inb(il))-ph(il,inb(il)+1)) |
---|
| 3740 | !AC! : /(ph(il,inb(il)-1)-ph(il,inb(il))) |
---|
| 3741 | !AC! else |
---|
| 3742 | !AC! ex=0.1*ment(il,inb(il),inb(il)) |
---|
| 3743 | !AC! : *(traent(il,inb(il),inb(il),j)-tra(il,inb(il),j)) |
---|
| 3744 | !AC! : /(ph(i l,inb(il))-ph(il,inb(il)+1)) |
---|
| 3745 | !AC! ftra(il,inb(il),j)=ftra(il,inb(il),j)-ex |
---|
| 3746 | !AC! ftra(il,inb(il)-1,j)=ftra(il,inb(il)-1,j) |
---|
| 3747 | !AC! : +ex*(ph(il,inb(il))-ph(il,inb(il)+1)) |
---|
| 3748 | !AC! : /(ph(il,inb(il)-1)-ph(il,inb(il))) |
---|
| 3749 | !AC! ENDIF !cvflag grav |
---|
| 3750 | !AC! ENDIF !iflag |
---|
| 3751 | !AC! enddo |
---|
| 3752 | !AC! enddo |
---|
[1992] | 3753 | |
---|
| 3754 | |
---|
[2007] | 3755 | ! *** homogenize tendencies below cloud base *** |
---|
[1992] | 3756 | |
---|
[2007] | 3757 | |
---|
[1992] | 3758 | DO il = 1, ncum |
---|
| 3759 | asum(il) = 0.0 |
---|
| 3760 | bsum(il) = 0.0 |
---|
| 3761 | csum(il) = 0.0 |
---|
| 3762 | dsum(il) = 0.0 |
---|
| 3763 | esum(il) = 0.0 |
---|
| 3764 | fsum(il) = 0.0 |
---|
| 3765 | gsum(il) = 0.0 |
---|
| 3766 | hsum(il) = 0.0 |
---|
| 3767 | END DO |
---|
| 3768 | |
---|
[2007] | 3769 | !do i=1,nl |
---|
| 3770 | !do il=1,ncum |
---|
| 3771 | !th_wake(il,i)=t_wake(il,i)*(1000.0/p(il,i))**rdcp |
---|
| 3772 | !enddo |
---|
| 3773 | !enddo |
---|
[1992] | 3774 | |
---|
| 3775 | DO i = 1, nl |
---|
| 3776 | DO il = 1, ncum |
---|
| 3777 | IF (i<=(icb(il)-1) .AND. iflag(il)<=1) THEN |
---|
[2007] | 3778 | !jyg Saturated part : use T profile |
---|
[1992] | 3779 | asum(il) = asum(il) + (ft(il,i)-ftd(il,i))*(ph(il,i)-ph(il,i+1)) |
---|
[2007] | 3780 | !jyg<20140311 |
---|
| 3781 | !Correction pour conserver l eau |
---|
| 3782 | IF (ok_conserv_q) THEN |
---|
| 3783 | bsum(il) = bsum(il) + (fr(il,i)-fqd(il,i))*(ph(il,i)-ph(il,i+1)) |
---|
| 3784 | csum(il) = csum(il) + (ph(il,i)-ph(il,i+1)) |
---|
| 3785 | |
---|
| 3786 | ELSE |
---|
| 3787 | bsum(il)=bsum(il)+(fr(il,i)-fqd(il,i))*(lv(il,i)+(cl-cpd)*(t(il,i)-t(il,1)))* & |
---|
| 3788 | (ph(il,i)-ph(il,i+1)) |
---|
| 3789 | csum(il)=csum(il)+(lv(il,i)+(cl-cpd)*(t(il,i)-t(il,1)))* & |
---|
| 3790 | (ph(il,i)-ph(il,i+1)) |
---|
| 3791 | ENDIF ! (ok_conserv_q) |
---|
| 3792 | !jyg> |
---|
[1992] | 3793 | dsum(il) = dsum(il) + t(il, i)*(ph(il,i)-ph(il,i+1))/th(il, i) |
---|
[2007] | 3794 | !jyg Unsaturated part : use T_wake profile |
---|
[1992] | 3795 | esum(il) = esum(il) + ftd(il, i)*(ph(il,i)-ph(il,i+1)) |
---|
[2007] | 3796 | !jyg<20140311 |
---|
| 3797 | !Correction pour conserver l eau |
---|
| 3798 | IF (ok_conserv_q) THEN |
---|
| 3799 | fsum(il) = fsum(il) + fqd(il, i)*(ph(il,i)-ph(il,i+1)) |
---|
| 3800 | gsum(il) = gsum(il) + (ph(il,i)-ph(il,i+1)) |
---|
| 3801 | ELSE |
---|
| 3802 | fsum(il)=fsum(il)+fqd(il,i)*(lv(il,i)+(cl-cpd)*(t_wake(il,i)-t_wake(il,1)))* & |
---|
| 3803 | (ph(il,i)-ph(il,i+1)) |
---|
| 3804 | gsum(il)=gsum(il)+(lv(il,i)+(cl-cpd)*(t_wake(il,i)-t_wake(il,1)))* & |
---|
| 3805 | (ph(il,i)-ph(il,i+1)) |
---|
| 3806 | ENDIF ! (ok_conserv_q) |
---|
| 3807 | !jyg> |
---|
| 3808 | hsum(il) = hsum(il) + t_wake(il, i)*(ph(il,i)-ph(il,i+1))/th_wake(il, i) |
---|
[1992] | 3809 | END IF |
---|
| 3810 | END DO |
---|
| 3811 | END DO |
---|
| 3812 | |
---|
[2007] | 3813 | !!!! do 700 i=1,icb(il)-1 |
---|
[1992] | 3814 | DO i = 1, nl |
---|
| 3815 | DO il = 1, ncum |
---|
| 3816 | IF (i<=(icb(il)-1) .AND. iflag(il)<=1) THEN |
---|
| 3817 | ftd(il, i) = esum(il)*t_wake(il, i)/(th_wake(il,i)*hsum(il)) |
---|
| 3818 | fqd(il, i) = fsum(il)/gsum(il) |
---|
| 3819 | ft(il, i) = ftd(il, i) + asum(il)*t(il, i)/(th(il,i)*dsum(il)) |
---|
| 3820 | fr(il, i) = fqd(il, i) + bsum(il)/csum(il) |
---|
| 3821 | END IF |
---|
| 3822 | END DO |
---|
| 3823 | END DO |
---|
| 3824 | |
---|
[2007] | 3825 | !jyg< |
---|
| 3826 | !Conservation de l'eau |
---|
| 3827 | !! sumdq = 0. |
---|
| 3828 | !! DO k = 1, nl |
---|
| 3829 | !! sumdq = sumdq + fr(1, k)*100.*(ph(1,k)-ph(1,k+1))/grav |
---|
| 3830 | !! END DO |
---|
| 3831 | !! PRINT *, 'cv3_yield, apres hom, sum(dq), precip, somme ', sumdq, Vprecip(1, 1), sumdq + vprecip(1, 1) |
---|
| 3832 | !jyg> |
---|
[1992] | 3833 | |
---|
[2007] | 3834 | |
---|
| 3835 | ! *** Check that moisture stays positive. If not, scale tendencies |
