Class | lscond |
In: |
lscond/lscond.f90
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Note that Japanese and English are described in parallel.
大規模凝結過程によって温度と比湿を調節します.
Adjust temperature and specific humidity by a large scale condensation process.
Manabe, S., J. Smagorinsky, R. F. Strickler, Simulated climatology of a general circulation model with a hydrologic cycle, Mon. Wea. Rev., 93, 769-798, 1965.
LScaleCond : | 温度と比湿の調節 |
———— : | ———— |
LScaleCond : | Adjust temperature and specific humidity |
Subroutine : | |||
xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_Press(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(in)
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xyr_Press(0:imax-1, 1:jmax, 0:kmax) : | real(DP), intent(in)
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xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) : | real(DP), intent(out)
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FlagOutput : | logical , intent(in ), optional
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大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCond( xyz_Temp, xyz_QVap, xyz_Press, xyr_Press, xyz_DQH2OLiqDt, FlagOutput ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: xyz_CalcQVapSat, xyz_CalcDQVapSatDTemp ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(in):: xyz_Press (0:imax-1, 1:jmax, 1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in):: xyr_Press (0:imax-1, 1:jmax, 0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out) :: xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) ! ! Tendency of H2O liquid mixing ratio logical , intent(in ), optional :: FlagOutput ! ! Flag for output ! 作業変数 ! Work variables ! real(DP):: xy_RainLsc (0:imax-1, 1:jmax) ! 降水量. ! Precipitation real(DP):: xyz_DTempDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 温度変化率. ! Temperature tendency real(DP):: xyz_DQVapDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 比湿変化率. ! Specific humidity tendency real(DP):: xyz_QVapB (0:imax-1, 1:jmax, 1:kmax) ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: xyz_TempB (0:imax-1, 1:jmax, 1:kmax) ! 調節前の温度. ! Temperature before adjust. ! real(DP):: xyz_QVapSat (0:imax-1, 1:jmax, 1:kmax) ! 飽和比湿. ! Saturation specific humidity. real(DP):: xyz_DQVapSatDTemp(0:imax-1, 1:jmax, 1:kmax) ! $ \DD{q_{\rm{sat}}}{T} $ real(DP):: DelTemp ! 調節による温度変化量. ! Temperature variation by adjustment real(DP):: LatentHeatLocal ! ! Latent heat used in this routine integer:: i ! 経度方向に回る DO ループ用作業変数 ! Work variables for DO loop in longitude integer:: j ! 緯度方向に回る DO ループ用作業変数 ! Work variables for DO loop in latitude integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction integer:: itr ! イテレーション方向に回る DO ループ用作業変数 ! Work variables for DO loop in iteration direction real(DP):: xyz_RainLSC(0:imax-1, 1:jmax, 1:kmax) real(DP):: TempBefAdj real(DP):: QVapBefAdj logical:: xyz_FlagSaturated(0:imax-1, 1:jmax, 1:kmax) ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if ! 計算時間計測開始 ! Start measurement of computation time ! call TimesetClockStart( module_name ) ! 調節前 "QVap", "Temp" の保存 ! Store "QVap", "Temp" before adjustment ! xyz_QVapB = xyz_QVap xyz_TempB = xyz_Temp ! 調節 ! Adjustment ! ! 飽和比湿計算 ! Calculate saturation specific humidity ! xyz_QVapSat = xyz_CalcQVapSat( xyz_Temp, xyz_Press ) do k = 1, kmax do j = 1, jmax do i = 0, imax-1 if ( ( xyz_QVap(i,j,k) / xyz_QVapSat(i,j,k) ) >= CrtlRH ) then xyz_FlagSaturated(i,j,k) = .true. else xyz_FlagSaturated(i,j,k) = .false. end if end do end do end do ! Set a value for latent heat if ( FlagSublimation ) then LatentHeatLocal = LatentHeat + LatentHeatFusion else LatentHeatLocal = LatentHeat end if do itr = 1, ItrtMax ! 飽和比湿計算 ! Calculate saturation specific humidity ! xyz_QVapSat = xyz_CalcQVapSat ( xyz_Temp, xyz_Press ) xyz_DQVapSatDTemp = xyz_CalcDQVapSatDTemp( xyz_Temp, xyz_QVapSat ) do k = 1, kmax do j = 1, jmax do i = 0, imax-1 ! 飽和していたら, 温度と比湿の変化を計算 ! Calculate tendency of temperature and humidity ! if moist is saturation. ! if ( xyz_FlagSaturated(i,j,k) ) then ! 温度の変化分をニュートン法で求める ! Calculate variation of temperature ! DelTemp = LatentHeatLocal * ( xyz_QVap(i,j,k) - CrtlRH * xyz_QVapSat(i,j,k) ) / ( CpDry + LatentHeatLocal * CrtlRH * xyz_DQVapSatDTemp(i,j,k) ) !========= ! check routine !--------- !!$ TempBefAdj = xyz_Temp(i,j,k) !!$ QVapBefAdj = xyz_QVap(i,j,k) !========= ! 温度と比湿の調節 ! Adjust temperature and specific humidity ! xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + DelTemp !!$ xyz_QVap(i,j,k) = xyz_QVapSat(i,j,k) + xyz_DQVapSatDTemp(i,j,k) * DelTemp xyz_QVap(i,j,k) = CrtlRH * ( xyz_QVapSat(i,j,k) + xyz_DQVapSatDTemp(i,j,k) * DelTemp ) !========= ! check routine !--------- !!$ write( 6, * ) '=====' !!$ write( 6, * ) 'Energy difference before and after adjustment and each energy' !!$ write( 6, * ) & !!$ & CpDry * TempBefAdj + LatentHeatLocal * QVapBefAdj & !!$ & - ( CpDry * xyz_Temp(i,j,k) + LatentHeatLocal * xyz_QVap(i,j,k) ), & !!$ & CpDry * TempBefAdj + LatentHeatLocal * QVapBefAdj, & !!$ & ( CpDry * xyz_Temp(i,j,k) + LatentHeatLocal * xyz_QVap(i,j,k) ) !========= end if end do end do end do end do ! 比湿変化率, 温度変化率, 降水量の算出 ! Calculate specific humidity tendency, temperature tendency, ! precipitation ! xyz_DQVapDtLsc = ( xyz_QVap - xyz_QVapB ) / ( 2.0_DP * DelTime ) xyz_DTempDtLsc = ( xyz_Temp - xyz_TempB ) / ( 2.0_DP * DelTime ) xyz_DQH2OLiqDt = - xyz_DQVapDtLsc ! calculation for output xy_RainLsc = 0.0_DP do k = kmax, 1, -1 xy_RainLsc = xy_RainLsc + xyz_DQH2OLiqDt(:,:,k) * ( xyr_Press(:,:,k-1) - xyr_Press(:,:,k) ) / Grav end do ! ヒストリデータ出力 ! History data output ! if ( .not. present( FlagOutput ) ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) else if ( FlagOutput ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) end if end if ! 計算時間計測一時停止 ! Pause measurement of computation time ! call TimesetClockStop( module_name ) end subroutine LScaleCond
