Class | initial_data |
In: |
prepare_data/initial_data.f90
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初期値データのサンプルを提供します.
現在は以下のデータを提供します.
Prepare sample data of initial data (restart data)
Now, following data are provided.
SetInitData : | 初期値データ取得 |
———— : | ———— |
SetInitData : | Get initial data |
Subroutine : |
This procedure input/output NAMELIST#initial_data_nml .
subroutine InitDataInit ! 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 ! 文字列操作 ! Character handling ! use dc_string, only: LChar ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: SaturateInit ! ファイルから 1 次元プロファイルを読んで設定する. ! read 1-D profile from a file and set it ! use set_1d_profile, only : Set1DProfileInit ! 宣言文 ; Declaration statements ! implicit none 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 /initial_data_nml/ Pattern, TempAvr, PsAvr, QVapAvr, Ueq, UGeos, VGeos ! ! デフォルト値については初期化手続 "initial_data#InitDataInit" ! のソースコードを参照のこと. ! ! Refer to source codes in the initialization procedure ! "initial_data#InitDataInit" for the default values. ! ! 実行文 ; Executable statement if ( initial_data_inited ) return ! デフォルト値の設定 (まずは Pattern のみ) ! Default values settings (At first, "Pattern" only) ! Pattern = 'Small Disturbance of Temperature' !Pattern = 'AGCM 5.3 Default' ! NAMELIST の読み込み (まずは Pattern のみ) ! NAMELIST is input (At first, "Pattern" only) ! if ( trim(namelist_filename) /= '' ) then call FileOpen( unit_nml, namelist_filename, mode = 'r' ) ! (in) rewind( unit_nml ) read( unit_nml, nml = initial_data_nml, iostat = iostat_nml ) ! (out) close( unit_nml ) call NmlutilMsg( iostat_nml, module_name ) ! (in) end if ! デフォルト値の設定 ! Default values settings ! select case ( LChar( trim(Pattern) ) ) case ( 'small disturbance of temperature' ) TempAvr = 250.0_DP PsAvr = 1.0e+5_DP !!$ QVapAvr = 1.0e-10_DP QVapAvr = 0.0e0_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( 'agcm 5.3 default' ) TempAvr = 250.0_DP PsAvr = 1.0e+5_DP QVapAvr = 1.0e-10_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( 'sugiyama et al. (2008)' ) TempAvr = 490.0_DP PsAvr = 3.0e+6_DP QVapAvr = 6.11641e-3_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( 'polvani et al. (2004)' ) TempAvr = 0.0_DP PsAvr = 1.0e+5_DP QVapAvr = 0.0_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( 'venus' ) TempAvr = 0.0_DP PsAvr = 90.0e+5_DP QVapAvr = 0.0_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( '1-d profile' ) TempAvr = 1.0e+100_DP PsAvr = 1.0e+100_DP QVapAvr = 0.0_DP Ueq = 0.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case ( 'sltt debug' ) TempAvr = 300.0_DP PsAvr = 1.0e+5_DP QVapAvr = 0.0e0_DP Ueq = 30.0_DP UGeos = 0.0_DP VGeos = 0.0_DP case default call MessageNotify( 'E', module_name, 'Pattern=<%c> is invalid.', c1 = trim(Pattern) ) end select ! 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 = initial_data_nml, iostat = iostat_nml ) ! (out) close( unit_nml ) call NmlutilMsg( iostat_nml, module_name ) ! (in) end if ! Initialization of modules used in this module ! ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! call SaturateInit ! ファイルから 1 次元プロファイルを読んで設定する. ! read 1-D profile from a file and set it ! call Set1DProfileInit ! 印字 ; Print ! call MessageNotify( 'M', module_name, '----- Initialization Messages -----' ) call MessageNotify( 'M', module_name, ' Pattern = %c', c1 = trim(Pattern) ) call MessageNotify( 'M', module_name, ' TempAvr = %f', d = (/ TempAvr /) ) call MessageNotify( 'M', module_name, ' PsAvr = %f', d = (/ PsAvr /) ) call MessageNotify( 'M', module_name, ' QVapAvr = %f', d = (/ QVapAvr /) ) call MessageNotify( 'M', module_name, ' Ueq = %f', d = (/ Ueq /) ) call MessageNotify( 'M', module_name, ' UGeos = %f', d = (/ UGeos /) ) call MessageNotify( 'M', module_name, ' VGeos = %f', d = (/ VGeos /) ) call MessageNotify( 'M', module_name, '' ) call MessageNotify( 'M', module_name, '-- version = %c', c1 = trim(version) ) initial_data_inited = .true. end subroutine InitDataInit
Subroutine : | |||
xyz_U(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_V(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xy_Ps(0:imax-1, 1:jmax) : | real(DP), intent(out)
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初期値データのサンプルを提供します.