---|
| 3836 | ! in order to ensure moisture positivity |
---|
[1992] | 3837 | DO il = 1, ncum |
---|
| 3838 | alpha_qpos(il) = 1. |
---|
| 3839 | IF (iflag(il)<=1) THEN |
---|
| 3840 | IF (fr(il,1)<=0.) THEN |
---|
[2007] | 3841 | alpha_qpos(il) = max(alpha_qpos(il), (-delt*fr(il,1))/(s_wake(il)*rr_wake(il,1)+(1.-s_wake(il))*rr(il,1))) |
---|
[1992] | 3842 | END IF |
---|
| 3843 | END IF |
---|
| 3844 | END DO |
---|
| 3845 | DO i = 2, nl |
---|
| 3846 | DO il = 1, ncum |
---|
| 3847 | IF (iflag(il)<=1) THEN |
---|
| 3848 | IF (fr(il,i)<=0.) THEN |
---|
[2007] | 3849 | alpha_qpos1(il) = max(1., (-delt*fr(il,i))/(s_wake(il)*rr_wake(il,i)+(1.-s_wake(il))*rr(il,i))) |
---|
| 3850 | IF (alpha_qpos1(il)>=alpha_qpos(il)) alpha_qpos(il) = alpha_qpos1(il) |
---|
[1992] | 3851 | END IF |
---|
| 3852 | END IF |
---|
| 3853 | END DO |
---|
| 3854 | END DO |
---|
| 3855 | DO il = 1, ncum |
---|
| 3856 | IF (iflag(il)<=1 .AND. alpha_qpos(il)>1.001) THEN |
---|
| 3857 | alpha_qpos(il) = alpha_qpos(il)*1.1 |
---|
| 3858 | END IF |
---|
| 3859 | END DO |
---|
[2327] | 3860 | ! |
---|
[2364] | 3861 | ! print *,' YIELD : alpha_qpos ',alpha_qpos(1) |
---|
[2327] | 3862 | ! |
---|
[1992] | 3863 | DO il = 1, ncum |
---|
| 3864 | IF (iflag(il)<=1) THEN |
---|
| 3865 | sigd(il) = sigd(il)/alpha_qpos(il) |
---|
| 3866 | precip(il) = precip(il)/alpha_qpos(il) |
---|
[2579] | 3867 | cbmf(il) = cbmf(il)/alpha_qpos(il) |
---|
[1992] | 3868 | END IF |
---|
| 3869 | END DO |
---|
| 3870 | DO i = 1, nl |
---|
| 3871 | DO il = 1, ncum |
---|
| 3872 | IF (iflag(il)<=1) THEN |
---|
| 3873 | fr(il, i) = fr(il, i)/alpha_qpos(il) |
---|
| 3874 | ft(il, i) = ft(il, i)/alpha_qpos(il) |
---|
| 3875 | fqd(il, i) = fqd(il, i)/alpha_qpos(il) |
---|
| 3876 | ftd(il, i) = ftd(il, i)/alpha_qpos(il) |
---|
| 3877 | fu(il, i) = fu(il, i)/alpha_qpos(il) |
---|
| 3878 | fv(il, i) = fv(il, i)/alpha_qpos(il) |
---|
| 3879 | m(il, i) = m(il, i)/alpha_qpos(il) |
---|
| 3880 | mp(il, i) = mp(il, i)/alpha_qpos(il) |
---|
[2306] | 3881 | Vprecip(il, i) = Vprecip(il, i)/alpha_qpos(il) |
---|
| 3882 | Vprecipi(il, i) = Vprecipi(il, i)/alpha_qpos(il) ! jyg |
---|
[1992] | 3883 | END IF |
---|
| 3884 | END DO |
---|
| 3885 | END DO |
---|
[2508] | 3886 | !jyg< |
---|
| 3887 | !----------------------------------------------------------- |
---|
| 3888 | IF (ok_optim_yield) THEN !| |
---|
| 3889 | !----------------------------------------------------------- |
---|
[2459] | 3890 | DO i = 1, nl |
---|
[2508] | 3891 | DO il = 1, ncum |
---|
| 3892 | IF (iflag(il)<=1) THEN |
---|
| 3893 | upwd(il, i) = upwd(il, i)/alpha_qpos(il) |
---|
| 3894 | dnwd(il, i) = dnwd(il, i)/alpha_qpos(il) |
---|
| 3895 | END IF |
---|
| 3896 | END DO |
---|
| 3897 | END DO |
---|
| 3898 | !----------------------------------------------------------- |
---|
| 3899 | ENDIF !(ok_optim_yield) !| |
---|
| 3900 | !----------------------------------------------------------- |
---|
| 3901 | !>jyg |
---|
| 3902 | DO j = 1, nl !yor! inverted i and j loops |
---|
| 3903 | DO i = 1, nl |
---|
[1992] | 3904 | DO il = 1, ncum |
---|
| 3905 | IF (iflag(il)<=1) THEN |
---|
| 3906 | ment(il, i, j) = ment(il, i, j)/alpha_qpos(il) |
---|
| 3907 | END IF |
---|
| 3908 | END DO |
---|
| 3909 | END DO |
---|
| 3910 | END DO |
---|
| 3911 | |
---|
[2007] | 3912 | !AC! DO j = 1,ntra |
---|
| 3913 | !AC! DO i = 1,nl |
---|
| 3914 | !AC! DO il = 1,ncum |
---|
| 3915 | !AC! IF (iflag(il) .le. 1) THEN |
---|
| 3916 | !AC! ftra(il,i,j) = ftra(il,i,j)/alpha_qpos(il) |
---|
| 3917 | !AC! ENDIF |
---|
| 3918 | !AC! ENDDO |
---|
| 3919 | !AC! ENDDO |
---|
| 3920 | !AC! ENDDO |
---|
[1992] | 3921 | |
---|
| 3922 | |
---|
[2007] | 3923 | ! *** reset counter and return *** |
---|
[1992] | 3924 | |
---|
[2253] | 3925 | ! Reset counter only for points actually convective (jyg) |
---|
| 3926 | ! In order take into account the possibility of changing the compression, |
---|
| 3927 | ! reset m, sig and w0 to zero for non-convecting points. |
---|
[1992] | 3928 | DO il = 1, ncum |
---|
[2253] | 3929 | IF (iflag(il) < 3) THEN |
---|
| 3930 | sig(il, nd) = 2.0 |
---|
| 3931 | ENDIF |
---|
[1992] | 3932 | END DO |
---|
| 3933 | |
---|
| 3934 | |
---|
