Class | DynamicsHEVI |
In: |
../src/dynamics/dynamicshevi.f90
|
陽解法を用いた力学過程の各項の計算モジュール. 具体的には以下の項を計算するための関数を格納する.
* 移流項 * 浮力項 * 気圧傾度力項
Subroutine : |
This procedure input/output NAMELIST#Dynamics_nml .
subroutine Dynamics_Init !暗黙の型宣言禁止 implicit none real(DP) :: DelXMin, DelYMin, DelZMin real(DP) :: AlphaSound = 5.0d-2 !音波減衰項の係数 (気象庁数値予報課報告・別冊49 より) real(DP) :: AlphaNDiff = 1.0d-3 !4次の数値拡散の係数. CReSS マニュアルより real(DP) :: AlphaNDiff2 = 0.0d0 !2次の数値拡散の係数. CReSS マニュアルより real(DP) :: NDiffRatio = 1.0d0 !速度に対する粘性を上げる場合は数字を 1 以上にする. integer :: unit !装置番号 integer :: l NAMELIST /Dynamics_nml/ AlphaSound, AlphaNDiff, AlphaNDiff2, NDiffRatio, beta !ファイルオープン. 情報取得. call FileOpen(unit, file=namelist_filename, mode='r') read(unit, NML=dynamics_nml) close(unit) !------------------------------------------------------------------- ! 音波減衰項の減衰率 Min(DelX, DelZ) ** 2.0 に比例 ! 2 次元計算の場合には DelY に依存しないようにするために if 文を利用. ! DelXMin = minval(x_dx) DelYMin = minval(y_dy) DelZMin = minval(z_dz) if (jmin == jmax) then Alpha = AlphaSound * ( Min(DelXMin, DelZMin) ** 2.0d0 ) / DelTimeShort else Alpha = AlphaSound * ( Min(DelXMin, DelYMin, DelZMin) ** 2.0d0 ) / DelTimeShort end if if (jmin == jmax) then NuHh4 = AlphaNDiff * ( DelXMin ** 4.0d0 ) / (2.0d0 * DelTimeLong) else NuHh4 = AlphaNDiff * ( SQRT(DelXMin*DelYMin) ** 4.0d0 ) / (2.0d0 * DelTimeLong) end if NuVh4 = AlphaNDiff * ( DelZMin ** 4.0d0 ) / (2.0d0 * DelTimeLong) NuHm4 = NuHh4 * NDiffRatio NuVm4 = NuVh4 * NDiffRatio if (jmin == jmax) then NuHh2 = AlphaNDiff2 * ( DelXMin ** 2.0d0 ) / (2.0d0 * DelTimeLong) else NuHh2 = AlphaNDiff2 * ( SQRT(DelXMin*DelYMin) ** 2.0d0 ) / (2.0d0 * DelTimeLong) end if NuVh2 = AlphaNDiff2 * ( DelZMin ** 2.0d0 ) / (2.0d0 * DelTimeLong) NuHm2 = NuHh2 * NDiffRatio NuVm2 = NuVh2 * NDiffRatio if (myrank == 0) then if ( AlphaNDiff > 0.0d0 .AND. AlphaNDiff2 > 0.0d0 ) then write(*,*) "CHECK! AlphaNDiff == 0.0d0 .OR. AlphaNDiff2 == 0.0d0" stop end if call MessageNotify( "M", module_name, "Alpha = %f", d=(/Alpha/) ) call MessageNotify( "M", module_name, "NuHh = %f", d=(/NuHh4/) ) call MessageNotify( "M", module_name, "NuVh = %f", d=(/NuVh4/) ) call MessageNotify( "M", module_name, "NuHm = %f", d=(/NuHm4/) ) call MessageNotify( "M", module_name, "NuVm = %f", d=(/NuVm4/) ) call MessageNotify( "M", module_name, "NuHh = %f", d=(/NuHh2/) ) call MessageNotify( "M", module_name, "NuVh = %f", d=(/NuVh2/) ) call MessageNotify( "M", module_name, "NuHm = %f", d=(/NuHm2/) ) call MessageNotify( "M", module_name, "NuVm = %f", d=(/NuVm2/) ) end if ! 陰解法の計算設定の初期化 ! call DynamicsVI_init() call HistoryAutoAddVariable( varname='PTempAdv', dims=(/'x','y','z','t'/), longname='Advection term of potential temperature', units='K.s-1', xtype='float') call HistoryAutoAddVariable( varname='PTempNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of potential temperature', units='K.s-1', xtype='float') call HistoryAutoAddVariable( varname='PTempNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of potential temperature (2 order)', units='K.s-1', xtype='float') call HistoryAutoAddVariable( varname='ExnerAdv', dims=(/'x','y','z','t'/), longname='Advection term of exner function', units='s-1', xtype='float') call HistoryAutoAddVariable( varname='ExnerNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of exner function', units='s-1', xtype='float') call HistoryAutoAddVariable( varname='ExnerNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of exner function (2 order)', units='s-1', xtype='float') call HistoryAutoAddVariable( varname='CDensAdv', dims=(/'x','y','z','t'/), longname='Advection term of cloud density', units='kg.m-3.s-1', xtype='float') call