Prepare sample data of initial data
subroutine SetInitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) ! ! 初期値データのサンプルを提供します. ! ! Prepare sample data of initial data ! ! モジュール引用 ; USE statements ! ! 座標データ設定 ! Axes data settings ! use axesset, only: x_Lon, y_Lat, z_Sigma ! $ \sigma $ レベル (整数). ! Full $ \sigma $ level ! 文字列操作 ! Character handling ! use dc_string, only: LChar ! ファイルから 1 次元プロファイルを読んで設定する. ! read 1-D profile from a file and set it ! use set_1d_profile, only : Set1DProfilePs, Set1DProfileAtm ! セミラグ移流テスト用初期値作成 ! Preparation of initial condition for SLTT advection ! use sltt_debug, only : SLTTDebugSetUV, SLTTDebugSetQ ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(out):: xyz_U (0:imax-1, 1:jmax, 1:kmax) ! $ u $ . 東西風速. Eastward wind real(DP), intent(out):: xyz_V (0:imax-1, 1:jmax, 1:kmax) ! $ v $ . 南北風速. Northward wind real(DP), intent(out):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(out):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(out):: xy_Ps (0:imax-1, 1:jmax) ! $ p_s $ . 地表面気圧. Surface pressure ! 作業変数 ! Work variables ! real(DP) :: xyz_Press(0:imax-1, 1:jmax, 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 if ( .not. initial_data_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if select case ( LChar( trim(Pattern) ) ) case ( 'small disturbance of temperature' ) ! ! 微小な温度擾乱のある静止場 ! Stationary field with small disturbance of temperature ! xyz_U = 0.0_DP xyz_V = 0.0_DP xyz_Temp = TempAvr xy_Ps = PsAvr xyz_QVap = QVapAvr ! 温度に擾乱を与える ! Add perturbation to temperature ! do k = 1, kmax do j = 1, jmax do i = 0, imax - 1 xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + 0.1_DP * sin ( x_Lon(i) * y_Lat(j) ) - 0.1_DP * ( 1.0_DP - z_Sigma(k) ) end do end do end do ! 東西風速を与える ! Add eastward wind ! do j = 1, jmax xyz_U(:,j,:) = Ueq * cos(y_Lat(j)) end do case ( 'agcm 5.3 default' ) ! ! AGCM5.3 のデフォルト初期値 ! AGCM5.3 default initial values ! xyz_U = 0.0_DP xyz_V = 0.0_DP xyz_Temp = TempAvr xy_Ps = PsAvr xyz_QVap = QVapAvr ! 温度に擾乱を与える ! Add perturbation to temperature ! do k = 1, kmax do j = 1, jmax do i = 0, imax - 1 xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + 0.1_DP * sin ( real( ( i + 1 ) * ( jmax - j + 1 ) * ( kmax - k ), DP ) / real( imax * jmax * kmax, DP ) * 10.0_DP ) end do end do end do ! 