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!MNH_LIC Copyright 2013-2021 CNRS, Meteo-France and Universite Paul Sabatier
!MNH_LIC This is part of the Meso-NH software governed by the CeCILL-C licence
!MNH_LIC version 1. See LICENSE, CeCILL-C_V1-en.txt and CeCILL-C_V1-fr.txt
!MNH_LIC for details. version 1.
!-----------------------------------------------------------------
! #############################
MODULE MODI_LIMA_ADJUST_SPLIT
! #############################
!
INTERFACE
!
SUBROUTINE LIMA_ADJUST_SPLIT(KRR, KMI, TPFILE, HCONDENS, HLAMBDA3, &
OSUBG_COND, OSIGMAS, PTSTEP, PSIGQSAT, &
PRHODREF, PRHODJ, PEXNREF, PPABSM, PSIGS, PMFCONV, &
PPABST, PZZ, PDTHRAD, PW_NU, &
PRT, PRS, PSVT, PSVS, &
PTHS, PSRCS, PCLDFR, PRC_MF, PCF_MF )
!
USE MODD_IO, ONLY: TFILEDATA
USE MODD_NSV, only: NSV_LIMA_BEG
!
INTEGER, INTENT(IN) :: KRR ! Number of moist variables
INTEGER, INTENT(IN) :: KMI ! Model index
TYPE(TFILEDATA), INTENT(IN) :: TPFILE ! Output file
CHARACTER(len=80), INTENT(IN) :: HCONDENS
CHARACTER(len=4), INTENT(IN) :: HLAMBDA3 ! formulation for lambda3 coeff
LOGICAL, INTENT(IN) :: OSUBG_COND ! Switch for Subgrid
! Condensation
LOGICAL, INTENT(IN) :: OSIGMAS ! Switch for Sigma_s:
! use values computed in CONDENSATION
! or that from turbulence scheme
REAL, INTENT(IN) :: PTSTEP ! Time step
REAL, INTENT(IN) :: PSIGQSAT ! coeff applied to qsat variance contribution
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODREF ! Dry density of the
! reference state
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODJ ! Dry density * Jacobian
REAL, DIMENSION(:,:,:), INTENT(IN) :: PEXNREF ! Reference Exner function
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABSM ! Absolute Pressure at t-dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PSIGS ! Sigma_s at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PMFCONV !
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABST ! Absolute Pressure at t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PZZ !
REAL, DIMENSION(:,:,:), INTENT(IN) :: PDTHRAD ! Radiative temperature tendency
REAL, DIMENSION(:,:,:), INTENT(IN) :: PW_NU ! updraft velocity used for
!
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PRT ! m.r. at t
!
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PRS ! m.r. source
!
REAL, DIMENSION(:,:,:,NSV_LIMA_BEG:), INTENT(IN) :: PSVT ! Concentrations at time t
!
REAL, DIMENSION(:,:,:,NSV_LIMA_BEG:), INTENT(INOUT) :: PSVS ! Concentration sources
!
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PTHS ! Theta source
!
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSRCS ! Second-order flux
! s'rc'/2Sigma_s2 at time t+1
! multiplied by Lambda_3
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCLDFR ! Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRC_MF! Convective Mass Flux liquid mixing ratio
REAL, DIMENSION(:,:,:), INTENT(IN) :: PCF_MF! Convective Mass Flux Cloud fraction
!
END SUBROUTINE LIMA_ADJUST_SPLIT
!
END INTERFACE
!
END MODULE MODI_LIMA_ADJUST_SPLIT
!
! ###########################################################################
SUBROUTINE LIMA_ADJUST_SPLIT(KRR, KMI, TPFILE, HCONDENS, HLAMBDA3, &
OSUBG_COND, OSIGMAS, PTSTEP, PSIGQSAT, &
PRHODREF, PRHODJ, PEXNREF, PPABSM, PSIGS, PMFCONV, &
PPABST, PZZ, PDTHRAD, PW_NU, &
PRT, PRS, PSVT, PSVS, &
PTHS, PSRCS, PCLDFR, PRC_MF, PCF_MF )
! ###########################################################################
!
!!**** *MIMA_ADJUST* - compute the fast microphysical sources
!!
!! PURPOSE
!! -------
!! The purpose of this routine is to compute the fast microphysical sources
!! through an explict scheme and a saturation ajustement procedure.
!!
!!
!!** METHOD
!! ------
!! Reisin et al., 1996 for the explicit scheme when ice is present
!! Langlois, Tellus, 1973 for the implict adjustment for the cloud water
!! (refer also to book 1 of the documentation).
!!
!! Computations are done separately for three cases :
!! - ri>0 and rc=0
!! - rc>0 and ri=0
!! - ri>0 and rc>0
!!
!!
!! EXTERNAL
!! --------
!! None
!!
!!
!! IMPLICIT ARGUMENTS
!! ------------------
!! Module MODD_CST
!! XP00 ! Reference pressure
!! XMD,XMV ! Molar mass of dry air and molar mass of vapor
!! XRD,XRV ! Gaz constant for dry air, gaz constant for vapor
!! XCPD,XCPV ! Cpd (dry air), Cpv (vapor)
!! XCL ! Cl (liquid)
!! XTT ! Triple point temperature
!! XLVTT ! Vaporization heat constant
!! XALPW,XBETAW,XGAMW ! Constants for saturation vapor
!! ! pressure function
!! Module MODD_CONF
!! CCONF
!! Module MODD_BUDGET:
!! NBUMOD
!! CBUTYPE
!! LBU_RTH
!! LBU_RRV
!! LBU_RRC
!! Module MODD_LES : NCTR_LES,LTURB_LES,NMODNBR_LES
!! XNA declaration (cloud fraction as global var)
!!