[2393] | 3935 | DO i = 1, nl |
---|
[1992] | 3936 | DO il = 1, ncum |
---|
| 3937 | dnwd0(il, i) = -mp(il, i) |
---|
| 3938 | END DO |
---|
| 3939 | END DO |
---|
[2393] | 3940 | !jyg< (loops stop at nl) |
---|
| 3941 | !! DO i = nl + 1, nd |
---|
| 3942 | !! DO il = 1, ncum |
---|
| 3943 | !! dnwd0(il, i) = 0. |
---|
| 3944 | !! END DO |
---|
| 3945 | !! END DO |
---|
| 3946 | !>jyg |
---|
[1992] | 3947 | |
---|
| 3948 | |
---|
[2508] | 3949 | !jyg< |
---|
| 3950 | !----------------------------------------------------------- |
---|
| 3951 | IF (.NOT.ok_optim_yield) THEN !| |
---|
| 3952 | !----------------------------------------------------------- |
---|
[1992] | 3953 | DO i = 1, nl |
---|
| 3954 | DO il = 1, ncum |
---|
[2508] | 3955 | upwd(il, i) = 0.0 |
---|
| 3956 | dnwd(il, i) = 0.0 |
---|
[1992] | 3957 | END DO |
---|
| 3958 | END DO |
---|
| 3959 | |
---|
[2508] | 3960 | !! DO i = 1, nl ! useless; jyg |
---|
| 3961 | !! DO il = 1, ncum ! useless; jyg |
---|
| 3962 | !! IF (i>=icb(il) .AND. i<=inb(il)) THEN ! useless; jyg |
---|
| 3963 | !! upwd(il, i) = 0.0 ! useless; jyg |
---|
| 3964 | !! dnwd(il, i) = 0.0 ! useless; jyg |
---|
| 3965 | !! END IF ! useless; jyg |
---|
| 3966 | !! END DO ! useless; jyg |
---|
| 3967 | !! END DO ! useless; jyg |
---|
| 3968 | |
---|
[1992] | 3969 | DO i = 1, nl |
---|
| 3970 | DO k = 1, nl |
---|
| 3971 | DO il = 1, ncum |
---|
| 3972 | up1(il, k, i) = 0.0 |
---|
| 3973 | dn1(il, k, i) = 0.0 |
---|
| 3974 | END DO |
---|
| 3975 | END DO |
---|
| 3976 | END DO |
---|
| 3977 | |
---|
[2508] | 3978 | !yor! commented original |
---|
| 3979 | ! DO i = 1, nl |
---|
| 3980 | ! DO k = i, nl |
---|
| 3981 | ! DO n = 1, i - 1 |
---|
| 3982 | ! DO il = 1, ncum |
---|
| 3983 | ! IF (i>=icb(il) .AND. i<=inb(il) .AND. k<=inb(il)) THEN |
---|
| 3984 | ! up1(il, k, i) = up1(il, k, i) + ment(il, n, k) |
---|
| 3985 | ! dn1(il, k, i) = dn1(il, k, i) - ment(il, k, n) |
---|
| 3986 | ! END IF |
---|
| 3987 | ! END DO |
---|
| 3988 | ! END DO |
---|
| 3989 | ! END DO |
---|
| 3990 | ! END DO |
---|
| 3991 | !yor! replaced with |
---|
[1992] | 3992 | DO i = 1, nl |
---|
| 3993 | DO k = i, nl |
---|
| 3994 | DO n = 1, i - 1 |
---|
| 3995 | DO il = 1, ncum |
---|
[2508] | 3996 | IF (i>=icb(il) .AND. k<=inb(il)) THEN ! yor ! as i always <= k |
---|
| 3997 | up1(il, k, i) = up1(il, k, i) + ment(il, n, k) |
---|
[1992] | 3998 | END IF |
---|
| 3999 | END DO |
---|
| 4000 | END DO |
---|
| 4001 | END DO |
---|
| 4002 | END DO |
---|
[2508] | 4003 | DO i = 1, nl |
---|
| 4004 | DO n = 1, i - 1 |
---|
| 4005 | DO k = i, nl |
---|
| 4006 | DO il = 1, ncum |
---|
| 4007 | IF (i>=icb(il) .AND. k<=inb(il)) THEN ! yor ! i always <= k |
---|
| 4008 | dn1(il, k, i) = dn1(il, k, i) - ment(il, k, n) |
---|
| 4009 | END IF |
---|
| 4010 | END DO |
---|
| 4011 | END DO |
---|
| 4012 | END DO |
---|
| 4013 | END DO |
---|
| 4014 | !yor! end replace |
---|
[1992] | 4015 | |
---|
| 4016 | DO i = 1, nl |
---|
| 4017 | DO k = 1, nl |
---|
| 4018 | DO il = 1, ncum |
---|
| 4019 | IF (i>=icb(il)) THEN |
---|
| 4020 | IF (k>=i .AND. k<=(inb(il))) THEN |
---|
| 4021 | upwd(il, i) = upwd(il, i) + m(il, k) |
---|
| 4022 | END IF |
---|
| 4023 | ELSE |
---|
| 4024 | IF (k<i) THEN |
---|
| 4025 | upwd(il, i) = upwd(il, i) + cbmf(il)*wghti(il, k) |
---|
| 4026 | END IF |
---|
| 4027 | END IF |
---|
[2007] | 4028 | ! c print *,'cbmf',il,i,k,cbmf(il),wghti(il,k) |
---|
[1992] | 4029 | END DO |
---|
| 4030 | END DO |
---|
| 4031 | END DO |
---|
| 4032 | |
---|
| 4033 | DO i = 2, nl |
---|
| 4034 | DO k = i, nl |
---|
| 4035 | DO il = 1, ncum |
---|
[2007] | 4036 | ! test if (i.ge.icb(il).and.i.le.inb(il).and.k.le.inb(il)) then |
---|
[1992] | 4037 | IF (i<=inb(il) .AND. k<=inb(il)) THEN |
---|
| 4038 | upwd(il, i) = upwd(il, i) + up1(il, k, i) |
---|
| 4039 | dnwd(il, i) = dnwd(il, i) + dn1(il, k, i) |
---|
| 4040 | END IF |
---|
[2007] | 4041 | ! c print *,'upwd',il,i,k,inb(il),upwd(il,i),m(il,k),up1(il,k,i) |
---|
[1992] | 4042 | END DO |
---|
| 4043 | END DO |
---|
| 4044 | END DO |
---|
| 4045 | |
---|
| 4046 | |
---|
[2007] | 4047 | !!!! DO il=1,ncum |
---|
| 4048 | !!!! do i=icb(il),inb(il) |
---|
| 4049 | !!!! |
---|
| 4050 | !!!! upwd(il,i)=0.0 |
---|
| 4051 | !!!! dnwd(il,i)=0.0 |