Subroutine : | |||
xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QH2OLiq(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QH2OSol(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_Press(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(in)
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xyr_Press(0:imax-1, 1:jmax, 0:kmax) : | real(DP), intent(in)
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xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) : | real(DP), intent(out)
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xyz_DQH2OSolDt(0:imax-1,1:jmax,1:kmax) : | real(DP), intent(out)
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FlagOutput : | logical , intent(in ), optional
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大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCond1D3DWrapper( xyz_Temp, xyz_QVap, xyz_QH2OLiq, xyz_QH2OSol, xyz_Press, xyr_Press, xyz_DQH2OLiqDt, xyz_DQH2OSolDt, FlagOutput ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav ! $ g $ [m s-2]. ! 重力加速度. ! Gravitational acceleration ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: xyz_QH2OLiq(0:imax-1, 1:jmax, 1:kmax) ! Specific liquid water content real(DP), intent(inout):: xyz_QH2OSol(0:imax-1, 1:jmax, 1:kmax) ! Specific ice content real(DP), intent(in):: xyz_Press (0:imax-1, 1:jmax, 1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in):: xyr_Press (0:imax-1, 1:jmax, 0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out) :: xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out) :: xyz_DQH2OSolDt(0:imax-1,1:jmax,1:kmax) ! ! Tendency of H2O ice mixing ratio logical , intent(in ), optional :: FlagOutput ! ! Flag for output ! 作業変数 ! Work variables ! real(DP):: xy_RainLsc (0:imax-1, 1:jmax) ! 降水量. ! Precipitation real(DP):: xyz_DTempDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 温度変化率. ! Temperature tendency real(DP):: xyz_DQVapDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 比湿変化率. ! Specific humidity tendency real(DP) :: z_Temp (1:kmax) ! $ T $ . 温度. Temperature real(DP) :: z_QVap (1:kmax) ! $ q $ . 比湿. Specific humidity real(DP) :: z_QH2OLiq(1:kmax) ! Specic liquid water content real(DP) :: z_QH2OSol(1:kmax) ! Specic ice content real(DP) :: z_Press (1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP) :: r_Press (0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP) :: z_DQH2OLiqDt(1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP) :: z_DQH2OSolDt(1:kmax) ! ! Tendency of H2O ice mixing ratio integer:: i ! 経度方向に回る DO ループ用作業変数 ! Work variables for DO loop in longitude integer:: j ! 緯度方向に回る DO ループ用作業変数 ! Work variables for DO loop in latitude integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if ! 計算時間計測開始 ! Start measurement of computation time ! call TimesetClockStart( module_name ) do j = 1, jmax do i = 0, imax-1 do k = 1, kmax z_Temp (k) = xyz_Temp (i,j,k) z_QVap (k) = xyz_QVap (i,j,k) z_QH2OLiq(k) = xyz_QH2OLiq(i,j,k) z_QH2OSol(k) = xyz_QH2OSol(i,j,k) z_Press (k) = xyz_Press (i,j,k) end do do k = 0, kmax r_Press (k) = xyr_Press (i,j,k) end do call LScaleCond1D( z_Temp, z_QVap, z_QH2OLiq, z_QH2OSol, z_Press, r_Press, z_DQH2OLiqDt, z_DQH2OSolDt ) do k = 1, kmax xyz_Temp (i,j,k) = z_Temp (k) xyz_QVap (i,j,k) = z_QVap (k) xyz_QH2OLiq (i,j,k) = z_QH2OLiq (k) xyz_QH2OSol (i,j,k) = z_QH2OSol (k) xyz_DQH2OLiqDt(i,j,k) = z_DQH2OLiqDt(k) xyz_DQH2OSolDt(i,j,k) = z_DQH2OSolDt(k) end do end do end do ! calculation for output xy_RainLsc = 0.0_DP do k = kmax, 1, -1 xy_RainLsc = xy_RainLsc + xyz_DQH2OLiqDt(:,:,k) * ( xyr_Press(:,:,k-1) - xyr_Press(:,:,k) ) / Grav end do ! ヒストリデータ出力 ! History data output ! if ( .not. present( FlagOutput ) ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) else if ( FlagOutput ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) end if end if ! 計算時間計測一時停止 ! Pause measurement of computation time ! call TimesetClockStop( module_name ) end subroutine LScaleCond1D3DWrapper
Subroutine : | |||
Temp : | real(DP), intent(inout)
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QVap : | real(DP), intent(inout)
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QH2OLiq : | real(DP), intent(inout)
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QH2OSol : | real(DP), intent(inout)
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Press : | real(DP), intent(in )
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PressLI : | real(DP), intent(in )
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PressUI : | real(DP), intent(in )