!! REFERENCE
!! ---------
!!
!! Book 1 and Book2 of documentation ( routine FAST_TERMS )
!! Langlois, Tellus, 1973
!!
!! AUTHOR
!! ------
!! E. Richard * Laboratoire d'Aerologie*
!! J.-M. Cohard * Laboratoire d'Aerologie*
!! J.-P. Pinty * Laboratoire d'Aerologie*
!! S. Berthet * Laboratoire d'Aerologie*
!! B. Vié * Laboratoire d'Aerologie*
!!
!! MODIFICATIONS
!! -------------
!! Original 06/2021 forked from lima_adjust.f90
!-------------------------------------------------------------------------------
!
!* 0. DECLARATIONS
! ------------
!
use modd_budget, only: lbu_enable, nbumod, &
lbudget_th, lbudget_rv, lbudget_rc, lbudget_ri, lbudget_sv, &
NBUDGET_TH, NBUDGET_RV, NBUDGET_RC, NBUDGET_RI, NBUDGET_SV1, &
tbudgets
USE MODD_CONF
USE MODD_CST
use modd_field, only: TFIELDDATA, TYPEREAL
USE MODD_IO, ONLY: TFILEDATA
USE MODD_LUNIT_n, ONLY: TLUOUT
USE MODD_NSV
USE MODD_PARAMETERS
USE MODD_PARAM_LIMA
USE MODD_PARAM_LIMA_COLD
USE MODD_PARAM_LIMA_MIXED
USE MODD_PARAM_LIMA_WARM
!
use mode_budget, only: Budget_store_init, Budget_store_end
USE MODE_IO_FIELD_WRITE, only: IO_Field_write
use mode_msg
use mode_tools, only: Countjv
!
USE MODI_CONDENS
USE MODI_CONDENSATION
USE MODI_LIMA_FUNCTIONS
USE MODI_LIMA_CCN_ACTIVATION
!
IMPLICIT NONE
!
!* 0.1 Declarations of dummy arguments :
!
!
INTEGER, INTENT(IN) :: KRR ! Number of moist variables
INTEGER, INTENT(IN) :: KMI ! Model index
TYPE(TFILEDATA), INTENT(IN) :: TPFILE ! Output file
CHARACTER(len=80), INTENT(IN) :: HCONDENS
CHARACTER(len=4), INTENT(IN) :: HLAMBDA3 ! formulation for lambda3 coeff
LOGICAL, INTENT(IN) :: OSUBG_COND ! Switch for Subgrid
! Condensation
LOGICAL, INTENT(IN) :: OSIGMAS ! Switch for Sigma_s:
! use values computed in CONDENSATION
! or that from turbulence scheme
REAL, INTENT(IN) :: PTSTEP ! Time step
REAL, INTENT(IN) :: PSIGQSAT ! coeff applied to qsat variance contribution
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODREF ! Dry density of the
! reference state
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODJ ! Dry density * Jacobian
REAL, DIMENSION(:,:,:), INTENT(IN) :: PEXNREF ! Reference Exner function
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABSM ! Absolute Pressure at t-dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PSIGS ! Sigma_s at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PMFCONV !
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABST ! Absolute Pressure at t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PZZ !
REAL, DIMENSION(:,:,:), INTENT(IN) :: PDTHRAD ! Radiative temperature tendency
REAL, DIMENSION(:,:,:), INTENT(IN) :: PW_NU ! updraft velocity used for
!
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PRT ! m.r. at t
!
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PRS ! m.r. source
!
REAL, DIMENSION(:,:,:,NSV_LIMA_BEG:), INTENT(IN) :: PSVT ! Concentrations at time t
!
REAL, DIMENSION(:,:,:,NSV_LIMA_BEG:), INTENT(INOUT) :: PSVS ! Concentration sources
!
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PTHS ! Theta source
!
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSRCS ! Second-order flux
! s'rc'/2Sigma_s2 at time t+1
! multiplied by Lambda_3
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCLDFR ! Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRC_MF! Convective Mass Flux liquid mixing ratio
REAL, DIMENSION(:,:,:), INTENT(IN) :: PCF_MF! Convective Mass Flux Cloud fraction
!
!
!* 0.2 Declarations of local variables :
!
! 3D Microphysical variables
REAL, DIMENSION(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3)) &
:: PTHT, &
PRVT, & ! Water vapor m.r. at t
PRCT, & ! Cloud water m.r. at t
PRRT, & ! Rain water m.r. at t
PRIT, & ! Cloud ice m.r. at t
PRST, & ! Aggregate m.r. at t
PRGT, & ! Graupel m.r. at t
!
PRVS, & ! Water vapor m.r. source
PRCS, & ! Cloud water m.r. source
PRRS, & ! Rain water m.r. source
PRIS, & ! Cloud ice m.r. source
PRSS, & ! Aggregate m.r. source
PRGS, & ! Graupel m.r. source
!
PCCT, & ! Cloud water conc. at t
PCIT, & ! Cloud ice conc. at t
!
PCCS, & ! Cloud water C. source
PMAS, & ! Mass of scavenged AP
PCIS ! Ice crystal C. source
!
REAL, DIMENSION(:,:,:,:), ALLOCATABLE &
:: PNFS, & ! Free CCN C. source
PNAS, & ! Activated CCN C. source
PNFT, & ! Free CCN C.
PNAT ! Activated CCN C.
! PIFS, & ! Free IFN C. source
! PINS, & ! Nucleated IFN C. source
! PNIS ! Acti. IMM. nuclei C. source
!
!
!