---|
| 4052 | !!!! do k=i,inb(il) |
---|
| 4053 | !!!! up1=0.0 |
---|
| 4054 | !!!! dn1=0.0 |
---|
| 4055 | !!!! do n=1,i-1 |
---|
| 4056 | !!!! up1=up1+ment(il,n,k) |
---|
| 4057 | !!!! dn1=dn1-ment(il,k,n) |
---|
| 4058 | !!!! enddo |
---|
| 4059 | !!!! upwd(il,i)=upwd(il,i)+m(il,k)+up1 |
---|
| 4060 | !!!! dnwd(il,i)=dnwd(il,i)+dn1 |
---|
| 4061 | !!!! enddo |
---|
| 4062 | !!!! enddo |
---|
| 4063 | !!!! |
---|
| 4064 | !!!! ENDDO |
---|
[2508] | 4065 | !----------------------------------------------------------- |
---|
| 4066 | ENDIF !(.NOT.ok_optim_yield) !| |
---|
| 4067 | !----------------------------------------------------------- |
---|
| 4068 | !>jyg |
---|
[1992] | 4069 | |
---|
[2007] | 4070 | ! ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
| 4071 | ! determination de la variation de flux ascendant entre |
---|
| 4072 | ! deux niveau non dilue mip |
---|
| 4073 | ! ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
[1992] | 4074 | |
---|
| 4075 | DO i = 1, nl |
---|
| 4076 | DO il = 1, ncum |
---|
| 4077 | mip(il, i) = m(il, i) |
---|
| 4078 | END DO |
---|
| 4079 | END DO |
---|
| 4080 | |
---|
[2393] | 4081 | !jyg< (loops stop at nl) |
---|
| 4082 | !! DO i = nl + 1, nd |
---|
| 4083 | !! DO il = 1, ncum |
---|
| 4084 | !! mip(il, i) = 0. |
---|
| 4085 | !! END DO |
---|
| 4086 | !! END DO |
---|
| 4087 | !>jyg |
---|
[1992] | 4088 | |
---|
[2393] | 4089 | DO i = 1, nlp |
---|
[1992] | 4090 | DO il = 1, ncum |
---|
| 4091 | ma(il, i) = 0 |
---|
| 4092 | END DO |
---|
| 4093 | END DO |
---|
| 4094 | |
---|
| 4095 | DO i = 1, nl |
---|
| 4096 | DO j = i, nl |
---|
| 4097 | DO il = 1, ncum |
---|
| 4098 | ma(il, i) = ma(il, i) + m(il, j) |
---|
| 4099 | END DO |
---|
| 4100 | END DO |
---|
| 4101 | END DO |
---|
| 4102 | |
---|
[2393] | 4103 | !jyg< (loops stop at nl) |
---|
| 4104 | !! DO i = nl + 1, nd |
---|
| 4105 | !! DO il = 1, ncum |
---|
| 4106 | !! ma(il, i) = 0. |
---|
| 4107 | !! END DO |
---|
| 4108 | !! END DO |
---|
| 4109 | !>jyg |
---|
[1992] | 4110 | |
---|
| 4111 | DO i = 1, nl |
---|
| 4112 | DO il = 1, ncum |
---|
| 4113 | IF (i<=(icb(il)-1)) THEN |
---|
| 4114 | ma(il, i) = 0 |
---|
| 4115 | END IF |
---|
| 4116 | END DO |
---|
| 4117 | END DO |
---|
| 4118 | |
---|
[2007] | 4119 | ! cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
| 4120 | ! icb represente de niveau ou se trouve la |
---|
| 4121 | ! base du nuage , et inb le top du nuage |
---|
| 4122 | ! ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
---|
[1992] | 4123 | |
---|
[2259] | 4124 | !! DO i = 1, nd ! unused . jyg |
---|
| 4125 | !! DO il = 1, ncum ! unused . jyg |
---|
| 4126 | !! mke(il, i) = upwd(il, i) + dnwd(il, i) ! unused . jyg |
---|
| 4127 | !! END DO ! unused . jyg |
---|
| 4128 | !! END DO ! unused . jyg |
---|
[1992] | 4129 | |
---|
[2259] | 4130 | !! DO i = 1, nd ! unused . jyg |
---|
| 4131 | !! DO il = 1, ncum ! unused . jyg |
---|
| 4132 | !! rdcp = (rrd*(1.-rr(il,i))-rr(il,i)*rrv)/(cpd*(1.-rr(il,i))+rr(il,i)*cpv) ! unused . jyg |
---|
| 4133 | !! tls(il, i) = t(il, i)*(1000.0/p(il,i))**rdcp ! unused . jyg |
---|
| 4134 | !! tps(il, i) = tp(il, i) ! unused . jyg |
---|
| 4135 | !! END DO ! unused . jyg |
---|
| 4136 | !! END DO ! unused . jyg |
---|
[1992] | 4137 | |
---|
| 4138 | |
---|
[2007] | 4139 | ! *** diagnose the in-cloud mixing ratio *** ! cld |
---|
| 4140 | ! *** of condensed water *** ! cld |
---|
| 4141 | !! cld |
---|
| 4142 | |
---|
[2393] | 4143 | DO i = 1, nl+1 ! cld |
---|
[2007] | 4144 | DO il = 1, ncum ! cld |
---|
| 4145 | mac(il, i) = 0.0 ! cld |
---|
| 4146 | wa(il, i) = 0.0 ! cld |
---|
| 4147 | siga(il, i) = 0.0 ! cld |
---|
| 4148 | sax(il, i) = 0.0 ! cld |
---|
| 4149 | END DO ! cld |
---|
| 4150 | END DO ! cld |
---|
| 4151 | |
---|
| 4152 | DO i = minorig, nl ! cld |
---|
| 4153 | DO k = i + 1, nl + 1 ! cld |
---|
| 4154 | DO il = 1, ncum ! cld |
---|
[1992] | 4155 | IF (i<=inb(il) .AND. k<=(inb(il)+1) .AND. iflag(il)<=1) THEN ! cld |
---|
[2007] | 4156 | mac(il, i) = mac(il, i) + m(il, k) ! cld |
---|
| 4157 | END IF ! cld |
---|
| 4158 | END DO ! cld |
---|
| 4159 | END DO ! cld |
---|
| 4160 | END DO ! cld |
---|
[1992] | 4161 | |
---|
[2007] | 4162 | DO i = 1, nl ! cld |
---|