HistoryAutoAddVariable( varname='CDensNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of cloud density', units='kg.m-3.s-1', xtype='float') call HistoryAutoAddVariable( varname='CDensNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of cloud density (2 order)', units='kg.m-3.s-1', xtype='float') do l = 1, ncmax call HistoryAutoAddVariable( varname=trim(SpcWetSymbol(l))//'_Adv', dims=(/'x','y','z','t'/), longname='Advection term of ' //trim(SpcWetSymbol(l))//' mixing ratio', units='kg.kg-1.s-1', xtype='float') call HistoryAutoAddVariable( varname=trim(SpcWetSymbol(l))//'_NDiff', dims=(/'x','y','z','t'/), longname='Diffusion term of ' //trim(SpcWetSymbol(l))//' mixing ratio', units='kg.kg-1.s-1', xtype='float') call HistoryAutoAddVariable( varname=trim(SpcWetSymbol(l))//'_NDiff2', dims=(/'x','y','z','t'/), longname='Diffusion term of ' //trim(SpcWetSymbol(l))//' mixing ratio (2 order)', units='kg.kg-1.s-1', xtype='float') end do call HistoryAutoAddVariable( varname='VelXAdv', dims=(/'x','y','z','t'/), longname='Advection term of velocity (x)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelXNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of velocity (x)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelXNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of velocity (x) (2 order)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelXPGrad', dims=(/'x','y','z','t'/), longname='Pressure gradient term of velocity (x)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelXSWF', dims=(/'x','y','z','t'/), longname='Filter for acoustic mode (x)', units='m.s-2', xtype='float') ! call HistoryAutoAddVariable( & ! & varname='VelXTndNs', & ! & dims=(/'x','y','z','t'/), & ! & longname='Velocity Tendency (x)', & ! & units='m.s-2', & ! & xtype='float') call HistoryAutoAddVariable( varname='VelYAdv', dims=(/'x','y','z','t'/), longname='Advection term of velocity (y)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelYNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of velocity (y)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelYNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of velocity (y) (2 order)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelYPGrad', dims=(/'x','y','z','t'/), longname='Pressure gradient term of velocity (y)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelYSWF', dims=(/'x','y','z','t'/), longname='Filter for acoustic mode (y)', units='m.s-2', xtype='float') ! call HistoryAutoAddVariable( & ! & varname='VelYTndNs', & ! & dims=(/'x','y','z','t'/), & ! & longname='Velocity Tendency (y)', & ! & units='m.s-2', & ! & xtype='float') call HistoryAutoAddVariable( varname='VelZAdv', dims=(/'x','y','z','t'/), longname='Advection term of velocity (z)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZNDiff', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of Velocity (z)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZNDiff2', dims=(/'x','y','z','t'/), longname='Numerical diffusion term of Velocity (z) (2 order)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZBuoyT', dims=(/'x','y','z','t'/), longname='Buoyancy (Temperature)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZBuoyM', dims=(/'x','y','z','t'/), longname='Buoyancy (MolWt)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZBuoyD', dims=(/'x','y','z','t'/), longname='Buoyancy (Drag)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZPGrad', dims=(/'x','y','z','t'/), longname='Pressure gradient term of velocity (z)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='VelZSWF', dims=(/'x','y','z','t'/), longname='Filter for acoustic mode (z)', units='m.s-2', xtype='float') call HistoryAutoAddVariable( varname='KmAdv', dims=(/'x','y','z','t'/), longname='Advection of Km', units='s-1', xtype='float') call HistoryAutoAddVariable( varname='KmNDiff', dims=(/'x','y','z','t'/), longname='Diffusion term of Km', units='s-1', xtype='float') call HistoryAutoAddVariable( varname='KmNDiff2', dims=(/'x','y','z','t'/), longname='Diffusion term of Km', units='s-1', xtype='float') end subroutine Dynamics_Init