REAL :: ZEPS ! Mv/Md
REAL :: ZDT ! Time increment (2*Delta t or Delta t if cold start)
REAL, DIMENSION(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3)) &
:: ZEXNS,& ! guess of the Exner function at t+1
ZT, ZT2, & ! guess of the temperature at t+1
ZCPH, & ! guess of the CPh for the mixing
ZW, &
ZW1, &
ZW2, &
ZLV, & ! guess of the Lv at t+1
ZLS, & ! guess of the Ls at t+1
ZMASK,&
ZRV, ZRV2, &
ZRC, ZRC2, &
ZRI, &
ZSIGS, &
ZW_MF
LOGICAL, DIMENSION(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3)) &
:: GMICRO ! Test where to compute cond/dep proc.
INTEGER :: IMICRO
REAL, DIMENSION(:), ALLOCATABLE &
:: ZRVT, ZRCT, ZRIT, ZRVS, ZRCS, ZRIS, ZTHS, &
ZCCT, ZCIT, ZCCS, ZCIS, &
ZRHODREF, ZZT, ZPRES, ZEXNREF, ZZCPH, &
ZZW, ZLVFACT, ZLSFACT, &
ZRVSATW, ZRVSATI, ZRVSATW_PRIME, ZRVSATI_PRIME, &
ZAW, ZAI, ZCJ, ZKA, ZDV, ZITW, ZITI, ZAWW, ZAIW, &
ZAWI, ZAII, ZFACT, ZDELTW, &
ZDELTI, ZDELT1, ZDELT2, ZCND, ZDEP, ZS, ZVEC1, ZZW2
!
INTEGER, DIMENSION(:), ALLOCATABLE :: IVEC1
!
INTEGER :: IRESP ! Return code of FM routines
INTEGER :: IIU,IJU,IKU! dimensions of dummy arrays
INTEGER :: IKB ! K index value of the first inner mass point
INTEGER :: IKE ! K index value of the last inner mass point
INTEGER :: IIB,IJB ! Horz index values of the first inner mass points
INTEGER :: IIE,IJE ! Horz index values of the last inner mass points
INTEGER :: JITER,ITERMAX ! iterative loop for first order adjustment
INTEGER :: ILUOUT ! Logical unit of output listing
!
INTEGER :: ISIZE
REAL, DIMENSION(:), ALLOCATABLE :: ZRTMIN
REAL, DIMENSION(:), ALLOCATABLE :: ZCTMIN
!
integer :: idx
INTEGER , DIMENSION(SIZE(GMICRO)) :: I1,I2,I3 ! Used to replace the COUNT
INTEGER :: JL ! and PACK intrinsics
INTEGER :: JMOD, JMOD_IFN, JMOD_IMM
!
INTEGER , DIMENSION(3) :: BV
TYPE(TFIELDDATA) :: TZFIELD
!
!-------------------------------------------------------------------------------
!
!* 1. PRELIMINARIES
! -------------
!
ILUOUT = TLUOUT%NLU
!
IIU = SIZE(PEXNREF,1)
IJU = SIZE(PEXNREF,2)
IKU = SIZE(PEXNREF,3)
IIB = 1 + JPHEXT
IIE = SIZE(PRHODJ,1) - JPHEXT
IJB = 1 + JPHEXT
IJE = SIZE(PRHODJ,2) - JPHEXT
IKB = 1 + JPVEXT
IKE = SIZE(PRHODJ,3) - JPVEXT
!
ZEPS= XMV / XMD
!
IF (OSUBG_COND) THEN
ITERMAX=1
ELSE
ITERMAX=1
END IF
!
ZDT = PTSTEP
!
ISIZE = SIZE(XRTMIN)
ALLOCATE(ZRTMIN(ISIZE))
ZRTMIN(:) = XRTMIN(:) / ZDT
ISIZE = SIZE(XCTMIN)
ALLOCATE(ZCTMIN(ISIZE))
ZCTMIN(:) = XCTMIN(:) / ZDT
!
! Prepare 3D water mixing ratios
!
PTHT = PTHS*PTSTEP
!
PRVT(:,:,:) = PRS(:,:,:,1)*PTSTEP
PRVS(:,:,:) = PRS(:,:,:,1)
!
PRCT(:,:,:) = 0.
PRCS(:,:,:) = 0.
PRRT(:,:,:) = 0.
PRRS(:,:,:) = 0.
PRIT(:,:,:) = 0.
PRIS(:,:,:) = 0.
PRST(:,:,:) = 0.
PRSS(:,:,:) = 0.
PRGT(:,:,:) = 0.
PRGS(:,:,:) = 0.
!
IF ( KRR .GE. 2 ) PRCT(:,:,:) = PRS(:,:,:,2)*PTSTEP
IF ( KRR .GE. 2 ) PRCS(:,:,:) = PRS(:,:,:,2)
IF ( KRR .GE. 3 ) PRRT(:,:,:) = PRT(:,:,:,3)
IF ( KRR .GE. 3 ) PRRS(:,:,:) = PRS(:,:,:,3)
IF ( KRR .GE. 4 ) PRIT(:,:,:) = PRT(:,:,:,4)
IF ( KRR .GE. 4 ) PRIS(:,:,:) = PRS(:,:,:,4)
IF ( KRR .GE. 5 ) PRST(:,:,:) = PRT(:,:,:,5)
IF ( KRR .GE. 5 ) PRSS(:,:,:) = PRS(:,:,:,5)
IF ( KRR .GE. 6 ) PRGT(:,:,:) = PRT(:,:,:,6)
IF ( KRR .GE. 6 ) PRGS(:,:,:) = PRS(:,:,:,6)
!
! Prepare 3D number concentrations
PCCT(:,:,:) = 0.