| 4163 | DO j = 1, i ! cld |
---|
| 4164 | DO il = 1, ncum ! cld |
---|
| 4165 | IF (i>=icb(il) .AND. i<=(inb(il)-1) & ! cld |
---|
| 4166 | .AND. j>=icb(il) .AND. iflag(il)<=1) THEN ! cld |
---|
| 4167 | sax(il, i) = sax(il, i) + rrd*(tvp(il,j)-tv(il,j)) & ! cld |
---|
| 4168 | *(ph(il,j)-ph(il,j+1))/p(il, j) ! cld |
---|
| 4169 | END IF ! cld |
---|
| 4170 | END DO ! cld |
---|
| 4171 | END DO ! cld |
---|
| 4172 | END DO ! cld |
---|
[1992] | 4173 | |
---|
[2007] | 4174 | DO i = 1, nl ! cld |
---|
| 4175 | DO il = 1, ncum ! cld |
---|
| 4176 | IF (i>=icb(il) .AND. i<=(inb(il)-1) & ! cld |
---|
| 4177 | .AND. sax(il,i)>0.0 .AND. iflag(il)<=1) THEN ! cld |
---|
| 4178 | wa(il, i) = sqrt(2.*sax(il,i)) ! cld |
---|
| 4179 | END IF ! cld |
---|
| 4180 | END DO ! cld |
---|
[2205] | 4181 | END DO |
---|
| 4182 | ! cld |
---|
| 4183 | DO i = 1, nl |
---|
[1992] | 4184 | |
---|
[2205] | 4185 | ! 14/01/15 AJ je remets les parties manquantes cf JYG |
---|
| 4186 | ! Initialize sument to 0 |
---|
| 4187 | |
---|
| 4188 | DO il = 1,ncum |
---|
| 4189 | sument(il) = 0. |
---|
| 4190 | ENDDO |
---|
| 4191 | |
---|
| 4192 | ! Sum mixed mass fluxes in sument |
---|
| 4193 | |
---|
| 4194 | DO k = 1,nl |
---|
| 4195 | DO il = 1,ncum |
---|
| 4196 | IF (k<=inb(il) .AND. i<=inb(il) .AND. iflag(il)<=1) THEN ! cld |
---|
| 4197 | sument(il) =sument(il) + abs(ment(il,k,i)) |
---|
| 4198 | ENDIF |
---|
| 4199 | ENDDO ! il |
---|
| 4200 | ENDDO ! k |
---|
| 4201 | |
---|
| 4202 | ! 14/01/15 AJ delta n'a rien à faire là... |
---|
[2007] | 4203 | DO il = 1, ncum ! cld |
---|
| 4204 | IF (wa(il,i)>0.0 .AND. iflag(il)<=1) & ! cld |
---|
[2205] | 4205 | siga(il, i) = mac(il, i)/(coefw_cld_cv*wa(il, i)) & ! cld |
---|
| 4206 | *rrd*tvp(il, i)/p(il, i)/100. ! cld |
---|
| 4207 | |
---|
[2007] | 4208 | siga(il, i) = min(siga(il,i), 1.0) ! cld |
---|
[2205] | 4209 | |
---|
| 4210 | ! IM cf. FH |
---|
| 4211 | ! 14/01/15 AJ ne correspond pas à ce qui a été codé par JYG et SB |
---|
| 4212 | |
---|
[2007] | 4213 | IF (iflag_clw==0) THEN ! cld |
---|
| 4214 | qcondc(il, i) = siga(il, i)*clw(il, i)*(1.-ep(il,i)) & ! cld |
---|
| 4215 | +(1.-siga(il,i))*qcond(il, i) ! cld |
---|
[2205] | 4216 | |
---|
| 4217 | |
---|
| 4218 | sigment(il,i)=sument(il)*tau_cld_cv/(ph(il,i)-ph(il,i+1)) ! cld |
---|
| 4219 | sigment(il, i) = min(1.e-4+sigment(il,i), 1.0 - siga(il,i)) ! cld |
---|
| 4220 | qtc(il, i) = (siga(il,i)*qnk(il)+sigment(il,i)*qtment(il,i)) & ! cld |
---|
| 4221 | /(siga(il,i)+sigment(il,i)) ! cld |
---|
| 4222 | sigt(il,i) = sigment(il, i) + siga(il, i) |
---|
| 4223 | |
---|
| 4224 | ! qtc(il, i) = siga(il,i)*qnk(il)+(1.-siga(il,i))*qtment(il,i) ! cld |
---|
[2208] | 4225 | ! print*,'BIGAUSSIAN CONV',siga(il,i),sigment(il,i),qtc(il,i) |
---|
[2205] | 4226 | |
---|
[2007] | 4227 | ELSE IF (iflag_clw==1) THEN ! cld |
---|
| 4228 | qcondc(il, i) = qcond(il, i) ! cld |
---|
[2205] | 4229 | qtc(il,i) = qtment(il,i) ! cld |
---|
[2007] | 4230 | END IF ! cld |
---|
[1992] | 4231 | |
---|
[2007] | 4232 | END DO ! cld |
---|
[1992] | 4233 | END DO |
---|
[2007] | 4234 | ! print*,'cv3_yield fin' |
---|
| 4235 | |
---|
[1992] | 4236 | RETURN |
---|
| 4237 | END SUBROUTINE cv3_yield |
---|
| 4238 | |
---|
[2007] | 4239 | !AC! et !RomP >>> |
---|
| 4240 | SUBROUTINE cv3_tracer(nloc, len, ncum, nd, na, & |
---|
| 4241 | ment, sigij, da, phi, phi2, d1a, dam, & |
---|
| 4242 | ep, Vprecip, elij, clw, epmlmMm, eplaMm, & |
---|
| 4243 | icb, inb) |
---|
[1992] | 4244 | IMPLICIT NONE |
---|
| 4245 | |
---|
| 4246 | include "cv3param.h" |
---|
| 4247 | |
---|
[2007] | 4248 | !inputs: |
---|
[1992] | 4249 | INTEGER ncum, nd, na, nloc, len |
---|
| 4250 | REAL ment(nloc, na, na), sigij(nloc, na, na) |
---|
| 4251 | REAL clw(nloc, nd), elij(nloc, na, na) |
---|
| 4252 | REAL ep(nloc, na) |
---|
| 4253 | INTEGER icb(nloc), inb(nloc) |
---|
[2007] | 4254 | REAL Vprecip(nloc, nd+1) |
---|
| 4255 | !ouputs: |
---|
[1992] | 4256 | REAL da(nloc, na), phi(nloc, na, na) |
---|
| 4257 | REAL phi2(nloc, na, na) |
---|
| 4258 | REAL d1a(nloc, na), dam(nloc, na) |
---|
[2007] | 4259 | REAL epmlmMm(nloc, na, na), eplaMm(nloc, na) |
---|
| 4260 | ! variables pour tracer dans precip de l'AA et des mel |
---|
| 4261 | !local variables: |