Subroutine : | |
pyz_VelXNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xqz_VelYNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyr_VelZNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_KmBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_KmNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_DKmDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
subroutine Dynamics_Km_forcing( pyz_VelXNl, xqz_VelYNl, xyr_VelZNl, xyz_KmBl, xyz_KmNl, xyz_DKmDtNl ) implicit none real(DP), intent(in) :: pyz_VelXNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xqz_VelYNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyr_VelZNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_KmBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_KmNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyz_DKmDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_Orig(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff2(imin:imax,jmin:jmax,kmin:kmax) !---------------------------------- ! 拡散係数 ! ! Initialize ! xyz_Orig = xyz_DKmDtNl ! Advection term ! xyz_Adv = - xyz_avr_pyz(pyz_VelXNl * pyz_c4dx_xyz(xyz_KmNl)) - xyz_avr_xqz(xqz_VelYNl * xqz_c4dy_xyz(xyz_KmNl)) - xyz_avr_xyr(xyr_VelZNl * xyr_c4dz_xyz(xyz_KmNl)) ! Numerical diffusion term ! xyz_NDiff4 = - NuHm4 * (xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz( xyz_KmBl ))))) - NuHm4 * (xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz( xyz_KmBl ))))) - NuVm4 * (xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz( xyz_KmBl ))))) xyz_NDiff2 = + NuHm2 * (xyz_dx_pyz(pyz_dx_xyz( xyz_KmBl ))) + NuHm2 * (xyz_dy_xqz(xqz_dy_xyz( xyz_KmBl ))) + NuVm2 * (xyz_dz_xyr(xyr_dz_xyz( xyz_KmBl ))) xyz_DKmDtNl = xyz_Orig + xyz_Adv + xyz_NDiff4 + xyz_NDiff2 call HistoryAutoPut(TimeN, 'KmAdv', xyz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'KmNDiff', xyz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'KmNDiff2', xyz_NDiff2(1:nx,1:ny,1:nz)) ! Set Margin ! ! call SetMargin_xyz( xyz_DKmDtNl ) end subroutine Dynamics_Km_forcing
Subroutine : | |
pyz_VelXBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
pyz_VelXNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xqz_VelYBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xqz_VelYNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyr_VelZBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyr_VelZNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_PTempBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_PTempNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyzf_QMixBl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) : | real(DP), intent(in) |
xyzf_QMixNl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) : | real(DP), intent(in) |
xyz_CDensBl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
xyz_CDensNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) |
pyz_DVelXDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
xqz_DVelYDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
xyr_DVelZDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
xyz_DPTempDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
xyzf_DQMixDtNl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) : | real(DP), intent(inout) |
xyz_DCDensDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout) |