東西風速を与える ! Add eastward wind ! do j = 1, jmax xyz_U(:,j,:) = Ueq * cos(y_Lat(j)) end do case ( 'sugiyama et al. (2008)' ) ! ! Sugiyama et al. (2008) の初期値 ! Initial values of Sugiyama et al. (2008) ! call Sugiyamaetal2008InitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) case ( 'polvani et al. (2004)' ) ! ! Polvani et al. (2004) の初期値 ! Initial values of Polvani et al. (2004) ! call Polvanietal2004InitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) case ( 'venus' ) call VenusInitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) case ( '1-d profile' ) xyz_U = UGeos xyz_V = VGeos call Set1DProfilePs( xy_Ps ) do k = 1, kmax xyz_Press(:,:,k) = xy_Ps * z_Sigma(k) end do call Set1DProfileAtm( xyz_Press, xyz_Temp, xyz_QVap ) case ( 'sltt debug' ) call SLTTDebugSetUV( Ueq, xyz_U, xyz_V ) xyz_Temp = TempAvr xy_Ps = PsAvr call SLTTDebugSetQ( xyz_QVap ) end select end subroutine SetInitData
Variable : | |||
initial_data_inited = .false. : | logical, save, public
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Subroutine : | |||
xyz_U(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_V(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xy_Ps(0:imax-1, 1:jmax) : | real(DP), intent(out)
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Polvani et al. (2004) の初期値
initial data by Polvani et al. (2004)
subroutine Polvanietal2004InitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) ! ! Polvani et al. (2004) の初期値 ! ! initial data by Polvani et al. (2004) ! ! モジュール引用 ; USE statements ! ! 物理・数学定数設定 ! Physical and mathematical constants settings ! use constants0, only: PI ! $ \pi $. ! 円周率. Circular constant ! 物理定数設定 ! Physical constants settings ! use constants, only: RPlanet, Omega, GasRDry ! $ R $ [J kg-1 K-1]. ! 乾燥大気の気体定数. ! Gas constant of air ! 座標データ設定 ! Axes data settings ! use axesset, only: x_Lon, y_Lat, z_Sigma, y_Lat_Weight ! $ \Delta \varphi $ [rad.] . ! 緯度座標重み. ! Weight of latitude ! 文字列操作 ! Character handling ! use dc_string, only: LChar ! ガウス重み, 分点の計算 ! Calculate Gauss node and Gaussian weight ! use gauss_quad, only : GauLeg ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(out):: xyz_U (0:imax-1, 1:jmax, 1:kmax) ! $ u $ . 東西風速. Eastward wind real(DP), intent(out):: xyz_V (0:imax-1, 1:jmax, 1:kmax) ! $ v $ . 南北風速. Northward wind real(DP), intent(out):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(out):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(out):: xy_Ps (0:imax-1, 1:jmax) ! $ p_s $ . 地表面気圧. Surface pressure ! 作業変数 ! Work variables ! ! パラメタ設定 ! ! ! real(DP), parameter:: dz0 = 5.0e3_DP ! dz_0 [m]. real(DP), parameter:: z0 = 22.0e3_DP ! z_0 [m] real(DP), parameter:: z1 = 30.0e3_DP ! z_1 [m] real(DP), parameter:: U0 = 50.0_DP ! u_0 [m s^-1] real(DP), parameter:: ScaleHeight = 7.34e3_DP ! ScaleHeight [m] real(DP):: z_Height (1:kmax) ! height [m] real(DP):: z_F (1:kmax) ! function used to calculate zonal wind and temperature real(DP):: z_DFDZ (1:kmax) ! z