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DQH2OLiqDt : | real(DP), intent(out )
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DQH2OSolDt : | real(DP), intent(out )
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大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCond1Grid( Temp, QVap, QH2OLiq, QH2OSol, Press, PressLI, PressUI, DQH2OLiqDt, DQH2OSolDt ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: CalcQVapSat, CalcDQVapSatDTemp ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only : SaturateWatFraction ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: Temp ! $ T $ . 温度. Temperature real(DP), intent(inout):: QVap ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: QH2OLiq ! Specific liquid water content real(DP), intent(inout):: QH2OSol ! Specific ice content real(DP), intent(in ):: Press ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in ):: PressLI ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(in ):: PressUI ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out ):: DQH2OLiqDt ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out ):: DQH2OSolDt ! ! Tendency of H2O ice mixing ratio ! 作業変数 ! Work variables ! real(DP):: DTempDtLsc ! 温度変化率. ! Temperature tendency real(DP):: DQVapDtLsc ! 比湿変化率. ! Specific humidity tendency real(DP):: QH2OVap0 ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: QH2OLiq0 ! ! Specific liquid water content before adjust. real(DP):: QH2OSol0 ! ! Specific liquid water content before adjust. real(DP):: Temp0 ! 調節前の温度. ! Temperature before adjust. ! real(DP):: QH2OVapB ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: QH2OLiqB ! ! Specific liquid water content before adjust. real(DP):: QH2OSolB ! ! Specific liquid water content before adjust. real(DP):: TempB ! 調節前の温度. ! Temperature before adjust. ! real(DP):: QVapSat ! 飽和比湿. ! Saturation specific humidity. real(DP):: DQVapSatDTemp ! $ \DD{q_{\rm{sat}}}{T} $ real(DP):: DelTemp ! 調節による温度変化量. ! Temperature variation by adjustment real(DP) :: WatFrac real(DP) :: IceFrac integer:: itr ! イテレーション方向に回る DO ループ用作業変数 ! Work variables for DO loop in iteration direction logical:: FlagProcess ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if !!$ ! 計算時間計測開始 !!$ ! Start measurement of computation time !!$ ! !!$ call TimesetClockStart( module_name ) ! 調節前 "QVap", "Temp" の保存 ! Store "QVap", "Temp" before adjustment ! QH2OVap0 = QVap QH2OLiq0 = QH2OLiq QH2OSol0 = QH2OSol Temp0 = Temp ! 調節 ! Adjustment ! ! 飽和比湿計算 ! Calculate saturation specific humidity ! if ( FlagSatAdj ) then Temp = Temp + ( LatentHeat * QH2OLiq + ( LatentHeat + LatentHeatFusion ) * QH2OSol ) / CpDry QVap = QVap + QH2OLiq + QH2OSol QH2OLiq = 0.0_DP QH2OSol = 0.0_DP else ! Pre-existing cloud water and ice are removed, since those are not ! responsible with condensation (assumption). QH2OLiq = 0.0_DP QH2OSol = 0.0_DP end if ! QVapSat = CalcQVapSat( Temp, Press ) ! if ( ( QVap / QVapSat ) >= CrtlRH ) then FlagProcess = .true. else FlagProcess = .false. end if do itr = 1, ItrtMax QH2OVapB = QVap QH2OLiqB = QH2OLiq QH2OSolB = QH2OSol TempB = Temp ! 飽和比湿計算 ! Calculate saturation specific humidity ! QVapSat = CalcQVapSat ( Temp, Press ) DQVapSatDTemp = CalcDQVapSatDTemp( Temp, QVapSat ) ! 飽和していたら, 温度と比湿の変化を計算 ! Calculate tendency of temperature and humidity ! if moist is saturation. ! if ( FlagProcess ) then ! Liquid water and ice fractions call SaturateWatFraction( Temp, WatFrac ) IceFrac = 1.0_DP - WatFrac ! 温度の変化分をニュートン法で求める ! Calculate variation of temperature ! !!$ DelTemp = & !!$ & LatentHeatLocal & !!$ & * ( z_QVap(k) - CrtlRH * z_QVapSat(k) ) & !!$ & / ( CpDry + LatentHeatLocal * CrtlRH * z_DQVapSatDTemp(k) ) DelTemp = ( LatentHeat * QVap - LatentHeatFusion * QH2OSol + LatentHeatFusion * IceFrac * ( QVap + QH2OLiq + QH2OSol ) - ( LatentHeat + LatentHeatFusion * IceFrac ) * CrtlRH * QVapSat ) / ( CpDry + ( LatentHeat + LatentHeatFusion * IceFrac ) * CrtlRH * DQVapSatDTemp ) ! 温度と比湿の調節 ! Adjust temperature and specific humidity ! Temp = Temp + DelTemp QVap = CrtlRH * ( QVapSat + DQVapSatDTemp * DelTemp ) QH2OLiq = WatFrac * ( QH2OVapB + QH2OLiqB + QH2OSolB - QVap ) QH2OSol = IceFrac * ( QH2OVapB + QH2OLiqB + QH2OSolB - QVap ) end if end do if ( FlagSatAdj ) then else ! Pre-existing cloud water and ice amount are restored. QH2OLiq = QH2OLiq + QH2OLiq0 QH2OSol = QH2OSol + QH2OSol0 end if ! 比湿変化率, 温度変化率, 降水量の算出 ! Calculate specific humidity tendency, temperature tendency, ! precipitation ! DTempDtLsc = ( Temp - Temp0 ) / ( 2.0_DP * DelTime ) DQVapDtLsc = ( QVap - QH2OVap0 ) / ( 2.0_DP * DelTime ) DQH2OLiqDt = ( QH2OLiq - QH2OLiq0 ) / ( 2.0_DP * DelTime ) DQH2OSolDt = ( QH2OSol - QH2OSol0 ) / ( 2.0_DP * DelTime ) call LScaleCond1GridConsChk( Temp0, QH2OVap0, QH2OLiq0, QH2OSol0, Temp , QVap , QH2OLiq , QH2OSol ) !!$ ! 計算時間計測一時停止 !!$ ! Pause measurement of computation time !!$ ! !!$ call TimesetClockStop( module_name ) end subroutine LScaleCond1Grid
Subroutine : | |
FlagSnow : | logical, intent(in) |
lscond モジュールの初期化を行います. NAMELIST#lscond_nml の読み込みはこの手続きで行われます.
"lscond" module is initialized. "NAMELIST#lscond_nml" is loaded in this procedure.
This procedure input/output NAMELIST#lscond_nml .