xyz_PTempAl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(out) |
xyzf_QMixAl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) : | real(DP), intent(out) |
subroutine Dynamics_Long_forcing( pyz_VelXBl, pyz_VelXNl, xqz_VelYBl, xqz_VelYNl, xyr_VelZBl, xyr_VelZNl, xyz_PTempBl, xyz_PTempNl, xyzf_QMixBl, xyzf_QMixNl, xyz_CDensBl, xyz_CDensNl, pyz_DVelXDtNl, xqz_DVelYDtNl, xyr_DVelZDtNl, xyz_DPTempDtNl, xyzf_DQMixDtNl, xyz_DCDensDtNl, xyz_PTempAl, xyzf_QMixAl ) implicit none real(DP), intent(in) :: pyz_VelXBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: pyz_VelXNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xqz_VelYBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xqz_VelYNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyr_VelZBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyr_VelZNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_PTempBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_PTempNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyzf_QMixBl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP), intent(in) :: xyzf_QMixNl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP), intent(inout) :: pyz_DVelXDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xqz_DVelYDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyr_DVelZDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyz_DPTempDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyzf_DQMixDtNl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP), intent(out) :: xyz_PTempAl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(out) :: xyzf_QMixAl(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP), intent(in) :: xyz_CDensBl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_CDensNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyz_DCDensDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_Orig(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_NDiff2(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_Orig(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_NDiff2(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_Orig(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_NDiff2(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_BuoyT(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_BuoyM(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_BuoyD(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_Orig(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff2(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_PTempAll(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyzf_Orig(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP) :: xyzf_Adv(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP) :: xyzf_NDiff4(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP) :: xyzf_NDiff2(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP) :: xyzf_QMixAll(imin:imax,jmin:jmax,kmin:kmax, 1:ncmax) real(DP) :: xyzf_QMixPerMolWt(imin:imax,jmin:jmax,kmin:kmax, 1:GasNum) integer :: f !------------------------------ ! tendency of cloud density ! ! initialize xyz_Orig = xyz_DCDensDtNl ! フラックス項の計算. 4 次精度中心差分を用いて計算 ! xyz_Adv = - xyz_c4dx_pyz(pyz_VelXNl * pyz_avr_xyz(xyz_CDensNl)) - xyz_c4dy_xqz(xqz_VelYNl * xqz_avr_xyz(xyz_CDensNl)) - xyz_c4dz_xyr(xyr_VelZNl * xyr_avr_xyz(xyz_CDensNl)) ! 