derivative of z_F real(DP):: z_TempUSStd(1:kmax) ! Temperature by US Standard atmosphere [K] integer, parameter :: NGauQuad = 100 real(DP) :: a_GauQuadLat( 1:NGauQuad ) real(DP) :: a_GauWeight ( 1:NGauQuad ) real(DP) :: az_U ( 1:NGauQuad, 1:kmax ) real(DP) :: az_DUDZ ( 1:NGauQuad, 1:kmax ) real(DP) :: az_DTempDPhi( 1:NGauQuad, 1:kmax ) real(DP) :: z_Temp0 (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 integer:: l ! 緯度方向に回る DO ループ用作業変数 ! Work variables for DO loop in latitude ! 実行文 ; Executable statement if ( .not. initial_data_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if ! 高度の計算 ! Calculate height ! do k = 1, kmax z_Height = - ScaleHeight * log( z_Sigma ) end do do k = 1, kmax if ( z_Height(k) * 1.0e-3_DP < 11.0_DP ) then z_TempUSStd(k) = 288.15_DP - 6.5_DP * z_Height(k) * 1.0e-3_DP else if ( z_Height(k) * 1.0e-3_DP < 20.0_DP ) then z_TempUSStd(k) = 216.65_DP else if ( z_Height(k) * 1.0e-3_DP < 32.0_DP ) then z_TempUSStd(k) = 216.65_DP + 1.0_DP * ( z_Height(k) * 1.0e-3_DP - 20.0_DP ) else if ( z_Height(k) * 1.0e-3_DP < 47.0_DP ) then z_TempUSStd(k) = 228.65_DP + 2.8_DP * ( z_Height(k) * 1.0e-3_DP - 32.0_DP ) else if ( z_Height(k) * 1.0e-3_DP < 51.0_DP ) then z_TempUSStd(k) = 270.65_DP else if ( z_Height(k) * 1.0e-3_DP < 71.0_DP ) then z_TempUSStd(k) = 270.65_DP - 2.8_DP * ( z_Height(k) * 1.0e-3_DP - 51.0_DP ) else if ( z_Height(k) * 1.0e-3_DP < 80.0_DP ) then z_TempUSStd(k) = 214.65_DP - 2.0_DP * ( z_Height(k) * 1.0e-3_DP - 71.0_DP ) else z_TempUSStd(k) = 196.65_DP end if end do z_F = 0.5_DP * ( 1.0_DP - tanh( ( z_Height - z0 ) / dz0 )**3 ) * sin( PI * z_Height / z1 ) z_DFDZ = - 1.5_DP / dz0 * tanh( ( z_Height - z0 ) / dz0 )**2 / cosh( ( z_Height - z0 ) / dz0 )**2 * sin( PI * z_Height / z1 ) + 0.5_DP * ( 1.0_DP - tanh( ( z_Height - z0 ) / dz0 )**3 ) * PI / z1 * cos( PI * z_Height / z1 ) xyz_U = 0.0_DP xyz_V = 0.0_DP xyz_Temp = 0.0_DP xy_Ps = PsAvr xyz_QVap = QVapAvr ! 東西風速の計算 ! Calculate eastward wind ! do k = 1, kmax do j = 1, jmax if ( y_Lat(j) > 0.0_DP ) then xyz_U(:,j,k) = U0 * sin( PI * sin( y_Lat(j) )**2 )**3 * z_F(k) else xyz_U(:,j,k) =0.0_DP end if end do end do ! 温度の計算 ! Calculate temperature ! do j = 1, jmax call GauLeg( -PI/2.0_DP, y_Lat(j), NGauQuad, a_GauQuadLat, a_GauWeight ) do k = 1, kmax do l = 1, NGauQuad if ( a_GauQuadLat(l) > 0.0_DP ) then az_U (l,k) = U0 * sin( PI * sin( a_GauQuadLat(l) )**2 )**3 * z_F(k) az_DUDZ(l,k) = U0 * sin( PI * sin( a_GauQuadLat(l) )**2 )**3 * z_DFDZ(k) else az_U (l,k) =0.0_DP az_DUDZ(l,k) =0.0_DP end if end do end do do k = 1, kmax do l = 1, NGauQuad if ( a_GauQuadLat(l) > 0.0_DP ) then az_DTempDPhi(l,k) = - ScaleHeight / GasRDry * ( 2.0_DP * RPlanet * Omega * sin( a_GauQuadLat(l) ) + 2.0_DP * az_U(l,k) * tan( a_GauQuadLat(l) ) ) * az_DUDZ(l,k) else az_DTempDPhi(l,k) = 0.0_DP end if end do end do do k = 1, kmax xyz_Temp(:,j,k) = 0.0_DP end do do k = 1, kmax do l = 1, NGauQuad xyz_Temp(:,j,k) = xyz_Temp(:,j,k) + az_DTempDPhi(l,k) * a_GauWeight(l) end do end do end do ! Calculate T0 ! do k = 1, kmax z_Temp0(k) = 0.0_DP do j = 1, jmax z_Temp0(k) = z_Temp0(k) + xyz_Temp(0,j,k) * y_Lat_weight(j) end do end do z_Temp0 = z_Temp0 / 2.0_DP ! ! add T0 ! do k = 1, kmax xyz_Temp(:,:,k) = xyz_Temp(:,:,k) - z_Temp0(k) + z_TempUSStd(k) end do ! Code for debug !!$ do k = 1, kmax !!$ z_Temp0(k) = 0.0_DP !!$ do j = 1, jmax !!$ z_Temp0(k) = z_Temp0(k) + xyz_Temp(0,j,k) * y_Lat_weight(j) !!$ end do !!$ end do !!$ z_Temp0 = z_Temp0 / 2.0_DP !!$ do k = 1, kmax !!$ write( 6, * ) k, z_Temp0(k), z_TempUSStd(k), z_Temp0(k)-z_TempUSStd(k) !!$ end do !!$ stop ! 温度に擾乱を与える ! Add perturbation to temperature ! do k = 1, kmax do j = 1, jmax do i = 0, imax-1 if ( ( x_Lon(i) >= 0 ) .and. ( x_Lon(i) < PI ) ) then xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + 1.0_DP / cosh( 3.0_DP * ( x_Lon(i) ) )**2 * 1.0_DP / cosh( 6.0_DP * ( y_Lat(j) - PI / 4.0_DP ) )**2 else if ( ( x_Lon(i) >= PI ) .and. ( x_Lon(i) < 2.0_DP * PI ) ) then xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + 1.0_DP / cosh( 3.0_DP * ( x_Lon(i) - 2.0_DP * PI ) )**2 * 1.0_DP / cosh( 6.0_DP * ( y_Lat(j) - PI / 4.0_DP ) )**2 end if end do end do end do end subroutine Polvanietal2004InitData
Subroutine : | |||
xyz_U(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_V(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xy_Ps(0:imax-1, 1:jmax) : | real(DP), intent(out)
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Sugiyama et al. (2008) の初期値 Initial values of Sugiyama et al. (2008)
subroutine Sugiyamaetal2008InitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) ! ! Sugiyama et al. (2008) の初期値 ! Initial values of Sugiyama et al. (2008) ! ! モジュール引用 ; USE statements ! ! 座標データ設定 ! Axes data settings ! use axesset, only: x_Lon, y_Lat, z_Sigma ! $ \sigma $ レベル (整数). ! Full $ \sigma $ level ! 物理定数設定 ! Physical constants settings ! use constants, only: CpDry, GasRDry ! $ R $ [J kg-1 K-1]. ! 乾燥大気の気体定数. ! Gas constant of air ! 飽和比湿の算出 ! Evaluate saturation specific humidity ! use saturate, only: xyz_CalcQVapSat ! 文字列操作 ! Character handling ! use dc_string, only: LChar ! 宣言文 ; Declaration statements ! implicit none real(DP), intent(out):: xyz_U (0:imax-1, 1:jmax, 1:kmax) ! $ u $ . 東西風速. Eastward wind real(DP), intent(out):: xyz_V (0:imax-1, 1:jmax, 1:kmax) ! $ v $ . 