subroutine PHY________INI !------------------------------------------------------------------------------+ ! Sun 30-Jun-2013 MAR | ! MAR PHY________INI | ! subroutine PHY________INI intializes MAR PHYsical parameterizations | ! | ! version 3.p.4.1 created by H. Gallee, Tue 12-Mar-2013 | ! Last Modification by H. Gallee, Sun 30-Jun-2013 | ! | !------------------------------------------------------------------------------+ use Mod_Real use Mod_PHY____dat use Mod_PHY____grd use Mod_PHY_RT_grd use Mod_PHY____kkl IMPLICIT NONE logical :: search_argexp = .FALSE. ! Lapack used to compute MAX/MIN exponential arguments integer :: i, j, ikl ! !=============================================================================================! ! ! ! include 'MARphy.inc' ! MARthusalem constants ! ! !=============================================================================================! !=============================================================================================! ! ! ! Modification of Mod_PHY____dat (needed if constants slighly differ in the HOST model) ! ! ================================ (Here the chosen HOST model is MAR) ! ! ! ! Initialization of Mod_PHY____dat from MARphy.inc (MARphy.inc contains MARthusalem constants)! ! ------------------------------------------------ ! ! ! ! zer0 = 0.0 ! [-] ! ! half = 0.5 ! [-] ! ! un_1 = 1.0 ! [-] ! piNmbr = acos(-1.0) ! [-] ! ! eps6 = epsi ! [-] ! ! epsn = eps9 ! [-] ! ! A_MolV = 1.35e-5 ! Air Viscosity 1.35e-5 [m2/s] ! ! rhoIce = ro_Ice ! Ice Specific Mass 920.e0 [kg/m3] ! ! BSnoRo = blsno ! Blown Snow Specific Mass 2.55e+2 [kg/m3] ! ! LhfH2O = Lf_H2O ! ! LhvH2O = Lv_H2O ! Latent Heat Vaporisation, Water 2.5008e+6 [J/kg] ! ! LhsH2O = Ls_H2O ! ! CpdAir = Cp ! Air Heat Capacity (p=C) 1004.708845 [J/kg/K] ! ! R_DAir = RDryAi ! Dry Air Perfect Gas Law C 287.05967 [J/kg/K] ! ! RCp = cap ! RDryAi / Cp [-] ! ! p0_kap = pcap ! ! hC_Wat = C__Wat ! H2O Heat Capacity 4186.00e0 [J/kg/K] ! ! rhoWat = ro_Wat ! Tf_Sno = TfSnow ! Tf_Sea = tfrwat ! StefBo = stefan ! Stefan-Bolstzman Constant 5.67e-8 [W/m2/K4] ! ! Grav_F = gravit ! Gravity Acceleration 9.81e0 [m/s2] ! ! vonKrm = vonkar ! von Karman Constant 0.40e0 [-] ! ! A_Stab = A_Turb ! 5.8 [-] ! ! AhStab = AhTurb ! AsStab = AsTurb ! r_Stab = r_Turb ! ! !=============================================================================================! ! Initialization of Mod_PHY____dat (auxiliary Constants) ! ! ------------------------------------------------------ ! Grav_I = 1. / Grav_F ! [s2/m] ! GravF2 = Grav_F * Grav_F ! [m2/s4] ! RCp = R_DAir / CpdAir ! Case Sensitive [-] ! Lv_CPd = LhvH2O / CpdAir Ls_CPd = LhsH2O / CpdAir Lc_CPd = LhfH2O / CpdAir vonKrm = 0.35 ! von Karman Constant, Case Sensitive ! IF (search_argexp) THEN ! *************** call PHY_CPU_NumPrec ! *************** ELSE ea_MIN =-80. ea_MAX = 80. END IF ! Initialization of Mod_PHY____grd ! ================================ ! Correspondance entre la grille 2D horizontale dynamique et ! -------------------- la grille 2D horizontale physique utile mxp,myp,mzp ! --------------------------------------------------- mxp = mxpp-ixp1+1 ! myp = mypp-jyp1+1 ! !kcolp = mxp * myp ! Déja calculé en amont dans physiq.F90 Martin mzp = mzpp-1 PRINT*, 'mxpp=',mxpp PRINT*, 'mxp=',mxp PRINT*, 'ixp1=',ixp1 PRINT*, 'mypp=',mypp PRINT*, 'jyp1=',jyp1 PRINT*, 'myp=',myp ! Horizontal Cartesian Grid ! ------------------------- write(6,*) ' ' write(6,*) 'i_x0 , j_y0 = ' & & ,i_x0 , j_y0 ! dxHOST is Model Grid Size dx2inv = 0.5/dxHOST ! 1 / (2 dxHOST) dy2inv = 0.5/dxHOST ! 1 / (2 dxHOST) ! ALLOCATION ! ========== ! **************** CALL PHY________ALLOC ! **************** ! Initialization of Mod_PHY____grd ! ================================ ! Initialization of the Correspondance between 2-D cartesian and vector Grid ! -------------------------------------------------------------------------- ! Adapted for MAR/LMDZ coupling: ii__AP(1)=ixp1 jj__AP(1)=jyp1 PRINT*,'jyp1=',jyp1 PRINT*,'jj__AP(1)=',jj__AP(1) ii__AP(kcolp)=ixp1 jj__AP(kcolp)=mypp DO i=ixp1,mxpp DO j=jyp1+1,mypp-1 ikl = (j-(jyp1+1)) *mxpp +1 + (i-ixp1+1) ! Tout est décalé de 1 à cause du point isolé au pole dans la grille physique LMD ! ikl = (j-jyp1) *mxpp + i-ixp1+1 ! ikl = (j-jyp1) *(mxp-1) + i-ixp1+1 ii__AP(ikl) = i jj__AP(ikl) = j ikl_AP(i,j) = ikl ! PRINT*,'ii__AP(',ikl,')=',ii__AP(ikl) ! PRINT*,'jj__AP(',ikl,')=',jj__AP(ikl) ENDDO ENDDO PRINT*,'Control dans PHY_INI:' PRINT*,'ii__AP(1)=',ii__AP(1) PRINT*,'ii__AP(kcolp)=',ii__AP(kcolp) PRINT*,'jj__AP(1)=',jj__AP(1) PRINT*,'jj__AP(kcolp)=',jj__AP(kcolp) ! Martin control tout sauf les poles: WRITE(6,600)(ii__AP(ikl),ikl=2,kcolp-1) 600 FORMAT (48i2) WRITE(6,601)(jj__AP(ikl),ikl=2,kcolp-1) 601 FORMAT (48i2) ! DO i=ixp1,mxpp ! DO j=jyp1,mypp ! ! ikl = (j-jyp1) *mxp + i-ixp1+1 ! ii__AP(ikl) = i ! jj__AP(ikl) = j ! ikl_AP(i,j) = ikl ! ! ENDDO ! ENDDO ikl0 = ikl_AP(i_x0,j_y0) ! Allocation of radiative transfert Variables ! =========================================== ! Initialization of Mod_PHY_RT_grd ! -------------------------------- naero = 6 ! **************** CALL PHY_Atm_RT_ALLOC ! **************** ! Allocation of microphysical Variables ! =========================================== ! **************** CALL PHY_Atm_CM_ALLOC ! **************** ! Allocation of Turbulence Variables ! =========================================== ! **************** CALL PHY_Atm_AT_ALLOC ! **************** ! Allocation of Surface Variables ! =============================== ! **************** CALL PHY_SISVAT_ALLOC ! **************** ! OUTPUT ! ====== OPEN(unit=4,status='unknown',file='PHY___________.OUT') REWIND 4 end subroutine PHY________INI