PCIT(:,:,:) = 0.
PCCS(:,:,:) = 0.
! PCIS(:,:,:) = 0.
!
IF ( LWARM ) PCCT(:,:,:) = PSVS(:,:,:,NSV_LIMA_NC)*PTSTEP
IF ( LCOLD ) PCIT(:,:,:) = PSVT(:,:,:,NSV_LIMA_NI)
!
IF ( LWARM ) PCCS(:,:,:) = PSVS(:,:,:,NSV_LIMA_NC)
! IF ( LCOLD ) PCIS(:,:,:) = PSVS(:,:,:,NSV_LIMA_NI)
!
IF ( LSCAV .AND. LAERO_MASS ) PMAS(:,:,:) = PSVS(:,:,:,NSV_LIMA_SCAVMASS)
!
IF ( LWARM .AND. NMOD_CCN.GE.1 ) THEN
ALLOCATE( PNFS(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_CCN) )
ALLOCATE( PNAS(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_CCN) )
ALLOCATE( PNFT(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_CCN) )
ALLOCATE( PNAT(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_CCN) )
PNFS(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_CCN_FREE:NSV_LIMA_CCN_FREE+NMOD_CCN-1)
PNAS(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_CCN_ACTI:NSV_LIMA_CCN_ACTI+NMOD_CCN-1)
PNFT(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_CCN_FREE:NSV_LIMA_CCN_FREE+NMOD_CCN-1)*PTSTEP
PNAT(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_CCN_ACTI:NSV_LIMA_CCN_ACTI+NMOD_CCN-1)*PTSTEP
END IF
!
! IF ( LCOLD .AND. NMOD_IFN .GE. 1 ) THEN
! ALLOCATE( PIFS(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_IFN) )
! ALLOCATE( PINS(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_IFN) )
! PIFS(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_IFN_FREE:NSV_LIMA_IFN_FREE+NMOD_IFN-1)
! PINS(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_IFN_NUCL:NSV_LIMA_IFN_NUCL+NMOD_IFN-1)
! END IF
!
! IF ( NMOD_IMM .GE. 1 ) THEN
! ALLOCATE( PNIS(SIZE(PRHODJ,1),SIZE(PRHODJ,2),SIZE(PRHODJ,3),NMOD_IMM) )
! PNIS(:,:,:,:) = PSVS(:,:,:,NSV_LIMA_IMM_NUCL:NSV_LIMA_IMM_NUCL+NMOD_IMM-1)
! END IF
!
!
if ( nbumod == kmi .and. lbu_enable ) then
if ( lbudget_th ) call Budget_store_init( tbudgets(NBUDGET_TH), 'CEDS', pths(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_init( tbudgets(NBUDGET_RV), 'CEDS', prvs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_init( tbudgets(NBUDGET_RC), 'CEDS', prcs(:, :, :) * prhodj(:, :, :) )
!Remark: PRIS is not modified but source term kept for better coherence with lima_adjust and lima_notadjust
if ( lbudget_ri ) call Budget_store_init( tbudgets(NBUDGET_RI), 'CEDS', pris(:, :, :) * prhodj(:, :, :) )
if ( lbudget_sv ) then
if ( lwarm ) &
call Budget_store_init( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_nc), 'CEDS', pccs(:, :, :) * prhodj(:, :, :) )
if ( lscav .and. laero_mass ) &
call Budget_store_init( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_scavmass), 'CEDS', pmas(:, :, :) * prhodj(:, :, :) )
if ( lwarm ) then
do jl = 1, nmod_ccn
idx = NBUDGET_SV1 - 1 + nsv_lima_ccn_free - 1 + jl
call Budget_store_init( tbudgets(idx), 'CEDS', pnfs(:, :, :, jl) * prhodj(:, :, :) )
idx = NBUDGET_SV1 - 1 + nsv_lima_ccn_acti - 1 + jl
call Budget_store_init( tbudgets(idx), 'CEDS', pnas(:, :, :, jl) * prhodj(:, :, :) )
end do
end if
! if ( lcold ) then
! call Budget_store_init( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_ni), 'CEDS', pcis(:, :, :) * prhodj(:, :, :) )
! do jl = 1, nmod_ifn
! idx = NBUDGET_SV1 - 1 + nsv_lima_ifn_free - 1 + jl
! call Budget_store_init( tbudgets(idx), 'CEDS', pifs(:, :, :, jl) * prhodj(:, :, :) )
! idx = NBUDGET_SV1 - 1 + nsv_lima_ifn_nucl - 1 + jl
! call Budget_store_init( tbudgets(idx), 'CEDS', pins(:, :, :, jl) * prhodj(:, :, :) )
! end do
! do jl = 1, nmod_imm
! idx = NBUDGET_SV1 - 1 + nsv_lima_imm_nucl - 1 + jl
! call Budget_store_init( tbudgets(idx), 'CEDS', pnis(:, :, :, jl) * prhodj(:, :, :) )
! end do
! end if
end if
end if
!
!-------------------------------------------------------------------------------
!
!
!* 2. COMPUTE QUANTITIES WITH THE GUESS OF THE FUTURE INSTANT
! -------------------------------------------------------
!
!* 2.1 remove negative non-precipitating negative water
! ------------------------------------------------
!
IF (ANY(PRVS(:,:,:)+PRCS(:,:,:)+PRIS(:,:,:) < 0.) .AND. NVERB>5) THEN
WRITE(ILUOUT,*) 'LIMA_ADJUST: negative values of total water (reset to zero)'
WRITE(ILUOUT,*) ' location of minimum PRVS+PRCS+PRIS:',MINLOC(PRVS+PRCS+PRIS)
WRITE(ILUOUT,*) ' value of minimum PRVS+PRCS+PRIS:',MINVAL(PRVS+PRCS+PRIS)
END IF
!