subroutine LScaleCondInit( FlagSnow ) ! ! lscond モジュールの初期化を行います. ! NAMELIST#lscond_nml の読み込みはこの手続きで行われます. ! ! "lscond" module is initialized. ! "NAMELIST#lscond_nml" is loaded in this procedure. ! ! モジュール引用 ; USE statements ! ! NAMELIST ファイル入力に関するユーティリティ ! Utilities for NAMELIST file input ! use namelist_util, only: namelist_filename, NmlutilMsg, NmlutilAryValid ! ファイル入出力補助 ! File I/O support ! use dc_iounit, only: FileOpen ! 種別型パラメタ ! Kind type parameter ! use dc_types, only: STDOUT ! 標準出力の装置番号. Unit number of standard output ! 文字列操作 ! Character handling ! use dc_string, only: StoA ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoAddVariable ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: SaturateInit ! 雲関系ルーチン ! Cloud-related routines ! use cloud_utils, only : CloudUtilsInit ! 宣言文 ; Declaration statements ! implicit none logical, intent(in) :: FlagSnow integer:: unit_nml ! NAMELIST ファイルオープン用装置番号. ! Unit number for NAMELIST file open integer:: iostat_nml ! NAMELIST 読み込み時の IOSTAT. ! IOSTAT of NAMELIST read ! NAMELIST 変数群 ! NAMELIST group name ! namelist /lscond_nml/ QH2OFlucRatio, CrtlRH, ItrtMax, FlagSublimation, FlagSatAdj ! ! デフォルト値については初期化手続 "lscond#LSCondInit" ! のソースコードを参照のこと. ! ! Refer to source codes in the initialization procedure ! "lscond#LSCondInit" for the default values. ! ! 実行文 ; Executable statement ! if ( lscond_inited ) return ! デフォルト値の設定 ! Default values settings ! QH2OFlucRatio = 0.2_DP CrtlRH = 1.0_DP ItrtMax = 3 FlagSublimation = .false. FlagSatAdj = .false. ! NAMELIST の読み込み ! NAMELIST is input ! if ( trim(namelist_filename) /= '' ) then call FileOpen( unit_nml, namelist_filename, mode = 'r' ) ! (in) rewind( unit_nml ) read( unit_nml, nml = lscond_nml, iostat = iostat_nml ) ! (out) close( unit_nml ) call NmlutilMsg( iostat_nml, module_name ) ! (in) if ( iostat_nml == 0 ) write( STDOUT, nml = lscond_nml ) end if ! Initialization of modules used in this module ! ! Initialization of modules used in this module ! call SaturateInit ! 雲関系ルーチン ! Cloud-related routines ! call CloudUtilsInit( FlagSnow ) ! ヒストリデータ出力のためのへの変数登録 ! Register of variables for history data output ! call HistoryAutoAddVariable( 'DTempDtLsc', (/ 'lon ', 'lat ', 'sig ', 'time' /), 'large-scale condensation heating', 'K s-1' ) call HistoryAutoAddVariable( 'DQVapDtLsc', (/ 'lon ', 'lat ', 'sig ', 'time' /), 'large-scale condensation moistening', 'kg kg-1 s-1' ) ! 印字 ; Print ! call MessageNotify( 'M', module_name, '----- Initialization Messages -----' ) call MessageNotify( 'M', module_name, ' QH2OFlucRatio = %f', d = (/ QH2OFlucRatio /) ) call MessageNotify( 'M', module_name, ' CrtlRH = %f', d = (/ CrtlRH /) ) call MessageNotify( 'M', module_name, ' ItrtMax = %d', i = (/ ItrtMax /) ) call MessageNotify( 'M', module_name, ' FlagSublimation = %b', l = (/ FlagSublimation /) ) call MessageNotify( 'M', module_name, ' FlagSatAdj = %b', l = (/ FlagSatAdj /) ) call MessageNotify( 'M', module_name, '-- version = %c', c1 = trim(version) ) lscond_inited = .true. end subroutine LScaleCondInit
Subroutine : | |||
xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QH2OLiq(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_QH2OSol(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(inout)
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xyz_Press(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(in)
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xyr_Press(0:imax-1, 1:jmax, 0:kmax) : | real(DP), intent(in)
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xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) : | real(DP), intent(out)
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xyz_DQH2OSolDt(0:imax-1,1:jmax,1:kmax) : | real(DP), intent(out)
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xyz_CloudCover(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out), optional
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FlagOutput : | logical , intent(in ), optional
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大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCondLL911D3DWrapper( xyz_Temp, xyz_QVap, xyz_QH2OLiq, xyz_QH2OSol, xyz_Press, xyr_Press, xyz_DQH2OLiqDt, xyz_DQH2OSolDt, xyz_CloudCover, FlagOutput ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav ! $ g $ [m s-2]. ! 重力加速度. ! Gravitational acceleration ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: xyz_QH2OLiq(0:imax-1, 1:jmax, 1:kmax) ! Specific liquid water content real(DP), intent(inout):: xyz_QH2OSol(0:imax-1, 1:jmax, 1:kmax) ! Specific ice content real(DP), intent(in):: xyz_Press (0:imax-1, 1:jmax, 1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in):: xyr_Press (0:imax-1, 1:jmax, 0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out) :: xyz_DQH2OLiqDt(0:imax-1,1:jmax,1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out) :: xyz_DQH2OSolDt(0:imax-1,1:jmax,1:kmax) ! ! Tendency of H2O ice mixing ratio real(DP), intent(out), optional :: xyz_CloudCover(0:imax-1, 1:jmax, 1:kmax) ! ! Cloud cover logical , intent(in ), optional :: FlagOutput ! ! Flag for output ! 作業変数 ! Work variables ! real(DP):: xyz_TempB (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP):: xyz_QVapB (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP):: xy_RainLsc (0:imax-1, 1:jmax) ! 