数値粘性項の計算 xyz_NDiff4 = - NuHh4 * (xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz(xyz_CDensBl))))) - NuHh4 * (xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz(xyz_CDensBl))))) - NuVh4 * (xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz(xyz_CDensBl))))) xyz_NDiff2 = + NuHh2 * (xyz_dx_pyz(pyz_dx_xyz(xyz_CDensBl))) + NuHh2 * (xyz_dy_xqz(xqz_dy_xyz(xyz_CDensBl))) + NuVh2 * (xyz_dz_xyr(xyr_dz_xyz(xyz_CDensBl))) xyz_DCDensDtNl = xyz_Orig + xyz_Adv + xyz_NDiff4 + xyz_NDiff2 call HistoryAutoPut(TimeN, 'CDensAdv', xyz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'CDensNDiff', xyz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'CDensNDiff2', xyz_NDiff2(1:nx,1:ny,1:nz)) ! tendency of potential temperature ! ! initialize xyz_Orig = xyz_DPTempDtNl xyz_PTempAll = xyz_PTempNl + xyz_PTempBZ ! Advection term ! xyz_AdvScalar( xyz_PTempNl + xyz_PTempBZ, pyz_VelXNl, pyz_VelXNl, xyr_VelZNl) ! xyz_Adv = - xyz_avr_pyz(pyz_VelXNl * pyz_c4dx_xyz(xyz_PTempAll)) - xyz_avr_xqz(xqz_VelYNl * xqz_c4dy_xyz(xyz_PTempAll)) - xyz_avr_xyr(xyr_VelZNl * xyr_c4dz_xyz(xyz_PTempAll)) ! numerical diffusion term ! xyz_Num = xyz_NumDiffScalar( xyz_PTempBl) ! xyz_NDiff4 = - NuHh4 * (xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz( xyz_PTempBl ))))) - NuHh4 * (xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz( xyz_PTempBl ))))) - NuVh4 * (xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz( xyz_PTempBl ))))) xyz_NDiff2 = + NuHh2 * (xyz_dx_pyz(pyz_dx_xyz( xyz_PTempBl ))) + NuHh2 * (xyz_dy_xqz(xqz_dy_xyz( xyz_PTempBl ))) + NuVh2 * (xyz_dz_xyr(xyr_dz_xyz( xyz_PTempBl ))) ! sum ! xyz_DPTempDtNl = xyz_Orig + xyz_Adv + xyz_NDiff4 + xyz_NDiff2 ! output ! call HistoryAutoPut(TimeN, 'PTempAdv', xyz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'PTempNDiff', xyz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'PTempNDiff2', xyz_NDiff2(1:nx,1:ny,1:nz)) xyz_PTempAl = xyz_PTempBl + (2.0d0 * DelTimeLong) * xyz_DPTempDtNl ! Set Margin ! call SetMargin_xyz(xyz_PTempAl) !------------------------------ ! tendency of mixing ratio ! ! initialize xyzf_Orig = xyzf_DQMixDtNl xyzf_QMixAll = xyzf_QMixNl + xyzf_QMixBZ do f = 1, ncmax ! Advection term !xyzf_Adv = xyzf_AdvScalar(xyzf_QMixNl + xyzf_QMixBZ, pyz_VelXNl, xqz_VelYNl, xyr_VelZNl) ! xyzf_Adv(:,:,:,f) = - xyz_avr_pyz(pyz_VelXNl * pyz_c4dx_xyz(xyzf_QMixAll(:,:,:,f))) - xyz_avr_xqz(xqz_VelYNl * xqz_c4dy_xyz(xyzf_QMixAll(:,:,:,f))) - xyz_avr_xyr(xyr_VelZNl * xyr_c4dz_xyz(xyzf_QMixAll(:,:,:,f))) ! numerical diffusion term ! xyzf_Diff = xyzf_NumDiffScalar(xyzf_QMixBl) ! xyzf_NDiff4(:,:,:,f) = - NuHh4 * (xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz( xyzf_QMixBl(:,:,:,f) ))))) - NuHh4 * (xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz( xyzf_QMixBl(:,:,:,f) ))))) - NuVh4 * (xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz( xyzf_QMixBl(:,:,:,f) ))))) xyzf_NDiff2(:,:,:,f) = + NuHh2 * (xyz_dx_pyz(pyz_dx_xyz( xyzf_QMixBl(:,:,:,f) ))) + NuHh2 * (xyz_dy_xqz(xqz_dy_xyz( xyzf_QMixBl(:,:,:,f) ))) + NuVh2 * (xyz_dz_xyr(xyr_dz_xyz( xyzf_QMixBl(:,:,:,f) ))) end do ! sum ! xyzf_DQMixDtNl = xyzf_Orig + xyzf_Adv + xyzf_NDiff4 + xyzf_NDiff2 ! output ! do f = 1, ncmax call HistoryAutoPut(TimeN, trim(SpcWetSymbol(f))//'_Adv', xyzf_Adv(1:nx,1:ny,1:nz,f)) call HistoryAutoPut(TimeN, trim(SpcWetSymbol(f))//'_NDiff', xyzf_NDiff4(1:nx,1:ny,1:nz,f)) call HistoryAutoPut(TimeN, trim(SpcWetSymbol(f))//'_NDiff2', xyzf_NDiff2(1:nx,1:ny,1:nz,f)) end do ! time integration ! xyzf_QMixAl = xyzf_QMixBl + (2.0d0 * DelTimeLong) * xyzf_DQMixDtNl ! Set Margin ! call SetMargin_xyzf(xyzf_QMixAl) ! 負の値を埋める ! call FillNegativeQMix(xyzf_QMixAl) ! Set Margin ! call SetMargin_xyzf(xyzf_QMixAl) !