WHERE ( PRVS(:,:,:)+PRCS(:,:,:)+PRIS(:,:,:) < 0.)
PRVS(:,:,:) = - PRCS(:,:,:) - PRIS(:,:,:)
END WHERE
!
!* 2.2 estimate the Exner function at t+1
!
ZEXNS(:,:,:) = ( (2. * PPABST(:,:,:) - PPABSM(:,:,:)) / XP00 ) ** (XRD/XCPD)
!
! beginning of the iterative loop
!
DO JITER =1,ITERMAX
!
!* 2.3 compute the intermediate temperature at t+1, T*
!
ZT(:,:,:) = ( PTHS(:,:,:) * ZDT ) * ZEXNS(:,:,:)
ZT2(:,:,:) = ZT(:,:,:)
!
!* 2.4 compute the specific heat for moist air (Cph) at t+1
!
ZCPH(:,:,:) = XCPD + XCPV *ZDT* PRVS(:,:,:) &
+ XCL *ZDT* ( PRCS(:,:,:) + PRRS(:,:,:) ) &
+ XCI *ZDT* ( PRIS(:,:,:) + PRSS(:,:,:) + PRGS(:,:,:) )
!
!* 2.5 compute the latent heat of vaporization Lv(T*) at t+1
! and of sublimation Ls(T*) at t+1
!
ZLV(:,:,:) = XLVTT + ( XCPV - XCL ) * ( ZT(:,:,:) -XTT )
ZLS(:,:,:) = XLSTT + ( XCPV - XCI ) * ( ZT(:,:,:) -XTT )
!
!
!-------------------------------------------------------------------------------
!
!* 3. FIRST ORDER SUBGRID CONDENSATION SCHEME
! ---------------------------------------
!
IF ( OSUBG_COND ) THEN
!
ZRV=PRVS*PTSTEP
ZRC=PRCS*PTSTEP
ZRV2=PRVT
ZRC2=PRCT
ZRI=0.
ZSIGS=PSIGS
CALL CONDENSATION(IIU, IJU, IKU, IIB, IIE, IJB, IJE, IKB, IKE, 1, 'S', &
HCONDENS, HLAMBDA3, &
PPABST, PZZ, PRHODREF, ZT, ZRV, ZRC, ZRI, PRSS*PTSTEP, PRGS*PTSTEP, &
ZSIGS, PMFCONV, PCLDFR, PSRCS, .FALSE., OSIGMAS, &
PSIGQSAT, PLV=ZLV, PLS=ZLS, PCPH=ZCPH )
PCLDFR(:,:,:) = MIN(PCLDFR(:,:,:) + PCF_MF(:,:,:) , 1.)
ZRV(:,:,:) = ZRV(:,:,:) - MAX(MIN(PRC_MF(:,:,:), ZRV(:,:,:)),0.)
ZRC(:,:,:) = ZRC(:,:,:) + MAX(MIN(PRC_MF(:,:,:), ZRV(:,:,:)),0.)
ZW_MF=0.
CALL LIMA_CCN_ACTIVATION (TPFILE, &
PRHODREF, PEXNREF, PPABST, ZT2, PDTHRAD, PW_NU+ZW_MF, &
PTHT, ZRV2, ZRC2, PCCT, PRRT, PNFT, PNAT, &
PCLDFR )
!
ELSE
!
!-------------------------------------------------------------------------------
!
!
!
!* FULLY IMPLICIT CONDENSATION SCHEME
! ---------------------------------
!
!* select cases where r_c>0
!
!
GMICRO(:,:,:) = .FALSE.
GMICRO(IIB:IIE,IJB:IJE,IKB:IKE) =( PRCS(IIB:IIE,IJB:IJE,IKB:IKE)>0. .AND. &
PCCS(IIB:IIE,IJB:IJE,IKB:IKE)>0. )
IMICRO = COUNTJV( GMICRO(:,:,:),I1(:),I2(:),I3(:))
IF( IMICRO >= 1 ) THEN
ALLOCATE(ZRVT(IMICRO))
ALLOCATE(ZRCT(IMICRO))
!
ALLOCATE(ZRVS(IMICRO))
ALLOCATE(ZRCS(IMICRO))
ALLOCATE(ZCCS(IMICRO))
ALLOCATE(ZTHS(IMICRO))
!
ALLOCATE(ZRHODREF(IMICRO))
ALLOCATE(ZZT(IMICRO))
ALLOCATE(ZPRES(IMICRO))
ALLOCATE(ZEXNREF(IMICRO))
ALLOCATE(ZZCPH(IMICRO))
DO JL=1,IMICRO
ZRVT(JL) = PRVT(I1(JL),I2(JL),I3(JL))
ZRCT(JL) = PRCT(I1(JL),I2(JL),I3(JL))
!
ZRVS(JL) = PRVS(I1(JL),I2(JL),I3(JL))
ZRCS(JL) = PRCS(I1(JL),I2(JL),I3(JL))
ZCCS(JL) = PCCS(I1(JL),I2(JL),I3(JL))
ZTHS(JL) = PTHS(I1(JL),I2(JL),I3(JL))
!