降水量. ! Precipitation real(DP):: xyz_DTempDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 温度変化率. ! Temperature tendency real(DP):: xyz_DQVapDtLsc (0:imax-1, 1:jmax, 1:kmax) ! 比湿変化率. ! Specific humidity tendency real(DP) :: z_Temp (1:kmax) ! $ T $ . 温度. Temperature real(DP) :: z_QVap (1:kmax) ! $ q $ . 比湿. Specific humidity real(DP) :: z_QH2OLiq(1:kmax) ! Specic liquid water content real(DP) :: z_QH2OSol(1:kmax) ! Specic ice content real(DP) :: z_Press (1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP) :: r_Press (0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP) :: z_DQH2OLiqDt(1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP) :: z_DQH2OSolDt(1:kmax) ! ! Tendency of H2O ice mixing ratio real(DP) :: z_CloudCover(1:kmax) integer:: i ! 経度方向に回る DO ループ用作業変数 ! Work variables for DO loop in longitude integer:: j ! 緯度方向に回る DO ループ用作業変数 ! Work variables for DO loop in latitude integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if ! 計算時間計測開始 ! Start measurement of computation time ! call TimesetClockStart( module_name ) xyz_TempB = xyz_Temp xyz_QVapB = xyz_QVap do j = 1, jmax do i = 0, imax-1 do k = 1, kmax z_Temp (k) = xyz_Temp (i,j,k) z_QVap (k) = xyz_QVap (i,j,k) z_QH2OLiq(k) = xyz_QH2OLiq(i,j,k) z_QH2OSol(k) = xyz_QH2OSol(i,j,k) z_Press (k) = xyz_Press (i,j,k) end do do k = 0, kmax r_Press (k) = xyr_Press (i,j,k) end do call LScaleCondLL911D( z_Temp, z_QVap, z_QH2OLiq, z_QH2OSol, z_Press, r_Press, z_DQH2OLiqDt, z_DQH2OSolDt, z_CloudCover ) do k = 1, kmax xyz_Temp (i,j,k) = z_Temp (k) xyz_QVap (i,j,k) = z_QVap (k) xyz_QH2OLiq (i,j,k) = z_QH2OLiq (k) xyz_QH2OSol (i,j,k) = z_QH2OSol (k) xyz_DQH2OLiqDt(i,j,k) = z_DQH2OLiqDt(k) xyz_DQH2OSolDt(i,j,k) = z_DQH2OSolDt(k) end do if ( present( xyz_CloudCover ) ) then do k = 1, kmax xyz_CloudCover(i,j,k) = z_CloudCover(k) end do end if end do end do ! calculation for output xy_RainLsc = 0.0_DP do k = kmax, 1, -1 xy_RainLsc = xy_RainLsc + xyz_DQH2OLiqDt(:,:,k) * ( xyr_Press(:,:,k-1) - xyr_Press(:,:,k) ) / Grav end do xyz_DTempDtLsc = ( xyz_Temp - xyz_TempB ) / ( 2.0_DP * DelTime ) xyz_DQVapDtLsc = ( xyz_QVap - xyz_QVapB ) / ( 2.0_DP * DelTime ) ! ヒストリデータ出力 ! History data output ! if ( .not. present( FlagOutput ) ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) else if ( FlagOutput ) then call HistoryAutoPut( TimeN, 'DTempDtLsc', xyz_DTempDtLsc ) call HistoryAutoPut( TimeN, 'DQVapDtLsc', xyz_DQVapDtLsc ) end if end if ! 計算時間計測一時停止 ! Pause measurement of computation time ! call TimesetClockStop( module_name ) end subroutine LScaleCondLL911D3DWrapper
Subroutine : | |||
z_Temp(1:kmax) : | real(DP), intent(inout)
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z_QVap(1:kmax) : | real(DP), intent(inout)
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z_QH2OLiq(1:kmax) : | real(DP), intent(inout)
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z_QH2OSol(1:kmax) : | real(DP), intent(inout)
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z_Press(1:kmax) : | real(DP), intent(in )
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r_Press(0:kmax) : | real(DP), intent(in )
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z_DQH2OLiqDt(1:kmax) : | real(DP), intent(out )
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z_DQH2OSolDt(1:kmax) : | real(DP), intent(out )
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大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCond1D( z_Temp, z_QVap, z_QH2OLiq, z_QH2OSol, z_Press, r_Press, z_DQH2OLiqDt, z_DQH2OSolDt ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: a_CalcQVapSat, a_CalcDQVapSatDTemp ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: z_Temp (1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: z_QVap (1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: z_QH2OLiq(1:kmax) ! Specific liquid water content real(DP), intent(inout):: z_QH2OSol(1:kmax) ! Specific ice content real(DP), intent(in ):: z_Press (1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in ):: r_Press (0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out ):: z_DQH2OLiqDt(1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out ):: z_DQH2OSolDt(1:kmax) ! ! Tendency of H2O ice mixing ratio ! 作業変数 ! Work variables ! integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if !!$ ! 計算時間計測開始 !!$ ! Start measurement of computation time !!$ ! !!$ call TimesetClockStart( module_name ) do k = 1, kmax call LScaleCond1Grid( z_Temp(k), z_QVap(k), z_QH2OLiq(k), z_QH2OSol(k), z_Press(k), r_Press(k-1), r_Press(k), z_DQH2OLiqDt(k), z_DQH2OSolDt(k) ) end do !!$ ! 計算時間計測一時停止 !!$ ! Pause measurement of computation time !!$ ! !!$ call TimesetClockStop( module_name ) end subroutine LScaleCond1D
Subroutine : | |
z_TempB(1:kmax) : | real(DP), intent(in) |
z_QH2OVapB(1:kmax) : | real(DP), intent(in) |
z_QH2OLiqB(1:kmax) : | real(DP), intent(in) |
z_QH2OSolB(1:kmax) : | real(DP), intent(in) |
z_Temp(1:kmax) : | real(DP), intent(in) |
z_QH2OVap(1:kmax) : | real(DP), intent(in) |
z_QH2OLiq(1:kmax) : | real(DP), intent(in) |
z_QH2OSol(1:kmax) : | real(DP), intent(in) |