------------------------------ ! tendency of VelX ! ! initializa ! pyz_Orig = pyz_DVelXDtNl ! Advection term !pyz_Adv = pyz_AdvVelX(pyz_VelXNl, xqz_VelYNl, xyr_VelZNl) ! pyz_Adv = - pyz_VelXNl * pyz_avr_xyz( xyz_c4dx_pyz( pyz_VelXNl ) ) - pyz_avr_pqz( pqz_avr_xqz( xqz_VelYNl ) * pqz_c4dy_pyz( pyz_VelXNl ) ) - pyz_avr_pyr( pyr_avr_xyr( xyr_VelZNl ) * pyr_c4dz_pyz( pyz_VelXNl ) ) ! Numerical diffusion term !pyz_Diff = pyz_NumDiffVelX(pyz_VelXBl) pyz_NDiff4 = - NuHm4 * ( pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz( pyz_VelXBl ))))) - NuHm4 * ( pyz_dy_pqz(pqz_dy_pyz(pyz_dy_pqz(pqz_dy_pyz( pyz_VelXBl ))))) - NuVm4 * ( pyz_dz_pyr(pyr_dz_pyz(pyz_dz_pyr(pyr_dz_pyz( pyz_VelXBl ))))) pyz_NDiff2 = + NuHm2 * ( pyz_dx_xyz(xyz_dx_pyz( pyz_VelXBl ))) + NuHm2 * ( pyz_dy_pqz(pqz_dy_pyz( pyz_VelXBl ))) + NuVm2 * ( pyz_dz_pyr(pyr_dz_pyz( pyz_VelXBl ))) ! sum ! pyz_DVelXDtNl = pyz_Orig + pyz_Adv + pyz_NDiff4 + pyz_NDiff2 call HistoryAutoPut(TimeN, 'VelXAdv', pyz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelXNDiff', pyz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelXNDiff2', pyz_NDiff2(1:nx,1:ny,1:nz)) !------------------------------ ! tendency of VelY ! ! ininitalize xqz_Orig = xqz_DVelYDtNl ! Advection term ! xqz_Adv = xqz_AdvVelY(pyz_VelXNl, xqz_VelYNl, xyr_VelZNl) ! xqz_Adv = - xqz_avr_pqz( pqz_avr_pyz( pyz_VelXNl ) * pqz_c4dx_xqz( xqz_VelYNl ) ) - xqz_VelYNl * xqz_avr_xyz( xyz_c4dy_xqz( xqz_VelYNl ) ) - xqz_avr_xqr( xqr_avr_xyr( xyr_VelZNl ) * xqr_c4dz_xqz( xqz_VelYNl ) ) ! Numerical diffusion term ! xqz_Diff = xqz_NumDiffVelY(xqz_VelYBl) ! xqz_NDiff4 = - NuHm4 * ( xqz_dx_pqz(pqz_dx_xqz(xqz_dx_pqz(pqz_dx_xqz( xqz_VelYBl ))))) - NuHm4 * ( xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz( xqz_VelYBl ))))) - NuVm4 * ( xqz_dz_xqr(xqr_dz_xqz(xqz_dz_xqr(xqr_dz_xqz( xqz_VelYBl ))))) xqz_NDiff2 = + NuHm2 * ( xqz_dx_pqz(pqz_dx_xqz( xqz_VelYBl ))) + NuHm2 * ( xqz_dy_xyz(xyz_dy_xqz( xqz_VelYBl ))) + NuVm2 * ( xqz_dz_xqr(xqr_dz_xqz( xqz_VelYBl ))) ! sum ! xqz_DVelYDtNl = xqz_Orig + xqz_Adv + xqz_NDiff4 + xqz_NDiff2 call HistoryAutoPut(TimeN, 'VelYAdv', xqz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelYNDiff', xqz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelYNDiff2', xqz_NDiff2(1:nx,1:ny,1:nz)) !------------------------------ ! tendency of VelZ ! ! Initialization ! xyr_Orig = xyr_DVelZDtNl do f = 1, GasNum xyzf_QMixPerMolWt(:,:,:,f) = xyzf_QMixNl(:,:,:,IdxG(f)) / MolWtWet(IdxG(f)) end do ! Advection term ! xyr_Adv = xyr_AdvVelZ(pyz_VelXNl, xqz_VelYNl, xyr_VelZNl) ! xyr_Adv = - xyr_avr_pyr( pyr_avr_pyz( pyz_VelXNl ) * pyr_c4dx_xyr( xyr_VelZNl ) ) - xyr_avr_xqr( xqr_avr_xqz( xqz_VelYNl ) * xqr_c4dy_xyr( xyr_VelZNl ) ) - xyr_VelZNl * xyr_avr_xyz( xyz_c4dz_xyr( xyr_VelZNl ) ) ! Numerical diffusion term !xyr_Diff = xyr_NumDiffVelZ(xyr_VelZBl) ! xyr_NDiff4 = - NuHm4 * ( xyr_dx_pyr(pyr_dx_xyr(xyr_dx_pyr(pyr_dx_xyr( xyr_VelZBl ))))) - NuHm4 * ( xyr_dy_xqr(xqr_dy_xyr(xyr_dy_xqr(xqr_dy_xyr( xyr_VelZBl ))))) - NuVm4 * ( xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr( xyr_VelZBl ))))) xyr_NDiff2 = + NuHm2 * ( xyr_dx_pyr(pyr_dx_xyr( xyr_VelZBl ))) + NuHm2 * ( xyr_dy_xqr(xqr_dy_xyr( xyr_VelZBl ))) + NuVm2 * ( xyr_dz_xyz(xyz_dz_xyr( xyr_VelZBl ))) ! Buoyancy due to temperature disturbunce !xyr_BuoyT = xyr_Buoy(xyz_PTempNl) ! xyr_BuoyT = Grav * xyr_avr_xyz( xyz_PTempNl / xyz_PTempBZ) ! Buoyancy due to molecular weight ! xyr_BuoyM = + Grav * xyr_avr_xyz( sum(xyzf_QMixPerMolWt, 4) ) / ( 1.0d0 / MolWtDry + xyr_QMixBZPerMolWt ) - Grav * xyr_avr_xyz( sum(xyzf_QMixNl(:,:,:,1:GasNum), 4) ) / ( 1.0d0 + xyr_QmixBZ ) ! Buoyancy due to loading ! xyr_BuoyD = - Grav * xyr_avr_xyz( sum(xyzf_QMixNl(:,:,:,GasNum+1:ncmax), 4) ) / ( 1.0d0 + xyr_QMixBZ ) ! sum ! xyr_DVelZDtNl = xyr_Orig + xyr_Adv + xyr_NDiff4 + xyr_NDiff2 + xyr_BuoyT + xyr_BuoyM + xyr_BuoyD call HistoryAutoPut(TimeN, 'VelZAdv', xyr_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZNDiff', xyr_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZNDiff2', xyr_NDiff2(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZBuoyT', xyr_BuoyT(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZBuoyM', xyr_BuoyM(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZBuoyD', xyr_BuoyD(1:nx,1:ny,1:nz)) ! Set Margin ! ! call SetMargin_pyz( pyz_DVelXDtNl ) ! call SetMargin_xqz( xqz_DVelYDtNl ) ! call SetMargin_xyr( xyr_DVelZDtNl ) ! call SetMargin_xyz( xyz_DPTempDtNl ) ! call SetMargin_xyz( xyz_DCDensDtNl ) ! call SetMargin_xyzf(xyzf_DQMixDtNl ) end subroutine Dynamics_Long_forcing
