#= dcpam_main プログラム用 NAMELIST ファイル (T21L22 用) # #= NAMELIST file for "dcpam_main" # # Copyright (C) GFD Dennou Club, 2008-2009. All rights reserved. # # Note that Japanese and English are described in parallel. # &set_cloud_nml CloudLifeTime = 900.0d0 / &dcpam_main_nml FlagFullPhysics = .true., ! 物理過程 (APE) 計算オン/オフ. ! Physical processes (APE) calculation on/off. FlagHS94 = .false., ! Held and Suarez (1994) 強制オン/オフ. ! Held and Suarez (1994) forcing on/off. FlagRadDennouAGCM = .false., FlagRadDcpamEV1 = .true., FlagPhyImp1LayModel = .false., FlagPhyImpSoilModel = .true., ! 地下モデル オン/オフ. ! Use of subsurface model on/off. / &fileset_nml FileTitle = 'Simulation of an atmosphere of planet with the land and the ocean', ! 出力データファイルの表題. ! Title of output data files FileSource = 'dcpam5 $Name: dcpam5-20110407 $ (http://www.gfd-dennou.org/library/dcpam)', ! データファイル作成の手段. ! Source of data file FileInstitution = 'GFD Dennou Club (http://www.gfd-dennou.org)' ! データファイルを最終的に変更した組織/個人. ! Institution or person that changes data files for the last time / &gridset_nml nmax = 21, ! 最大全波数. ! Maximum truncated wavenumber imax = 64, ! 経度格子点数. ! Number of grid points in longitude jmax = 32, ! 緯度格子点数. ! Number of grid points in latitude kmax = 22, ! 鉛直層数. ! Number of vertical level kslmax = 9 ! 地下の鉛直層数. ! Number of subsurface vertical level / &composition_nml ncmax = 2, Names = 'QVap' 'H2OLiq', FlagAdv = .true., .true. / ×et_nml cal_type = 'noleap', InitialYear = 1, InitialMonth = 1, InitialDay = 1, InitialHour = 0, InitialMin = 0, InitialSec = 0.0d0, EndYear = 21, EndMonth = 1, EndDay = 1, EndHour = 0, EndMin = 0, EndSec = 0.0d0, DelTimeValue = 24.0, ! $ \Delta t $ . 単位は DelTimeUnit にて指定. ! Unit is specified by "DelTimeUnit". DelTimeUnit = 'min', ! $ \Delta t $ の単位. ! Unit of $ \Delta t $ PredictIntValue = 1.0, ! 終了予測日時表示間隔. ! Interval of predicted end time output PredictIntUnit = 'day', ! 終了予測日時表示間隔 (単位). ! Unit for interval of predicted end time output CpuTimeMoniter = .true. ! CPU 時間計測のオンオフ ! On/off of CPU time monitoring / &restart_file_io_nml InputFile = 'init_T21L22.nc', ! 入力する初期値/リスタートデータのファイル名 ! filename of input initial/restart data OutputFile = 'rst.nc', ! 出力するリスタートデータのファイル名 ! filename of output restart data IntValue = 365.0, ! リスタートデータの出力間隔. ! Interval of restart data output IntUnit = 'day' ! リスタートデータの出力間隔の単位. ! Unit for interval of restart data output / &dry_conv_adjust_nml FlagUse = .false. / &surface_properties_nml SurfTempSetting = 'file', ! 地表面温度の設定方法 ! Setting of surface temperature SurfTempFile = 'sst_amipII_bc_clim_T021.nc', ! 地表面温度のファイル名. ! File name of surface temperature SurfTempName = 'sst', ! 地表面温度の変数名. ! Variable name of surface temperature SeaIceSetting = 'file', ! 海氷面密度の設定方法 ! Setting of sea ice SeaIceFile = 'sic_amipII_bc_clim_T021.nc', ! 海氷面密度のファイル名. ! File name of sea ice SeaIceName = 'sic', ! 海氷面密度の変数名. ! Variable name of sea ice SurfCondSetting = 'file', ! 地表状態の設定方法 ! Setting of surface condition SurfCondFile = 'sp_for_Earth_T021.nc', ! 地表状態 (0: 固定, 1: 可変) のファイル名. ! File name of surface condition (0: fixed, 1: variable) SurfCondName = 'sfcindex', ! 地表状態 (0: 固定, 1: 可変) の変数名. ! Variable name of surface condition (0: fixed, 1: variable) SurfHeightSetting = 'file', ! 地表面高度の設定方法 ! Setting of surface height SurfHeightFile = 'sp_for_Earth_T021.nc', ! 地表面高度のファイル名. ! File name of surface height SurfHeightName = 'zs', ! 地表面高度の変数名. ! Variable name of surface height AlbedoSetting = 'Matthews', ! アルベドの設定方法 ! Setting of surface albedo RoughLengthSetting = 'LOContrast' ! 