subroutine LScaleCond1DConsChk( z_TempB, z_QH2OVapB, z_QH2OLiqB, z_QH2OSolB, z_Temp , z_QH2OVap , z_QH2OLiq , z_QH2OSol ) ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion real(DP), intent(in) :: z_TempB (1:kmax) real(DP), intent(in) :: z_QH2OVapB(1:kmax) real(DP), intent(in) :: z_QH2OLiqB(1:kmax) real(DP), intent(in) :: z_QH2OSolB(1:kmax) real(DP), intent(in) :: z_Temp (1:kmax) real(DP), intent(in) :: z_QH2OVap (1:kmax) real(DP), intent(in) :: z_QH2OLiq (1:kmax) real(DP), intent(in) :: z_QH2OSol (1:kmax) ! Local variables ! real(DP) :: ValB real(DP) :: Val real(DP) :: Ratio integer :: k do k = kmax, 1, -1 Val = CpDry * z_TempB(k) + LatentHeat * z_QH2OVapB(k) - LatentHeatFusion * z_QH2OSolB(k) ValB = Val Val = CpDry * z_Temp(k) + LatentHeat * z_QH2OVap(k) - LatentHeatFusion * z_QH2OSol(k) Ratio = ( Val - ValB ) / ( Val + 1.0d-100 ) if ( abs( Ratio ) > 1.0d-10 ) then call MessageNotify( 'M', module_name, 'Simplified condensate static energy is not conserved, %f.', d = (/ Ratio /) ) end if end do do k = kmax, 1, -1 Val = z_QH2OVapB(k) + z_QH2OLiqB(k) + z_QH2OSolB(k) ValB = Val Val = z_QH2OVap (k) + z_QH2OLiq (k) + z_QH2OSol (k) Ratio = ( Val - ValB ) / ( Val + 1.0d-100 ) if ( abs( Ratio ) > 1.0d-10 ) then call MessageNotify( 'M', module_name, 'H2O mass is not conserved, %f.', d = (/ Ratio /) ) end if end do end subroutine LScaleCond1DConsChk
Subroutine : | |||
z_Temp(1:kmax) : | real(DP), intent(inout)
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z_QVap(1:kmax) : | real(DP), intent(inout)
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z_QH2OLiq(1:kmax) : | real(DP), intent(inout)
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z_QH2OSol(1:kmax) : | real(DP), intent(inout)
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z_Press(1:kmax) : | real(DP), intent(in )
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r_Press(0:kmax) : | real(DP), intent(in )
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z_DQH2OLiqDt(1:kmax) : | real(DP), intent(out )
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z_DQH2OSolDt(1:kmax) : | real(DP), intent(out )
|
大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCond1D_BK( z_Temp, z_QVap, z_QH2OLiq, z_QH2OSol, z_Press, r_Press, z_DQH2OLiqDt, z_DQH2OSolDt ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: a_CalcQVapSat, a_CalcDQVapSatDTemp ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only : SaturateWatFraction ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: z_Temp (1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: z_QVap (1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: z_QH2OLiq(1:kmax) ! Specific liquid water content real(DP), intent(inout):: z_QH2OSol(1:kmax) ! Specific ice content real(DP), intent(in ):: z_Press (1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in ):: r_Press (0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out ):: z_DQH2OLiqDt(1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out ):: z_DQH2OSolDt(1:kmax) ! ! Tendency of H2O ice mixing ratio ! 作業変数 ! Work variables ! real(DP):: z_DTempDtLsc (1:kmax) ! 温度変化率. ! Temperature tendency real(DP):: z_DQVapDtLsc (1:kmax) ! 比湿変化率. ! Specific humidity tendency real(DP):: z_QH2OVap0 (1:kmax) ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: z_QH2OLiq0 (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_QH2OSol0 (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_Temp0 (1:kmax) ! 調節前の温度. ! Temperature before adjust. ! real(DP):: z_QH2OVapB (1:kmax) ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: z_QH2OLiqB (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_QH2OSolB (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_TempB (1:kmax) ! 調節前の温度. ! Temperature before adjust. ! real(DP):: z_QVapSat (1:kmax) ! 飽和比湿. ! Saturation specific humidity. real(DP):: z_DQVapSatDTemp(1:kmax) ! $ \DD{q_{\rm{sat}}}{T} $ real(DP):: DelTemp ! 調節による温度変化量. ! Temperature variation by adjustment real(DP) :: WatFrac real(DP) :: IceFrac integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction integer:: itr ! イテレーション方向に回る DO ループ用作業変数 ! Work variables for DO loop in iteration direction logical:: z_FlagProcess(1:kmax) ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if !!$ ! 計算時間計測開始 !!$ ! Start measurement of computation time !!$ ! !!$ call TimesetClockStart( module_name ) ! 調節前 "QVap", "Temp" の保存 ! Store "QVap", "Temp" before adjustment ! z_QH2OVap0 = z_QVap z_QH2OLiq0 = z_QH2OLiq z_QH2OSol0 = z_QH2OSol z_Temp0 = z_Temp ! 調節 ! Adjustment ! ! 飽和比湿計算 ! Calculate saturation specific humidity ! if ( FlagSatAdj ) then z_Temp = z_Temp + ( LatentHeat * z_QH2OLiq + ( LatentHeat + LatentHeatFusion ) * z_QH2OSol ) / CpDry z_QVap = z_QVap + z_QH2OLiq + z_QH2OSol z_QH2OLiq = 0.0_DP z_QH2OSol = 0.0_DP else ! Pre-existing cloud water and ice are removed, since those are not ! responsible with condensation (assumption). z_QH2OLiq = 0.0_DP z_QH2OSol = 0.0_DP end if ! z_QVapSat = a_CalcQVapSat( z_Temp, z_Press ) ! do k = 1, kmax if ( ( z_QVap(k) / z_QVapSat(k) ) >= CrtlRH ) then z_FlagProcess(k) = .true. else z_FlagProcess(k) = .false. end if end do do itr = 1, ItrtMax z_QH2OVapB = z_QVap z_QH2OLiqB = z_QH2OLiq z_QH2OSolB = z_QH2OSol z_TempB = z_Temp ! 飽和比湿計算 ! Calculate saturation specific humidity ! z_QVapSat = a_CalcQVapSat ( z_Temp, z_Press ) z_DQVapSatDTemp = a_CalcDQVapSatDTemp( z_Temp, z_QVapSat ) do k = 1, kmax ! 