南北風速. Northward wind real(DP), intent(out):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(out):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(out):: xy_Ps (0:imax-1, 1:jmax) ! $ p_s $ . 地表面気圧. Surface pressure ! Sugiyama et al. (2008) 用作業変数 ! Work variables for Sugiyama et al. (2008) ! real(DP):: xyz_PotTemp (0:imax-1, 1:jmax, 1:kmax) ! 温位. Potential temperature real(DP):: xyz_Press (0:imax-1, 1:jmax, 1:kmax) ! 気圧. Air pressure real(DP):: xy_TempMin (0:imax-1, 1:jmax) ! 温度の最小値. Minimum value of temperature real(DP):: xyz_QVapSat (0:imax-1, 1:jmax, 1:kmax) ! 飽和比湿. Saturation specific humidity ! 作業変数 ! Work variables ! 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 if ( .not. initial_data_inited ) then call MessageNotify( 'E', module_name, 'This module has not been initialized.' ) end if xyz_U = 0.0_DP xyz_V = 0.0_DP xyz_Temp = TempAvr xy_Ps = PsAvr xyz_QVap = QVapAvr ! 温度の計算 ! Calculate temperature ! xyz_PotTemp = TempAvr xy_TempMin = TempAvr do k = 1, kmax xyz_Temp(:,:,k) = xyz_PotTemp(:,:,k) * ( z_Sigma(k) )**( GasRDry / CpDry ) if ( PsAvr * z_Sigma(k) < 1.0e+4_DP ) then xyz_Temp(:,:,k) = xy_TempMin else xy_TempMin = xyz_Temp(:,:,k) end if end do ! 温度に擾乱を与える ! Add perturbation to temperature ! do k = 1, kmax do j = 1, jmax do i = 0, imax - 1 xyz_Temp(i,j,k) = xyz_Temp(i,j,k) + 0.1_DP * sin ( real( ( i + 1 ) * ( jmax - j + 1 ) * ( kmax - k ), DP ) / real( imax * jmax * kmax, DP ) * 10.0_DP ) end do end do end do ! 飽和比湿計算 ! Calculate saturation specific humidity ! do k = 1, kmax xyz_Press(:,:,k) = xy_Ps * z_Sigma(k) end do xyz_QVapSat = xyz_CalcQVapSat( xyz_Temp, xyz_Press ) ! 比湿の計算 ! Calculate specific humidity ! where ( xyz_QVap > xyz_QVapSat * 0.75_DP ) xyz_QVap = xyz_QVapSat * 0.75_DP end where end subroutine Sugiyamaetal2008InitData
Subroutine : | |||
xyz_U(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_V(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_Temp(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xyz_QVap(0:imax-1, 1:jmax, 1:kmax) : | real(DP), intent(out)
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xy_Ps(0:imax-1, 1:jmax) : | real(DP), intent(out)
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subroutine VenusInitData( xyz_U, xyz_V, xyz_Temp, xyz_QVap, xy_Ps ) ! 種別型パラメタ ! Kind type parameter ! use dc_types, only: DP, STRING ! 文字列. Strings. ! 格子点設定 ! Grid points settings ! use gridset, only: imax, jmax, kmax ! 鉛直層数. ! Number of vertical level ! 物理定数設定 ! Physical constants settings ! use constants, only: Grav, CpDry, GasRDry ! $ R $ [J kg-1 K-1]. ! 