粗度長の設定方法 ! Setting of surface roughness length / &bucket_model_nml FlagBucketModel = .true. ! バケツモデル オン/オフ. ! Bucket model on/off. FlagBucketModelSnow = .true. ! バケツモデル 雪の扱い オン/オフ. ! Bucket model treatment of snow on/off. / &surface_data_nml HeatCapacity = 0.0d0, ! 地表熱容量. ! Surface heat capacity SurfCond = 1 ! 地表状態 (0: 固定, 1: 可変). ! Surface condition (0: fixed, 1: variable) / &rad_short_income_nml FlagAnnualMean = .false., FlagDiurnalMean = .false., EpsOrb = 23.44d0, PerLonFromVE = 282.768413d0, LonFromVEAtEpoch = 279.403308d0, Eccentricity = 0.016713d0, TimeAtEpoch = -1.0d0, EpochYear = 1990, EpochMonth = 1, EpochDay = 1, EpochHour = 0, EpochMin = 0, EpochSec = 0.0d0 / &set_O3_nml FlagO3 = .true., O3File = "O3_CMIP5_climatology_zonalmean_T021.nc" / &axesset_nml Depth = 0.0d0, -4.0d-2, -12.0d-2, -28.0d-2, -40.0d-2, -64.0d-2, -112.0d-2, -208.0d-2, -400.0d-2, -784.0d-2, Sigma = 1.000000000000000 , 0.9900498337491680 , 0.9704455335485082 , 0.9290099250785387 , 0.8589701834928262 , 0.7594520038794164 , 0.6361357916470737 , 0.5003923706134736 , 0.3897059700767299 , 0.3035033146633587 , 0.2363686191245908 , 0.1840840656677380 , 0.1433648144930023 , 0.1116526297920369 , 8.695515551401997E-02 , 6.772074320641454E-02 , 5.274096783933317E-02 , 4.107470705321645E-02 , 3.198901401747353E-02 , 2.491306916649053E-02 , 1.940231777557490E-02 , 1.176810060037360E-02 , 0.000000000000000E+00 , ! $ \sigma $ レベル (半整数). ! Half $ \sigma $ level / &dynamics_hspl_vas83_nml HDOrder = 8, ! 超粘性の次数. Order of hyper-viscosity HDEFoldTimeValue = 1.0, ! 最大波数に対する e-folding time. ! 負の値を与えると, 水平拡散係数をゼロにします. ! ! E-folding time for maximum wavenumber. ! If negative value is given, ! coefficients of horizontal diffusion become zero. HDEFoldTimeUnit = 'day' ! 最大波数に対する e-folding time の単位. ! Unit of e-folding time for maximum wavenumber / ! ! ヒストリデータ出力の全体設定 ! Global settings about history data output ! >ool_historyauto_nml IntValue = 0.25, ! ヒストリデータの出力間隔の数値. ! 負の値を与えると, 出力を抑止します. ! ! Numerical value for interval of history data output ! Negative values suppresses output. IntUnit = 'day', !!$ IntUnit = 'hrs', !!$ IntUnit = 'min', !!$ IntUnit = 'sec', ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output Precision = 'float', !!$ Precision = 'double', ! ヒストリデータの精度. ! Precision of history data FilePrefix = '', !!$ FilePrefix = 'data01/', ! ヒストリデータのファイル名の接頭詞. ! Prefixes of history data filenames / ! ! ヒストリデータ出力の個別設定 ! Individual settings about history data output ! >ool_historyauto_nml Name = 'U, V, Temp, Ps, QVap', / >ool_historyauto_nml Name = 'H2OLiq' / >ool_historyauto_nml Name = 'Vor, Div, SigDot, DPiDt' / >ool_historyauto_nml Name = 'SurfTemp' / >ool_historyauto_nml Name = 'SoilMoist' / >ool_historyauto_nml Name = 'SurfSnow' / >ool_historyauto_nml Name = 'SoilTemp' / >ool_historyauto_nml Name = 'Rain', TimeAverage = .true. / >ool_historyauto_nml Name = 'Evap, Sens, OLR, SLR, OSR, SSR' TimeAverage = .true. / >ool_historyauto_nml Name = 'EvapB, SensA, OLRA, SLRA, OSRA, SSRA' TimeAverage = .true. / >ool_historyauto_nml Name = 'SurfAlbedo' / >ool_historyauto_nml Name = 'SeaIceConc' / >ool_historyauto_nml Name = 'Mass, KinEngy, IntEngy, PotEngy, LatEngy, TotEngy, Enstro' SpaceAverage = .true., .true., .true., Precision = 'double', / !!$>ool_historyauto_nml !!$ Name = 'RainCumulus, RainLsc', !!$ TimeAverage = .true. !!$/ !!$>ool_historyauto_nml !!$ Name = 'DTempDtCumulus, DQVapDtCumulus, DTempDtLsc, DQVapDtLsc' !!$/ !!$>ool_historyauto_nml !!$ Name = 'DTempDtDryConv' >ool_historyauto_nml Name = 'O3' / >ool_historyauto_nml Name = 'Decl' / >ool_historyauto_nml Name = 'DistFromStarScld' / >ool_historyauto_nml Name = 'PlanetLonFromVE' /