飽和していたら, 温度と比湿の変化を計算 ! Calculate tendency of temperature and humidity ! if moist is saturation. ! if ( z_FlagProcess(k) ) then ! Liquid water and ice fractions call SaturateWatFraction( z_Temp(k), WatFrac ) IceFrac = 1.0_DP - WatFrac ! 温度の変化分をニュートン法で求める ! Calculate variation of temperature ! DelTemp = ( LatentHeat * z_QVap(k) - LatentHeatFusion * z_QH2OSol(k) + LatentHeatFusion * IceFrac * ( z_QVap(k) + z_QH2OLiq(k) + z_QH2OSol(k) ) - ( LatentHeat + LatentHeatFusion * IceFrac ) * CrtlRH * z_QVapSat(k) ) / ( CpDry + ( LatentHeat + LatentHeatFusion * IceFrac ) * CrtlRH * z_DQVapSatDTemp(k) ) ! 温度と比湿の調節 ! Adjust temperature and specific humidity ! z_Temp(k) = z_Temp(k) + DelTemp z_QVap(k) = CrtlRH * ( z_QVapSat(k) + z_DQVapSatDTemp(k) * DelTemp ) z_QH2OLiq(k) = WatFrac * ( z_QH2OVapB(k) + z_QH2OLiqB(k) + z_QH2OSolB(k) - z_QVap(k) ) z_QH2OSol(k) = IceFrac * ( z_QH2OVapB(k) + z_QH2OLiqB(k) + z_QH2OSolB(k) - z_QVap(k) ) end if end do end do if ( FlagSatAdj ) then else ! Pre-existing cloud water and ice amount are restored. z_QH2OLiq = z_QH2OLiq + z_QH2OLiq0 z_QH2OSol = z_QH2OSol + z_QH2OSol0 end if ! 比湿変化率, 温度変化率, 降水量の算出 ! Calculate specific humidity tendency, temperature tendency, ! precipitation ! z_DTempDtLsc = ( z_Temp - z_Temp0 ) / ( 2.0_DP * DelTime ) z_DQVapDtLsc = ( z_QVap - z_QH2OVap0 ) / ( 2.0_DP * DelTime ) z_DQH2OLiqDt = ( z_QH2OLiq - z_QH2OLiq0 ) / ( 2.0_DP * DelTime ) z_DQH2OSolDt = ( z_QH2OSol - z_QH2OSol0 ) / ( 2.0_DP * DelTime ) call LScaleCond1DConsChk( z_Temp0, z_QH2OVap0, z_QH2OLiq0, z_QH2OSol0, z_Temp , z_QVap , z_QH2OLiq , z_QH2OSol ) !!$ ! 計算時間計測一時停止 !!$ ! Pause measurement of computation time !!$ ! !!$ call TimesetClockStop( module_name ) end subroutine LScaleCond1D_BK
Subroutine : | |
TempB : | real(DP), intent(in) |
QH2OVapB : | real(DP), intent(in) |
QH2OLiqB : | real(DP), intent(in) |
QH2OSolB : | real(DP), intent(in) |
Temp : | real(DP), intent(in) |
QH2OVap : | real(DP), intent(in) |
QH2OLiq : | real(DP), intent(in) |
QH2OSol : | real(DP), intent(in) |
subroutine LScaleCond1GridConsChk( TempB, QH2OVapB, QH2OLiqB, QH2OSolB, Temp , QH2OVap , QH2OLiq , QH2OSol ) ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion real(DP), intent(in) :: TempB real(DP), intent(in) :: QH2OVapB real(DP), intent(in) :: QH2OLiqB real(DP), intent(in) :: QH2OSolB real(DP), intent(in) :: Temp real(DP), intent(in) :: QH2OVap real(DP), intent(in) :: QH2OLiq real(DP), intent(in) :: QH2OSol ! Local variables ! real(DP) :: ValB real(DP) :: Val real(DP) :: Ratio integer :: k Val = CpDry * TempB + LatentHeat * QH2OVapB - LatentHeatFusion * QH2OSolB ValB = Val Val = CpDry * Temp + LatentHeat * QH2OVap - LatentHeatFusion * QH2OSol Ratio = ( Val - ValB ) / ( Val + 1.0d-100 ) if ( abs( Ratio ) > 1.0d-10 ) then call MessageNotify( 'M', module_name, 'Simplified condensate static energy is not conserved, %f.', d = (/ Ratio /) ) end if Val = QH2OVapB + QH2OLiqB + QH2OSolB ValB = Val Val = QH2OVap + QH2OLiq + QH2OSol Ratio = ( Val - ValB ) / ( Val + 1.0d-100 ) if ( abs( Ratio ) > 1.0d-10 ) then call MessageNotify( 'M', module_name, 'H2O mass is not conserved, %f.', d = (/ Ratio /) ) end if end subroutine LScaleCond1GridConsChk
Subroutine : | |||
z_Temp(1:kmax) : | real(DP), intent(inout)
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z_QH2OVap(1:kmax) : | real(DP), intent(inout)
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z_QH2OLiq(1:kmax) : | real(DP), intent(inout)
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z_QH2OSol(1:kmax) : | real(DP), intent(inout)
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z_Press(1:kmax) : | real(DP), intent(in )
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r_Press(0:kmax) : | real(DP), intent(in )
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z_DQH2OLiqDt(1:kmax) : | real(DP), intent(out )
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z_DQH2OSolDt(1:kmax) : | real(DP), intent(out )
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z_CloudCover(1:kmax) : | real(DP), intent(out ) |
大規模凝結スキームにより, 温度と比湿を調節します.
Adjust temperature and specific humidity by large scale condensation scheme.
subroutine LScaleCondLL911D( z_Temp, z_QH2OVap, z_QH2OLiq, z_QH2OSol, z_Press, r_Press, z_DQH2OLiqDt, z_DQH2OSolDt, z_CloudCover ) ! ! 大規模凝結スキームにより, 温度と比湿を調節します. ! ! Adjust temperature and specific humidity by ! large scale condensation scheme. ! ! モジュール引用 ; USE statements ! ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, LatentHeat, LatentHeatFusion ! $ L $ [J kg-1] . ! 融解の潜熱. ! Latent heat of fusion ! 時刻管理 ! Time control ! use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop ! ヒストリデータ出力 ! History data output ! use gtool_historyauto, only: HistoryAutoPut ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: a_CalcQVapSat, a_CalcDQVapSatDTemp ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only : SaturateWatFraction ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(inout):: z_Temp (1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(inout):: z_QH2OVap (1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(inout):: z_QH2OLiq(1:kmax) ! Specific liquid water content real(DP), intent(inout):: z_QH2OSol(1:kmax) ! Specific ice content real(DP), intent(in ):: z_Press (1:kmax) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP), intent(in ):: r_Press (0:kmax) ! $ \hat{p} $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP), intent(out ):: z_DQH2OLiqDt(1:kmax) ! ! Tendency of H2O liquid mixing ratio real(DP), intent(out ):: z_DQH2OSolDt(1:kmax) ! ! Tendency of H2O ice mixing ratio real(DP), intent(out ):: z_CloudCover(1:kmax) ! 