ZRHODREF(JL) = PRHODREF(I1(JL),I2(JL),I3(JL))
ZZT(JL) = ZT(I1(JL),I2(JL),I3(JL))
ZPRES(JL) = 2.0*PPABST(I1(JL),I2(JL),I3(JL))-PPABSM(I1(JL),I2(JL),I3(JL))
ZEXNREF(JL) = PEXNREF(I1(JL),I2(JL),I3(JL))
ZZCPH(JL) = ZCPH(I1(JL),I2(JL),I3(JL))
ENDDO
ALLOCATE(ZZW(IMICRO))
ALLOCATE(ZLVFACT(IMICRO))
ALLOCATE(ZRVSATW(IMICRO))
ALLOCATE(ZCND(IMICRO))
ZLVFACT(:) = (XLVTT+(XCPV-XCL)*(ZZT(:)-XTT))/ZZCPH(:) ! L_v/C_ph
ZZW(:) = EXP( XALPW - XBETAW/ZZT(:) - XGAMW*ALOG(ZZT(:) ) ) ! es_w
ZRVSATW(:) = ZEPS*ZZW(:) / ( ZPRES(:)-ZZW(:) ) ! r_sw
IF (LADJ) THEN
ALLOCATE(ZRVSATW_PRIME(IMICRO))
ALLOCATE(ZAWW(IMICRO))
ALLOCATE(ZDELT1(IMICRO))
ALLOCATE(ZDELT2(IMICRO))
ZRVSATW_PRIME(:) = (( XBETAW/ZZT(:) - XGAMW ) / ZZT(:)) & ! r'_sw
* ZRVSATW(:) * ( 1. + ZRVSATW(:)/ZEPS )
ZAWW(:) = 1.0 + ZRVSATW_PRIME(:)*ZLVFACT(:)
ZDELT2(:) = (ZRVSATW_PRIME(:)*ZLVFACT(:)/ZAWW(:)) * &
( ((-2.*XBETAW+XGAMW*ZZT(:))/(XBETAW-XGAMW*ZZT(:)) &
+ (XBETAW/ZZT(:)-XGAMW)*(1.0+2.0*ZRVSATW(:)/ZEPS))/ZZT(:) )
ZDELT1(:) = (ZLVFACT(:)/ZAWW(:)) * ( ZRVSATW(:) - ZRVS(:)*ZDT )
ZCND(:) = - ZDELT1(:)*( 1.0 + 0.5*ZDELT1(:)*ZDELT2(:) ) / (ZLVFACT(:)*ZDT)
DEALLOCATE(ZRVSATW_PRIME)
DEALLOCATE(ZAWW)
DEALLOCATE(ZDELT1)
DEALLOCATE(ZDELT2)
ELSE
ALLOCATE(ZS(IMICRO))
ALLOCATE(ZZW2(IMICRO))
ALLOCATE(ZVEC1(IMICRO))
ALLOCATE(IVEC1(IMICRO))
ZVEC1(:) = MAX( 1.0001, MIN( FLOAT(NAHEN)-0.0001, XAHENINTP1 * ZZT(:) + XAHENINTP2 ) )
IVEC1(:) = INT( ZVEC1(:) )
ZVEC1(:) = ZVEC1(:) - FLOAT( IVEC1(:) )
ZS(:) = ZRVS(:)*PTSTEP / ZRVSATW(:) - 1.
ZZW(:) = ZCCS(:)*PTSTEP/(XLBC*ZCCS(:)/ZRCS(:))**XLBEXC
ZZW2(:) = XAHENG3(IVEC1(:)+1)*ZVEC1(:)-XAHENG3(IVEC1(:))*(ZVEC1(:)-1.)
ZCND(:) = 2.*3.14*1000.*ZZW2(:)*ZS(:)*ZZW(:)
DEALLOCATE(ZS)
DEALLOCATE(ZZW2)
DEALLOCATE(ZVEC1)
DEALLOCATE(IVEC1)
END IF
!
!
! Integration
!
WHERE( ZCND(:) < 0.0 )
ZCND(:) = MAX ( ZCND(:), -ZRCS(:) )
ELSEWHERE
ZCND(:) = MIN ( ZCND(:), ZRVS(:) )
END WHERE
ZRVS(:) = ZRVS(:) - ZCND(:)
ZRCS(:) = ZRCS(:) + ZCND(:)
ZTHS(:) = ZTHS(:) + ZCND(:) * ZLVFACT(:) / ZEXNREF(:)
!
ZW(:,:,:) = PRVS(:,:,:)
PRVS(:,:,:) = UNPACK( ZRVS(:),MASK=GMICRO(:,:,:),FIELD=ZW(:,:,:) )
ZW(:,:,:) = PRCS(:,:,:)
PRCS(:,:,:) = UNPACK( ZRCS(:),MASK=GMICRO(:,:,:),FIELD=ZW(:,:,:) )
ZW(:,:,:) = PTHS(:,:,:)
PTHS(:,:,:) = UNPACK( ZTHS(:),MASK=GMICRO(:,:,:),FIELD=ZW(:,:,:) )
!
DEALLOCATE(ZRVT)
DEALLOCATE(ZRCT)
DEALLOCATE(ZRVS)
DEALLOCATE(ZRCS)
DEALLOCATE(ZTHS)
DEALLOCATE(ZRHODREF)
DEALLOCATE(ZZT)
DEALLOCATE(ZPRES)
DEALLOCATE(ZEXNREF)
DEALLOCATE(ZZCPH)
DEALLOCATE(ZZW)
DEALLOCATE(ZLVFACT)
DEALLOCATE(ZRVSATW)
DEALLOCATE(ZCND)
END IF ! IMICRO
!
END IF ! end of adjustment procedure (test on OSUBG_COND)
!
! Remove cloud droplets if there are few
ZMASK(:,:,:) = 0.0
ZW(:,:,:) = 0.