---|
[1992] | 4262 | INTEGER i, j, k |
---|
| 4263 | REAL epm(nloc, na, na) |
---|
| 4264 | |
---|
[2007] | 4265 | ! variables d'Emanuel : du second indice au troisieme |
---|
| 4266 | ! ---> tab(i,k,j) -> de l origine k a l arrivee j |
---|
| 4267 | ! ment, sigij, elij |
---|
| 4268 | ! variables personnelles : du troisieme au second indice |
---|
| 4269 | ! ---> tab(i,j,k) -> de k a j |
---|
| 4270 | ! phi, phi2 |
---|
[1992] | 4271 | |
---|
[2007] | 4272 | ! initialisations |
---|
[1992] | 4273 | |
---|
| 4274 | da(:, :) = 0. |
---|
| 4275 | d1a(:, :) = 0. |
---|
| 4276 | dam(:, :) = 0. |
---|
| 4277 | epm(:, :, :) = 0. |
---|
[2007] | 4278 | eplaMm(:, :) = 0. |
---|
| 4279 | epmlmMm(:, :, :) = 0. |
---|
[1992] | 4280 | phi(:, :, :) = 0. |
---|
| 4281 | phi2(:, :, :) = 0. |
---|
| 4282 | |
---|
[2007] | 4283 | ! fraction deau condensee dans les melanges convertie en precip : epm |
---|
| 4284 | ! et eau condensée précipitée dans masse d'air saturé : l_m*dM_m/dzdz.dzdz |
---|
[2393] | 4285 | DO j = 1, nl |
---|
| 4286 | DO k = 1, nl |
---|
[1992] | 4287 | DO i = 1, ncum |
---|
[2007] | 4288 | IF (k>=icb(i) .AND. k<=inb(i) .AND. & |
---|
| 4289 | !!jyg j.ge.k.and.j.le.inb(i)) then |
---|
| 4290 | !!jyg epm(i,j,k)=1.-(1.-ep(i,j))*clw(i,j)/elij(i,k,j) |
---|
[1992] | 4291 | j>k .AND. j<=inb(i)) THEN |
---|
| 4292 | epm(i, j, k) = 1. - (1.-ep(i,j))*clw(i, j)/max(elij(i,k,j), 1.E-16) |
---|
[2007] | 4293 | !! |
---|
[1992] | 4294 | epm(i, j, k) = max(epm(i,j,k), 0.0) |
---|
| 4295 | END IF |
---|
| 4296 | END DO |
---|
| 4297 | END DO |
---|
| 4298 | END DO |
---|
| 4299 | |
---|
| 4300 | |
---|
[2393] | 4301 | DO j = 1, nl |
---|
| 4302 | DO k = 1, nl |
---|
[1992] | 4303 | DO i = 1, ncum |
---|
| 4304 | IF (k>=icb(i) .AND. k<=inb(i)) THEN |
---|
[2007] | 4305 | eplaMm(i, j) = eplamm(i, j) + & |
---|
| 4306 | ep(i, j)*clw(i, j)*ment(i, j, k)*(1.-sigij(i,j,k)) |
---|
[1992] | 4307 | END IF |
---|
| 4308 | END DO |
---|
| 4309 | END DO |
---|
| 4310 | END DO |
---|
| 4311 | |
---|
[2393] | 4312 | DO j = 1, nl |
---|
[1992] | 4313 | DO k = 1, j - 1 |
---|
| 4314 | DO i = 1, ncum |
---|
| 4315 | IF (k>=icb(i) .AND. k<=inb(i) .AND. j<=inb(i)) THEN |
---|
[2007] | 4316 | epmlmMm(i, j, k) = epm(i, j, k)*elij(i, k, j)*ment(i, k, j) |
---|
[1992] | 4317 | END IF |
---|
| 4318 | END DO |
---|
| 4319 | END DO |
---|
| 4320 | END DO |
---|
| 4321 | |
---|
[2007] | 4322 | ! matrices pour calculer la tendance des concentrations dans cvltr.F90 |
---|
[2393] | 4323 | DO j = 1, nl |
---|
| 4324 | DO k = 1, nl |
---|
[1992] | 4325 | DO i = 1, ncum |
---|
| 4326 | da(i, j) = da(i, j) + (1.-sigij(i,k,j))*ment(i, k, j) |
---|
| 4327 | phi(i, j, k) = sigij(i, k, j)*ment(i, k, j) |
---|
| 4328 | d1a(i, j) = d1a(i, j) + ment(i, k, j)*ep(i, k)*(1.-sigij(i,k,j)) |
---|
| 4329 | IF (k<=j) THEN |
---|
[2007] | 4330 | dam(i, j) = dam(i, j) + ment(i, k, j)*epm(i, k, j)*(1.-ep(i,k))*(1.-sigij(i,k,j)) |
---|
[1992] | 4331 | phi2(i, j, k) = phi(i, j, k)*epm(i, j, k) |
---|
| 4332 | END IF |
---|
| 4333 | END DO |
---|
| 4334 | END DO |
---|
| 4335 | END DO |
---|
| 4336 | |
---|
| 4337 | RETURN |
---|
| 4338 | END SUBROUTINE cv3_tracer |
---|
[2007] | 4339 | !AC! et !RomP <<< |
---|
[1992] | 4340 | |
---|
[2007] | 4341 | SUBROUTINE cv3_uncompress(nloc, len, ncum, nd, ntra, idcum, & |
---|
| 4342 | iflag, & |
---|
| 4343 | precip, sig, w0, & |
---|
| 4344 | ft, fq, fu, fv, ftra, & |
---|
| 4345 | Ma, upwd, dnwd, dnwd0, qcondc, wd, cape, & |
---|
[2481] | 4346 | epmax_diag, & ! epmax_cape |
---|
[2007] | 4347 | iflag1, & |
---|
| 4348 | precip1, sig1, w01, & |
---|
| 4349 | ft1, fq1, fu1, fv1, ftra1, & |
---|
[2481] | 4350 | Ma1, upwd1, dnwd1, dnwd01, qcondc1, wd1, cape1, & |
---|
| 4351 | epmax_diag1) ! epmax_cape |
---|
[1992] | 4352 | IMPLICIT NONE |
---|
| 4353 | |
---|
| 4354 | include "cv3param.h" |
---|
| 4355 | |
---|
[2007] | 4356 | !inputs: |
---|
[1992] | 4357 | INTEGER len, ncum, nd, ntra, nloc |
---|
| 4358 | INTEGER idcum(nloc) |
---|
| 4359 | INTEGER iflag(nloc) |
---|
| 4360 | REAL precip(nloc) |
---|
| 4361 | REAL sig(nloc, nd), w0(nloc, nd) |
---|
| 4362 | REAL ft(nloc, nd), fq(nloc, nd), fu(nloc, nd), fv(nloc, nd) |
---|
| 4363 | REAL ftra(nloc, nd, ntra) |