乾燥大気の気体定数. ! Gas constant of air use axesset, only: y_Lat, z_Sigma, r_Sigma, r_DelSigma ! $ \Delta \sigma $ (半整数). ! $ \Delta \sigma $ (half) real(DP), intent(out):: xyz_U (0:imax-1, 1:jmax, 1:kmax) ! $ u $ . 東西風速. Eastward wind real(DP), intent(out):: xyz_V (0:imax-1, 1:jmax, 1:kmax) ! $ v $ . 南北風速. Northward wind real(DP), intent(out):: xyz_Temp (0:imax-1, 1:jmax, 1:kmax) ! $ T $ . 温度. Temperature real(DP), intent(out):: xyz_QVap (0:imax-1, 1:jmax, 1:kmax) ! $ q $ . 比湿. Specific humidity real(DP), intent(out):: xy_Ps (0:imax-1, 1:jmax) ! $ p_s $ . 地表面気圧. Surface pressure ! ! local variables ! real(DP) :: SurfTemp real(DP) :: xyr_Temp (0:imax-1,1:jmax,0:kmax) real(DP) :: xy_SurfHeight(0:imax-1,1:jmax) real(DP) :: xyz_Height (0:imax-1,1:jmax,1:kmax) real(DP) :: z( 5 ), a( 6 ), ah( 5 ), d( 5 ) integer :: j integer :: k integer :: l integer :: m ! Coefficients for thermal structure by Hou and Farrel (1987) ! z ( 1 ) = 0.0e3_DP z ( 2 ) = 10.0e3_DP z ( 3 ) = 25.0e3_DP z ( 4 ) = 55.0e3_DP z ( 5 ) = 100.0e3_DP ah( 1 ) = -1.0e-3_DP ah( 2 ) = -1.0e-3_DP ah( 3 ) = -3.1e-3_DP ah( 4 ) = -6.75e-3_DP ah( 5 ) = 10.0e-3_DP d ( 1 ) = 10.0e3_DP d ( 2 ) = 10.0e3_DP d ( 3 ) = 8.0e3_DP d ( 4 ) = 5.0e3_DP d ( 5 ) = 70.0e3_DP a ( 1 ) = 0.0_DP do l = 2, 6 a( l ) = 2.0_DP * ah( l-1 ) * d( l-1 ) + a( l-1 ) end do SurfTemp = 750.0_DP xy_SurfHeight = 0.0_DP ! Initialization xyz_Temp = 200.0_DP ! Iteration do m = 1, 10 xyr_Temp(:,:,0) = xyz_Temp(:,:,1) do k = 1, kmax-1 xyr_Temp(:,:,k) = ( xyz_Temp(:,:,k) + xyz_Temp(:,:,k+1) ) / 2.0_DP end do xyr_Temp(:,:,kmax) = xyz_Temp(:,:,kmax) xyz_Height(:,:,1) = xy_SurfHeight + GasRDry / Grav * xyz_Temp(:,:,1) * ( 1. - z_Sigma(1) ) do k = 2, kmax xyz_Height(:,:,k) = xyz_Height(:,:,k-1) + GasRDry / Grav * xyr_Temp(:,:,k-1) * r_DelSigma(k-1) / r_Sigma(k-1) end do xyz_Temp = SurfTemp - Grav / CpDry * xyz_Height do l = 1, 5 xyz_Temp = xyz_Temp - ( a(l+1) - a(l) ) * 0.5_DP * ( 1.0_DP + tanh( ( 0.0_DP - z(l) ) / d(l) ) ) xyz_Temp = xyz_Temp + ( a(l+1) - a(l) ) * 0.5_DP * ( 1.0_DP + tanh( ( xyz_Height - z(l) ) / d(l) ) ) end do end do ! add perturbation xyz_Temp(0,1,1) = xyz_Temp(0,1,1) + 1.0_DP do k = 1, kmax do j = 1, jmax xyz_U(:,j,k) = Ueq * cos(y_Lat(j)) end do end do xyz_V = 0.0_DP xyz_QVap = QVapAvr xy_Ps = PsAvr end subroutine VenusInitData
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module_name = ‘initial_data‘ : | character(*), parameter
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Constant : | |||
version = ’$Name: dcpam5-20150211 $’ // ’$Id: initial_data.f90,v 1.15 2015/01/29 12:05:42 yot Exp $’ : | character(*), parameter
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