WHERE (PRCS(:,:,:) <= ZRTMIN(2) .OR. PCCS(:,:,:) <= ZCTMIN(2))
PRVS(:,:,:) = PRVS(:,:,:) + PRCS(:,:,:)
PTHS(:,:,:) = PTHS(:,:,:) - PRCS(:,:,:)*ZLV(:,:,:)/(ZCPH(:,:,:)*ZEXNS(:,:,:))
PRCS(:,:,:) = 0.0
ZW(:,:,:) = MAX(PCCS(:,:,:),0.)
PCCS(:,:,:) = 0.0
END WHERE
!
ZW1(:,:,:) = 0.
IF (LWARM .AND. NMOD_CCN.GE.1) ZW1(:,:,:) = SUM(PNAS,DIM=4)
ZW (:,:,:) = MIN( ZW(:,:,:), ZW1(:,:,:) )
ZW2(:,:,:) = 0.
WHERE ( ZW(:,:,:) > 0. )
ZMASK(:,:,:) = 1.0
ZW2(:,:,:) = ZW(:,:,:) / ZW1(:,:,:)
ENDWHERE
!
IF (LWARM .AND. NMOD_CCN.GE.1) THEN
DO JMOD = 1, NMOD_CCN
PNFS(:,:,:,JMOD) = PNFS(:,:,:,JMOD) + &
ZMASK(:,:,:) * PNAS(:,:,:,JMOD) * ZW2(:,:,:)
PNAS(:,:,:,JMOD) = PNAS(:,:,:,JMOD) - &
ZMASK(:,:,:) * PNAS(:,:,:,JMOD) * ZW2(:,:,:)
PNAS(:,:,:,JMOD) = MAX( 0.0 , PNAS(:,:,:,JMOD) )
ENDDO
END IF
!
IF (LSCAV .AND. LAERO_MASS) PMAS(:,:,:) = PMAS(:,:,:) * (1-ZMASK(:,:,:))
!
!
END DO ! end of the iterative loop
!
!
!* 5.2 compute the cloud fraction PCLDFR (binary !!!!!!!)
!
IF ( .NOT. OSUBG_COND ) THEN
WHERE (PRCS(:,:,:) + PRIS(:,:,:) + PRSS(:,:,:) > 1.E-12 / ZDT)
PCLDFR(:,:,:) = 1.
ELSEWHERE
PCLDFR(:,:,:) = 0.
ENDWHERE
END IF
!
IF ( SIZE(PSRCS,3) /= 0 ) THEN
WHERE (PRCS(:,:,:) + PRIS(:,:,:) > 1.E-12 / ZDT)
PSRCS(:,:,:) = 1.
ELSEWHERE
PSRCS(:,:,:) = 0.
ENDWHERE
END IF
!
IF ( OSUBG_COND ) THEN
!
! Mixing ratio change (cloud liquid water)
!
ZW1(:,:,:) = (ZRC(:,:,:) - PRCS(:,:,:)*PTSTEP) / PTSTEP
WHERE( ZW1(:,:,:) < 0.0 )
ZW1(:,:,:) = MAX ( ZW1(:,:,:), -PRCS(:,:,:) )
ELSEWHERE
ZW1(:,:,:) = MIN ( ZW1(:,:,:), PRVS(:,:,:) )
END WHERE
WHERE (PCCT(:,:,:) < PCLDFR(:,:,:)*XCTMIN(2) .OR. ZRC(:,:,:)<PCLDFR(:,:,:)*XRTMIN(2))
ZW1=-PRCS
PCCS=0.
PCLDFR=0.
END WHERE
PRVS(:,:,:) = PRVS(:,:,:) - ZW1(:,:,:)
PRCS(:,:,:) = PRCS(:,:,:) + ZW1(:,:,:)
PCCS(:,:,:) = PCCT(:,:,:) / PTSTEP
PNFS(:,:,:,:) = PNFT(:,:,:,:) / PTSTEP
PNAS(:,:,:,:) = PNAT(:,:,:,:) / PTSTEP
PTHS(:,:,:) = PTHS(:,:,:) + &
ZW1(:,:,:) * ZLV(:,:,:) / (ZCPH(:,:,:) * PEXNREF(:,:,:))
END IF ! fin test OSUBG_COND
IF ( tpfile%lopened ) THEN
TZFIELD%CMNHNAME = 'NEB'
TZFIELD%CSTDNAME = ''
TZFIELD%CLONGNAME = 'NEB'
TZFIELD%CUNITS = '1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_NEB'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
TZFIELD%LTIMEDEP = .TRUE.
CALL IO_Field_write(TPFILE,TZFIELD,PCLDFR)
END IF
!
!
!* 6. SAVE CHANGES IN PRS AND PSVS
! ----------------------------
!
!
! Prepare 3D water mixing ratios
PRS(:,:,:,1) = PRVS(:,:,:)
IF ( KRR .GE. 2 ) PRS(:,:,:,2) = PRCS(:,:,:)
IF ( KRR .GE. 3 ) PRS(:,:,:,3) = PRRS(:,:,:)
IF ( KRR .GE. 4 ) PRS(:,:,:,4) = PRIS(:,:,:)
IF ( KRR .GE. 5 ) PRS(:,:,:,5) = PRSS(:,:,:)
IF ( KRR .GE. 6 ) PRS(:,:,:,6) = PRGS(:,:,:)
!
! Prepare 3D number concentrations
!
IF ( LWARM ) PSVS(:,:,:,NSV_LIMA_NC) = PCCS(:,:,:)
! IF ( LCOLD ) PSVS(:,:,:,NSV_LIMA_NI) = PCIS(:,:,:)
!
IF ( LSCAV .AND. LAERO_MASS ) PSVS(:,:,:,NSV_LIMA_SCAVMASS) = PMAS(:,:,:)
!