Subroutine : | |||||
pyz_VelXNs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
xqz_VelYNs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
xyr_VelZNs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
xyz_ExnerNs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
pyz_DVelXDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
xqz_DVelYDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in) | ||||
xyr_DVelZDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(in)
| ||||
xyz_DExnerDtNl(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout)
| ||||
xyz_DExnerDtNs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(inout)
| ||||
pyz_VelXAs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(out) | ||||
xqz_VelYAs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(out) | ||||
xyr_VelZAs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(out) | ||||
xyz_ExnerAs(imin:imax,jmin:jmax,kmin:kmax) : | real(DP), intent(out) |
subroutine Dynamics_Short_forcing( pyz_VelXNs, xqz_VelYNs, xyr_VelZNs, xyz_ExnerNs, pyz_DVelXDtNl, xqz_DVelYDtNl, xyr_DVelZDtNl, xyz_DExnerDtNl, xyz_DExnerDtNs, pyz_VelXAs, xqz_VelYAs, xyr_VelZAs, xyz_ExnerAs ) real(DP), intent(in) :: pyz_VelXNs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xqz_VelYNs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyr_VelZNs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyz_ExnerNs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: pyz_DVelXDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xqz_DVelYDtNl(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(in) :: xyr_DVelZDtNl(imin:imax,jmin:jmax,kmin:kmax) ! real(DP), intent(in) :: xyz_DExnerDtNs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(inout) :: xyz_DExnerDtNl(imin:imax,jmin:jmax,kmin:kmax) !test real(DP), intent(inout) :: xyz_DExnerDtNs(imin:imax,jmin:jmax,kmin:kmax) !test real(DP), intent(out) :: pyz_VelXAs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(out) :: xqz_VelYAs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(out) :: xyr_VelZAs(imin:imax,jmin:jmax,kmin:kmax) real(DP), intent(out) :: xyz_ExnerAs(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_DVelXDtNs(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_DVelYDtNs(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_DVelZDtNs(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_VelDivNs(imin:imax,jmin:jmax,kmin:kmax) ! real(DP) :: xyz_VelLaplaNs(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_VelXPGrad(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_VelYPGrad(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_VelZPGrad(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: pyz_VelXSWF(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xqz_VelYSWF(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyr_VelZSWF(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_ExnerAll(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_Adv(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff4(imin:imax,jmin:jmax,kmin:kmax) real(DP) :: xyz_NDiff2(imin:imax,jmin:jmax,kmin:kmax) ! initialize: Divergence of velocity ! xyz_VelDivNs = xyz_dx_pyz( pyz_VelXNs ) + xyz_dy_xqz( xqz_VelYNs ) + xyz_dz_xyr( xyr_VelZNs ) ! call HistoryAutoPut(TimeN, 'VelDiv', xyz_VelDivNs(1:nx,1:ny,1:nz)) ! xyz_VelLaplaNs = pyz_dx_xyz( xyz_VelDivNs ) + xqz_dy_xyz( xyz_VelDivNs ) + xyr_dz_xyz( xyz_VelDivNs ) ! call HistoryAutoPut(TimeN, 'VelLapla', xyz_VelLaplaNs(1:nx,1:ny,1:nz)) !