作業変数 ! Work variables ! real(DP):: z_DTempDtLsc (1:kmax) ! 温度変化率. ! Temperature tendency real(DP):: z_DQH2OVapDtLsc (1:kmax) ! 比湿変化率. ! Specific humidity tendency real(DP):: z_QH2OTot (1:kmax) ! 調節前の水量. ! Specific water content before adjust. real(DP):: z_QH2OVap0 (1:kmax) ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: z_QH2OLiq0 (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_QH2OSol0 (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_Temp0 (1:kmax) ! 調節前の温度. ! Temperature before adjust. ! real(DP):: z_QH2OVapB (1:kmax) ! 調節前の比湿. ! Specific humidity before adjust. real(DP):: z_QH2OLiqB (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_QH2OSolB (1:kmax) ! ! Specific liquid water content before adjust. real(DP):: z_TempB (1:kmax) ! 調節前の温度. ! Temperature before adjust. ! real(DP):: z_QH2OVapSat (1:kmax) ! 飽和比湿. ! Saturation specific humidity. real(DP):: z_DQH2OVapSatDTemp(1:kmax) ! $ \DD{q_{\rm{sat}}}{T} $ real(DP):: DelTemp ! 調節による温度変化量. ! Temperature variation by adjustment real(DP) :: CoefA real(DP) :: CoefB real(DP) :: QH2OCond real(DP):: z_QH2OTotFluc(1:kmax) real(DP) :: WatFrac real(DP) :: IceFrac real(DP) :: QH2OVapSat integer:: k ! 鉛直方向に回る DO ループ用作業変数 ! Work variables for DO loop in vertical direction integer:: itr ! イテレーション方向に回る DO ループ用作業変数 ! Work variables for DO loop in iteration direction logical:: z_FlagProcess(1:kmax) ! 実行文 ; Executable statement ! ! 初期化確認 ! Initialization check ! if ( .not. lscond_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if !!$ ! 計算時間計測開始 !!$ ! Start measurement of computation time !!$ ! !!$ call TimesetClockStart( module_name ) ! 調節前 "QH2OVap", "Temp" の保存 ! Store "QH2OVap", "Temp" before adjustment ! z_QH2OVap0 = z_QH2OVap z_QH2OLiq0 = z_QH2OLiq z_QH2OSol0 = z_QH2OSol z_Temp0 = z_Temp ! 調節 ! Adjustment ! z_QH2OTot = z_QH2OVap + z_QH2OLiq + z_QH2OSol z_QH2OTotFluc = QH2OFlucRatio * z_QH2OTot ! 飽和比湿計算 ! Calculate saturation specific humidity ! !!$ z_QH2OVapSat = a_CalcQVapSat( z_Temp, z_Press ) !!$ ! !!$ do k = 1, kmax !!$ if ( ( z_QH2OTot(k) / z_QH2OVapSat(k) ) >= 1.0_DP ) then !!$ z_FlagProcess(k) = .true. !!$ else !!$ z_FlagProcess(k) = .false. !!$ end if !!$ end do z_FlagProcess = .true. do itr = 1, ItrtMax z_QH2OVapB = z_QH2OVap z_QH2OLiqB = z_QH2OLiq z_QH2OSolB = z_QH2OSol z_TempB = z_Temp ! 飽和比湿計算 ! Calculate saturation specific humidity ! z_QH2OVapSat = a_CalcQVapSat ( z_Temp, z_Press ) z_DQH2OVapSatDTemp = a_CalcDQVapSatDTemp( z_Temp, z_QH2OVapSat ) do k = 1, kmax ! 飽和していたら, 温度と比湿の変化を計算 ! Calculate tendency of temperature and humidity ! if moist is saturation. ! if ( z_FlagProcess(k) ) then ! Liquid water and ice fractions call SaturateWatFraction( z_Temp(k), WatFrac ) IceFrac = 1.0_DP - WatFrac if ( z_QH2OVapSat(k) < z_QH2OTot(k) - z_QH2OTotFluc(k) ) then CoefA = z_QH2OTot(k) - z_QH2OVapSat(k) CoefB = - z_DQH2OVapSatDTemp(k) else if ( z_QH2OVapSat(k) < z_QH2OTot(k) + z_QH2OTotFluc(k) ) then CoefA = ( z_QH2OTot(k) + z_QH2OTotFluc(k) - z_QH2OVapSat(k) )**2 / ( 4.0_DP * z_QH2OTotFluc(k) ) CoefB = - ( z_QH2OTot(k) + z_QH2OTotFluc(k) - z_QH2OVapSat(k) ) / ( 2.0_DP * z_QH2OTotFluc(k) ) * z_DQH2OVapSatDTemp(k) else CoefA = 0.0_DP CoefB = 0.0_DP end if ! 温度の変化分をニュートン法で求める ! Calculate variation of temperature ! DelTemp = ( - LatentHeat * z_QH2OLiq(k) - ( LatentHeat + LatentHeatFusion ) * z_QH2OSol(k) + ( LatentHeat + LatentHeatFusion * IceFrac ) * CoefA ) / ( CpDry - ( LatentHeat + LatentHeatFusion * IceFrac ) * CoefB ) ! 温度と比湿の調節 ! Adjust temperature and specific humidity ! z_Temp(k) = z_Temp(k) + DelTemp QH2OCond = CoefA + CoefB * DelTemp z_QH2OVap(k) = z_QH2OTot(k) - QH2OCond z_QH2OLiq(k) = WatFrac * QH2OCond z_QH2OSol(k) = IceFrac * QH2OCond QH2OVapSat = z_QH2OVapSat(k) + z_DQH2OVapSatDTemp(k) * DelTemp ! It should be noted that, in general, z_QH2OVapSat(k) is not ! equal to QH2OVapSat. if ( z_QH2OVapSat(k) < z_QH2OTot(k) - z_QH2OTotFluc(k) ) then z_CloudCover(k) = 1.0_DP else if ( z_QH2OVapSat(k) < z_QH2OTot(k) + z_QH2OTotFluc(k) ) then z_CloudCover(k) = ( z_QH2OTot(k) + z_QH2OTotFluc(k) - QH2OVapSat ) / ( 2.0_DP * z_QH2OTotFluc(k) ) z_CloudCover(k) = max( min( z_CloudCover(k), 1.0_DP ), 0.0_DP ) else z_CloudCover(k) = 0.0_DP end if else z_CloudCover(k) = 0.0_DP end if end do end do ! 比湿変化率, 温度変化率, 降水量の算出 ! Calculate specific humidity tendency, temperature tendency, ! precipitation ! z_DTempDtLsc = ( z_Temp - z_Temp0 ) / ( 2.0_DP * DelTime ) z_DQH2OVapDtLsc = ( z_QH2OVap - z_QH2OVap0 ) / ( 2.0_DP * DelTime ) z_DQH2OLiqDt = ( z_QH2OLiq - z_QH2OLiq0 ) / ( 2.0_DP * DelTime ) z_DQH2OSolDt = ( z_QH2OSol - z_QH2OSol0 ) / ( 2.0_DP * DelTime ) call LScaleCond1DConsChk( z_Temp0, z_QH2OVap0, z_QH2OLiq0, z_QH2OSol0, z_Temp , z_QH2OVap , z_QH2OLiq , z_QH2OSol ) !!$ ! 計算時間計測一時停止 !!$ ! Pause measurement of computation time !!$ ! !!$ call TimesetClockStop( module_name ) end subroutine LScaleCondLL911D
Constant : | |||
version = ’$Name: $’ // ’$Id: lscond.f90,v 1.22 2015/03/11 04:53:25 yot Exp $’ : | character(*), parameter
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