---|
| 4364 | REAL ma(nloc, nd) |
---|
| 4365 | REAL upwd(nloc, nd), dnwd(nloc, nd), dnwd0(nloc, nd) |
---|
| 4366 | REAL qcondc(nloc, nd) |
---|
| 4367 | REAL wd(nloc), cape(nloc) |
---|
[2481] | 4368 | REAL epmax_diag(nloc) |
---|
[1992] | 4369 | |
---|
[2007] | 4370 | !outputs: |
---|
[1992] | 4371 | INTEGER iflag1(len) |
---|
| 4372 | REAL precip1(len) |
---|
| 4373 | REAL sig1(len, nd), w01(len, nd) |
---|
| 4374 | REAL ft1(len, nd), fq1(len, nd), fu1(len, nd), fv1(len, nd) |
---|
| 4375 | REAL ftra1(len, nd, ntra) |
---|
| 4376 | REAL ma1(len, nd) |
---|
| 4377 | REAL upwd1(len, nd), dnwd1(len, nd), dnwd01(len, nd) |
---|
| 4378 | REAL qcondc1(nloc, nd) |
---|
| 4379 | REAL wd1(nloc), cape1(nloc) |
---|
[2481] | 4380 | REAL epmax_diag1(len) ! epmax_cape |
---|
[1992] | 4381 | |
---|
[2007] | 4382 | !local variables: |
---|
[1992] | 4383 | INTEGER i, k, j |
---|
| 4384 | |
---|
| 4385 | DO i = 1, ncum |
---|
| 4386 | precip1(idcum(i)) = precip(i) |
---|
| 4387 | iflag1(idcum(i)) = iflag(i) |
---|
| 4388 | wd1(idcum(i)) = wd(i) |
---|
| 4389 | cape1(idcum(i)) = cape(i) |
---|
[2481] | 4390 | epmax_diag1(idcum(i))=epmax_diag(i) ! epmax_cape |
---|
[1992] | 4391 | END DO |
---|
| 4392 | |
---|
| 4393 | DO k = 1, nl |
---|
| 4394 | DO i = 1, ncum |
---|
| 4395 | sig1(idcum(i), k) = sig(i, k) |
---|
| 4396 | w01(idcum(i), k) = w0(i, k) |
---|
| 4397 | ft1(idcum(i), k) = ft(i, k) |
---|
| 4398 | fq1(idcum(i), k) = fq(i, k) |
---|
| 4399 | fu1(idcum(i), k) = fu(i, k) |
---|
| 4400 | fv1(idcum(i), k) = fv(i, k) |
---|
| 4401 | ma1(idcum(i), k) = ma(i, k) |
---|
| 4402 | upwd1(idcum(i), k) = upwd(i, k) |
---|
| 4403 | dnwd1(idcum(i), k) = dnwd(i, k) |
---|
| 4404 | dnwd01(idcum(i), k) = dnwd0(i, k) |
---|
| 4405 | qcondc1(idcum(i), k) = qcondc(i, k) |
---|
| 4406 | END DO |
---|
| 4407 | END DO |
---|
| 4408 | |
---|
| 4409 | DO i = 1, ncum |
---|
| 4410 | sig1(idcum(i), nd) = sig(i, nd) |
---|
| 4411 | END DO |
---|
| 4412 | |
---|
| 4413 | |
---|
[2007] | 4414 | !AC! do 2100 j=1,ntra |
---|
| 4415 | !AC!c oct3 do 2110 k=1,nl |
---|
| 4416 | !AC! do 2110 k=1,nd ! oct3 |
---|
| 4417 | !AC! do 2120 i=1,ncum |
---|
| 4418 | !AC! ftra1(idcum(i),k,j)=ftra(i,k,j) |
---|
| 4419 | !AC! 2120 continue |
---|
| 4420 | !AC! 2110 continue |
---|
| 4421 | !AC! 2100 continue |
---|
| 4422 | ! |
---|
[1992] | 4423 | RETURN |
---|
| 4424 | END SUBROUTINE cv3_uncompress |
---|
[2481] | 4425 | |
---|
| 4426 | |
---|
| 4427 | subroutine cv3_epmax_fn_cape(nloc,ncum,nd & |
---|
| 4428 | , ep,hp,icb,inb,clw,nk,t,h,hnk,lv,lf,frac & |
---|
| 4429 | , pbase, p, ph, tv, buoy, sig, w0,iflag & |
---|
| 4430 | , epmax_diag) |
---|
| 4431 | implicit none |
---|
| 4432 | |
---|
| 4433 | ! On fait varier epmax en fn de la cape |
---|
| 4434 | ! Il faut donc recalculer ep, et hp qui a déjà été calculé et |
---|
| 4435 | ! qui en dépend |
---|
| 4436 | ! Toutes les autres variables fn de ep sont calculées plus bas. |
---|
| 4437 | |
---|
| 4438 | include "cvthermo.h" |
---|
| 4439 | include "cv3param.h" |
---|
| 4440 | include "conema3.h" |
---|
| 4441 | include "cvflag.h" |
---|
| 4442 | |
---|
| 4443 | ! inputs: |
---|
| 4444 | INTEGER, INTENT (IN) :: ncum, nd, nloc |
---|
| 4445 | INTEGER, DIMENSION (nloc), INTENT (IN) :: icb, inb, nk |
---|
| 4446 | REAL, DIMENSION (nloc), INTENT (IN) :: hnk,pbase |
---|
| 4447 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: t, lv, lf, tv, h |
---|
| 4448 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: clw, buoy,frac |
---|
| 4449 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: sig,w0 |
---|
| 4450 | INTEGER, DIMENSION (nloc), INTENT (IN) :: iflag(nloc) |
---|
| 4451 | REAL, DIMENSION (nloc, nd), INTENT (IN) :: p |
---|
| 4452 | REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: ph |
---|
| 4453 | ! inouts: |
---|
| 4454 | REAL, DIMENSION (nloc, nd), INTENT (INOUT) :: ep,hp |
---|
| 4455 | ! outputs |
---|
| 4456 | REAL, DIMENSION (nloc), INTENT (OUT) :: epmax_diag |
---|
| 4457 | |
---|
| 4458 | ! local |
---|
| 4459 | integer i,k |
---|
| 4460 | ! real hp_bak(nloc,nd) |
---|
| 4461 | ! real ep_bak(nloc,nd) |
---|
| 4462 | real m_loc(nloc,nd) |
---|
| 4463 | real sig_loc(nloc,nd) |
---|
| 4464 | real w0_loc(nloc,nd) |
---|