-------------------------------------- ! VelX ! pyz_VelXSWF = Alpha * pyz_dx_xyz( xyz_VelDivNs ) pyz_VelXPGrad = - pyz_avr_xyz( CpDry * xyz_VPTempBZ ) * pyz_dx_xyz( xyz_ExnerNs ) + pyz_VelXSWF pyz_DVelXDtNs = pyz_VelXPGrad ! Time integration ! pyz_VelXAs = pyz_VelXNs + DelTimeShort * (pyz_DVelXDtNl + pyz_DVelXDtNs) call HistoryAutoPut(TimeN, 'VelXPGrad', pyz_VelXPGrad(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelXSWF', pyz_VelXSWF(1:nx,1:ny,1:nz)) ! call HistoryAutoPut(TimeN, 'VelXTndNs', pyz_DVelXDtNs(1:nx,1:ny,1:nz)) ! Set Margin ! call SetMargin_pyz( pyz_VelXAs ) ! (inout) !-------------------------------------- ! VelY ! xqz_VelYSWF = Alpha * xqz_dy_xyz( xyz_VelDivNs ) xqz_VelYPGrad = - xqz_avr_xyz( CpDry * xyz_VPTempBZ ) * xqz_dy_xyz( xyz_ExnerNs ) + xqz_VelYSWF xqz_DVelYDtNs = xqz_VelYPGrad ! Time integration ! xqz_VelYAs = xqz_VelYNs + DelTimeShort * (xqz_DVelYDtNl + xqz_DVelYDtNs) call HistoryAutoPut(TimeN, 'VelYPGrad', xqz_VelYPGrad(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelYSWF', xqz_VelYSWF(1:nx,1:ny,1:nz)) ! call HistoryAutoPut(TimeN, 'VelYTndNs', xqz_DVelYDtNs(1:nx,1:ny,1:nz)) ! Set Margin ! call SetMargin_xqz( xqz_VelYAs ) ! (inout) !-------------------------------------- ! Exner function ! ! フラックス項の計算. 4 次精度中心差分を用いて計算 ! xyz_Adv = - xyz_avr_pyz(pyz_VelXNs * pyz_c4dx_xyz(xyz_ExnerNs)) - xyz_avr_xqz(xqz_VelYNs * xqz_c4dy_xyz(xyz_ExnerNs)) - xyz_avr_xyr(xyr_VelZNs * xyr_c4dz_xyz(xyz_ExnerNs)) !& ! & + CpDry / CvDry * GasRDry * xyz_ExnerNs * xyz_VelDivNs ! 数値粘性項の計算 xyz_NDiff4 = - NuHh4 * (xyz_dx_pyz(pyz_dx_xyz(xyz_dx_pyz(pyz_dx_xyz(xyz_ExnerNs))))) - NuHh4 * (xyz_dy_xqz(xqz_dy_xyz(xyz_dy_xqz(xqz_dy_xyz(xyz_ExnerNs))))) - NuVh4 * (xyz_dz_xyr(xyr_dz_xyz(xyz_dz_xyr(xyr_dz_xyz(xyz_ExnerNs))))) xyz_NDiff2 = + NuHh2 * (xyz_dx_pyz(pyz_dx_xyz(xyz_ExnerNs))) + NuHh2 * (xyz_dy_xqz(xqz_dy_xyz(xyz_ExnerNs))) + NuVh2 * (xyz_dz_xyr(xyr_dz_xyz(xyz_ExnerNs))) ! 短い時間ステップでのtendency xyz_DExnerDtNs = xyz_DExnerDtNs + xyz_Adv + xyz_NDiff4 + xyz_NDiff2 !!!!!!!!!!!!!!!!!!!!!!! ! ! test ! !!!!!!!!!!!!!!!!!!!!!!! xyz_DExnerDtNs = 0.0d0 call HistoryAutoPut(TimeN, 'ExnerAdv', xyz_Adv(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'ExnerNDiff', xyz_NDiff4(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'ExnerNDiff2', xyz_NDiff2(1:nx,1:ny,1:nz)) xyz_ExnerAs = xyz_Exner( pyz_VelXAs, xqz_VelYAs, xyr_VelZNs, xyz_VelDivNs, xyz_ExnerNs, xyr_DVelZDtNl, xyz_DExnerDtNl, xyz_DExnerDtNs ) ! Set Margin ! call SetMargin_xyz( xyz_ExnerAs ) ! (inout) ! write(*,*) "+++ Exner +++", xyz_ExnerAs(imin:imax,1,kmin:kmax) !-------------------------------------- ! VelZ ! xyr_VelZSWF = Alpha * xyr_dz_xyz( xyz_VelDivNs ) xyr_VelZPGrad = - xyr_avr_xyz(CpDry * xyz_VPTempBZ ) * ( beta * xyr_dz_xyz( xyz_ExnerAs ) + (1.0d0 - beta) * xyr_dz_xyz( xyz_ExnerNs ) ) + xyr_VelZSWF xyr_DVelZDtNs = xyr_VelZPGrad !OK ! write(*,*) "+++ DVelZDtNl +++", xyr_DVelZDtNl(1:nx,1,1:nz) !OK !write(*,*) "+++ PGrad +++", xyr_VelZPGrad(1:nx,1,1:nz) ! Time integration ! xyr_VelZAs = xyr_VelZNs + DelTimeShort * (xyr_DVelZDtNl + xyr_DVelZDtNs) call HistoryAutoPut(TimeN, 'VelZPGrad', xyr_VelZPGrad(1:nx,1:ny,1:nz)) call HistoryAutoPut(TimeN, 'VelZSWF', xyr_VelZSWF(1:nx,1:ny,1:nz)) ! call HistoryAutoPut(TimeN, 'VelZTndNs', xyr_DVelZDtNs(1:nx,1:ny,1:nz)) ! Set Margin ! call SetMargin_xyr( xyr_VelZAs ) ! (inout) !OK !write(*,*) "+++ VelZ +++", xyr_VelZAs(1:nx,1,1:nz) !stop end subroutine Dynamics_Short_forcing