IF ( LWARM .AND. NMOD_CCN .GE. 1 ) THEN
PSVS(:,:,:,NSV_LIMA_CCN_FREE:NSV_LIMA_CCN_FREE+NMOD_CCN-1) = PNFS(:,:,:,:)
PSVS(:,:,:,NSV_LIMA_CCN_ACTI:NSV_LIMA_CCN_ACTI+NMOD_CCN-1) = PNAS(:,:,:,:)
END IF
!
! IF ( LCOLD .AND. NMOD_IFN .GE. 1 ) THEN
! PSVS(:,:,:,NSV_LIMA_IFN_FREE:NSV_LIMA_IFN_FREE+NMOD_IFN-1) = PIFS(:,:,:,:)
! PSVS(:,:,:,NSV_LIMA_IFN_NUCL:NSV_LIMA_IFN_NUCL+NMOD_IFN-1) = PINS(:,:,:,:)
! END IF
!
! IF ( LCOLD .AND. NMOD_IMM .GE. 1 ) THEN
! PSVS(:,:,:,NSV_LIMA_IMM_NUCL:NSV_LIMA_IMM_NUCL+NMOD_IMM-1) = PNIS(:,:,:,:)
! END IF
!
! write SSI in LFI
!
IF ( tpfile%lopened ) THEN
ZT(:,:,:) = ( PTHS(:,:,:) * ZDT ) * ZEXNS(:,:,:)
ZW(:,:,:) = EXP( XALPI - XBETAI/ZT(:,:,:) - XGAMI*ALOG(ZT(:,:,:) ) )
ZW1(:,:,:)= 2.0*PPABST(:,:,:)-PPABSM(:,:,:)
ZW(:,:,:) = PRVT(:,:,:)*( ZW1(:,:,:)-ZW(:,:,:) ) / ( (XMV/XMD) * ZW(:,:,:) ) - 1.0
TZFIELD%CMNHNAME = 'SSI'
TZFIELD%CSTDNAME = ''
TZFIELD%CLONGNAME = 'SSI'
TZFIELD%CUNITS = ''
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_SSI'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
TZFIELD%LTIMEDEP = .TRUE.
CALL IO_Field_write(TPFILE,TZFIELD,ZW)
END IF
!
!
!* 7. STORE THE BUDGET TERMS
! ----------------------
!
if ( nbumod == kmi .and. lbu_enable ) then
if ( lbudget_th ) call Budget_store_end( tbudgets(NBUDGET_TH), 'CEDS', pths(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_end( tbudgets(NBUDGET_RV), 'CEDS', prvs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_end( tbudgets(NBUDGET_RC), 'CEDS', prcs(:, :, :) * prhodj(:, :, :) )
!Remark: PRIS is not modified but source term kept for better coherence with lima_adjust and lima_notadjust
if ( lbudget_ri ) call Budget_store_end( tbudgets(NBUDGET_RI), 'CEDS', pris(:, :, :) * prhodj(:, :, :) )
if ( lbudget_sv ) then
if ( lwarm ) &
call Budget_store_end( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_nc), 'CEDS', pccs(:, :, :) * prhodj(:, :, :) )
if ( lscav .and. laero_mass ) &
call Budget_store_end( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_scavmass), 'CEDS', pmas(:, :, :) * prhodj(:, :, :) )
if ( lwarm ) then
do jl = 1, nmod_ccn
idx = NBUDGET_SV1 - 1 + nsv_lima_ccn_free - 1 + jl
call Budget_store_end( tbudgets(idx), 'CEDS', pnfs(:, :, :, jl) * prhodj(:, :, :) )
idx = NBUDGET_SV1 - 1 + nsv_lima_ccn_acti - 1 + jl
call Budget_store_end( tbudgets(idx), 'CEDS', pnas(:, :, :, jl) * prhodj(:, :, :) )
end do
end if
! if ( lcold ) then
! call Budget_store_end( tbudgets(NBUDGET_SV1 - 1 + nsv_lima_ni), 'CEDS', pcis(:, :, :) * prhodj(:, :, :) )
! do jl = 1, nmod_ifn
! idx = NBUDGET_SV1 - 1 + nsv_lima_ifn_free - 1 + jl
! call Budget_store_end( tbudgets(idx), 'CEDS', pifs(:, :, :, jl) * prhodj(:, :, :) )
! idx = NBUDGET_SV1 - 1 + nsv_lima_ifn_nucl - 1 + jl
! call Budget_store_end( tbudgets(idx), 'CEDS', pins(:, :, :, jl) * prhodj(:, :, :) )
! end do
! do jl = 1, nmod_imm
! idx = NBUDGET_SV1 - 1 + nsv_lima_imm_nucl - 1 + jl
! call Budget_store_init( tbudgets(idx), 'CEDS', pnis(:, :, :, jl) * prhodj(:, :, :) )
! end do
! end if
end if
end if
!++cb++
DEALLOCATE(ZRTMIN)
DEALLOCATE(ZCTMIN)
IF (ALLOCATED(PNFS)) DEALLOCATE(PNFS)
IF (ALLOCATED(PNAS)) DEALLOCATE(PNAS)
IF (ALLOCATED(PNFT)) DEALLOCATE(PNFT)
IF (ALLOCATED(PNAT)) DEALLOCATE(PNAT)
! IF (ALLOCATED(PIFS)) DEALLOCATE(PIFS)
! IF (ALLOCATED(PINS)) DEALLOCATE(PINS)
! IF (ALLOCATED(PNIS)) DEALLOCATE(PNIS)
!--cb--
!
!------------------------------------------------------------------------------
!
END SUBROUTINE LIMA_ADJUST_SPLIT