| 4465 | integer iflag_loc(nloc) |
---|
| 4466 | real cape(nloc) |
---|
| 4467 | |
---|
| 4468 | if (coef_epmax_cape.gt.1e-12) then |
---|
| 4469 | |
---|
| 4470 | ! il faut calculer la cape: on fait un calcule simple car tant qu'on ne |
---|
| 4471 | ! connait pas ep, on ne connait pas les mélanges, ddfts etc... qui sont |
---|
| 4472 | ! necessaires au calcul de la cape dans la nouvelle physique |
---|
| 4473 | |
---|
| 4474 | ! write(*,*) 'cv3_routines check 4303' |
---|
| 4475 | do i=1,ncum |
---|
| 4476 | do k=1,nd |
---|
| 4477 | sig_loc(i,k)=sig(i,k) |
---|
| 4478 | w0_loc(i,k)=w0(i,k) |
---|
| 4479 | iflag_loc(i)=iflag(i) |
---|
| 4480 | ! ep_bak(i,k)=ep(i,k) |
---|
| 4481 | enddo ! do k=1,nd |
---|
| 4482 | enddo !do i=1,ncum |
---|
| 4483 | |
---|
| 4484 | ! write(*,*) 'cv3_routines check 4311' |
---|
| 4485 | ! write(*,*) 'nl=',nl |
---|
| 4486 | CALL cv3_closure(nloc, ncum, nd, icb, inb, & ! na->nd |
---|
| 4487 | pbase, p, ph, tv, buoy, & |
---|
| 4488 | sig_loc, w0_loc, cape, m_loc,iflag_loc) |
---|
| 4489 | |
---|
| 4490 | ! write(*,*) 'cv3_routines check 4316' |
---|
| 4491 | ! write(*,*) 'ep(1,:)=',ep(1,:) |
---|
| 4492 | do i=1,ncum |
---|
| 4493 | epmax_diag(i)=epmax-coef_epmax_cape*sqrt(cape(i)) |
---|
| 4494 | epmax_diag(i)=amax1(epmax_diag(i),0.0) |
---|
| 4495 | ! write(*,*) 'i,icb,inb,cape,epmax_diag=', & |
---|
| 4496 | ! i,icb(i),inb(i),cape(i),epmax_diag(i) |
---|
| 4497 | do k=1,nl |
---|
| 4498 | ep(i,k)=ep(i,k)/epmax*epmax_diag(i) |
---|
| 4499 | ep(i,k)=amax1(ep(i,k),0.0) |
---|
| 4500 | ep(i,k)=amin1(ep(i,k),epmax_diag(i)) |
---|
| 4501 | enddo |
---|
| 4502 | enddo |
---|
| 4503 | ! write(*,*) 'ep(1,:)=',ep(1,:) |
---|
| 4504 | |
---|
| 4505 | !write(*,*) 'cv3_routines check 4326' |
---|
| 4506 | ! On recalcule hp: |
---|
| 4507 | ! do k=1,nl |
---|
| 4508 | ! do i=1,ncum |
---|
| 4509 | ! hp_bak(i,k)=hp(i,k) |
---|
| 4510 | ! enddo |
---|
| 4511 | ! enddo |
---|
| 4512 | do k=1,nl |
---|
| 4513 | do i=1,ncum |
---|
| 4514 | hp(i,k)=h(i,k) |
---|
| 4515 | enddo |
---|
| 4516 | enddo |
---|
| 4517 | |
---|
| 4518 | IF (cvflag_ice) THEN |
---|
| 4519 | |
---|
| 4520 | do k=minorig+1,nl |
---|
| 4521 | do i=1,ncum |
---|
| 4522 | if((k.ge.icb(i)).and.(k.le.inb(i)))then |
---|
| 4523 | hp(i, k) = hnk(i) + (lv(i,k)+(cpd-cpv)*t(i,k)+frac(i,k)*lf(i,k))* & |
---|
| 4524 | ep(i, k)*clw(i, k) |
---|
| 4525 | endif |
---|
| 4526 | enddo |
---|
| 4527 | enddo !do k=minorig+1,n |
---|
| 4528 | ELSE !IF (cvflag_ice) THEN |
---|
| 4529 | |
---|
| 4530 | DO k = minorig + 1, nl |
---|
| 4531 | DO i = 1, ncum |
---|
| 4532 | IF ((k>=icb(i)) .AND. (k<=inb(i))) THEN |
---|
| 4533 | hp(i,k)=hnk(i)+(lv(i,k)+(cpd-cpv)*t(i,k))*ep(i,k)*clw(i,k) |
---|
| 4534 | endif |
---|
| 4535 | enddo |
---|
| 4536 | enddo !do k=minorig+1,n |
---|
| 4537 | |
---|
| 4538 | ENDIF !IF (cvflag_ice) THEN |
---|
| 4539 | !write(*,*) 'cv3_routines check 4345' |
---|
| 4540 | ! do i=1,ncum |
---|
| 4541 | ! do k=1,nl |
---|
| 4542 | ! if ((abs(hp_bak(i,k)-hp(i,k))/hp_bak(i,k).gt.1e-1).or. & |
---|
| 4543 | ! ((abs(hp_bak(i,k)-hp(i,k))/hp_bak(i,k).gt.1e-4).and. & |
---|
| 4544 | ! (ep(i,k)-ep_bak(i,k).lt.1e-4))) then |
---|
| 4545 | ! write(*,*) 'i,k=',i,k |
---|
| 4546 | ! write(*,*) 'coef_epmax_cape=',coef_epmax_cape |
---|
| 4547 | ! write(*,*) 'epmax_diag(i)=',epmax_diag(i) |
---|
| 4548 | ! write(*,*) 'ep(i,k)=',ep(i,k) |
---|
| 4549 | ! write(*,*) 'ep_bak(i,k)=',ep_bak(i,k) |
---|
| 4550 | ! write(*,*) 'hp(i,k)=',hp(i,k) |
---|
| 4551 | ! write(*,*) 'hp_bak(i,k)=',hp_bak(i,k) |
---|
| 4552 | ! write(*,*) 'h(i,k)=',h(i,k) |
---|
| 4553 | ! write(*,*) 'nk(i)=',nk(i) |
---|
| 4554 | ! write(*,*) 'h(i,nk(i))=',h(i,nk(i)) |
---|
| 4555 | ! write(*,*) 'lv(i,k)=',lv(i,k) |
---|
| 4556 | ! write(*,*) 't(i,k)=',t(i,k) |
---|
| 4557 | ! write(*,*) 'clw(i,k)=',clw(i,k) |
---|
| 4558 | ! write(*,*) 'cpd,cpv=',cpd,cpv |
---|
| 4559 | ! stop |
---|
| 4560 | ! endif |
---|
| 4561 | ! enddo !do k=1,nl |
---|
| 4562 | ! enddo !do i=1,ncum |
---|
| 4563 | endif !if (coef_epmax_cape.gt.1e-12) then |
---|
| 4564 | !write(*,*) 'cv3_routines check 4367' |
---|
| 4565 | |
---|
| 4566 | return |
---|
| 4567 | end subroutine cv3_epmax_fn_cape |
---|
| 4568 | |
---|
| 4569 | |
---|
| 4570 | |
---|