! -------------------------------------------------------------------- ! ! WAVEWATCH III ww3_shel.nml - single-grid model ! ! -------------------------------------------------------------------- ! ! -------------------------------------------------------------------- ! ! Define top-level model parameters via DOMAIN_NML namelist ! ! * IOSTYP defines the output server mode for parallel implementation. ! 0 : No data server processes, direct access output from ! each process (requires true parallel file system). ! 1 : No data server process. All output for each type ! performed by process that performs computations too. ! 2 : Last process is reserved for all output, and does no ! computing. ! 3 : Multiple dedicated output processes. ! ! * namelist must be terminated with / ! * definitions & defaults: ! DOMAIN%IOSTYP = 1 ! Output server type ! DOMAIN%START = '19680606 000000' ! Start date for the entire model ! DOMAIN%STOP = '19680607 000000' ! Stop date for the entire model ! -------------------------------------------------------------------- ! &DOMAIN_NML DOMAIN%START = '20090601 000000' DOMAIN%STOP = '20090606 230000' / ! -------------------------------------------------------------------- ! ! Define each forcing via the INPUT_NML namelist ! ! * The FORCING flag can be : 'F' for "no forcing" ! 'T' for "external forcing file" ! 'H' for "homogeneous forcing input" ! 'C' for "coupled forcing field" ! ! * homogeneous forcing is not available for ICE_CONC ! ! * The ASSIM flag can : 'F' for "no forcing" ! 'T' for "external forcing file" ! ! * namelist must be terminated with / ! * definitions & defaults: ! INPUT%FORCING%WATER_LEVELS = 'F' ! INPUT%FORCING%CURRENTS = 'F' ! INPUT%FORCING%WINDS = 'F' ! INPUT%FORCING%ICE_CONC = 'F' ! INPUT%FORCING%ICE_PARAM1 = 'F' ! INPUT%FORCING%ICE_PARAM2 = 'F' ! INPUT%FORCING%ICE_PARAM3 = 'F' ! INPUT%FORCING%ICE_PARAM4 = 'F' ! INPUT%FORCING%ICE_PARAM5 = 'F' ! INPUT%FORCING%MUD_DENSITY = 'F' ! INPUT%FORCING%MUD_THICKNESS = 'F' ! INPUT%FORCING%MUD_VISCOSITY = 'F' ! INPUT%ASSIM%MEAN = 'F' ! INPUT%ASSIM%SPEC1D = 'F' ! INPUT%ASSIM%SPEC2D = 'F' ! -------------------------------------------------------------------- ! &INPUT_NML INPUT%FORCING%WINDS = 'T' / ! -------------------------------------------------------------------- ! ! Define the output types point parameters via OUTPUT_TYPE_NML namelist ! ! * the point file is a space separated values per line : lon lat 'name' ! ! * the full list of field names is : ! All parameters listed below are available in output file of the types ! ASCII and NetCDF. If selected output file types are grads or grib, ! some parameters may not be available. The first two columns in the ! table below identify such cases by flags, cols 1 (GRB) and 2 (GXO) ! refer to grib (ww3_grib) and grads (gx_outf), respectively. ! ! Columns 3 and 4 provide group and parameter numbers per group. ! Columns 5, 6 and 7 provide: ! 5 - code name (internal) ! 6 - output tags (names used is ASCII file extensions, NetCDF ! variable names and namelist-based selection ! 7 - Long parameter name/definition ! ! G G ! R X Grp Param Code Output Parameter/Group ! B O Numb Numbr Name Tag Definition ! -------------------------------------------------- ! 1 Forcing Fields ! ------------------------------------------------- ! T T 1 1 DW DPT Water depth. ! T T 1 2 C[X,Y] CUR Current velocity. ! T T 1 3 UA WND Wind speed. ! T T 1 4 AS AST Air-sea temperature difference. ! T T 1 5 WLV WLV Water levels. ! T T 1 6 ICE ICE Ice concentration. ! T T 1 7 IBG IBG Iceberg-induced damping. ! T T 1 8 D50 D50 Median sediment grain size. ! T T 1 9 IC1 IC1 Ice thickness. ! T T 1 10 IC5 IC5 Ice flow diameter. ! ------------------------------------------------- ! 2 Standard mean wave Parameters ! ------------------------------------------------- ! T T 2 1 HS HS Wave height. ! T T 2 2 WLM LM Mean wave length. ! T T 2 3 T02 T02 Mean wave period (Tm0,2). ! T T 2 4 TM10 TM10 Mean wave period (Tm-1,0). ! T T 2 5 T01 T01 Mean wave period (Tm0,1). ! T T 2 6 FP0 FP Peak frequency. ! T T 2 7 THM DIR Mean wave direction. ! T T 2 8 THS SPR Mean directional spread. ! T T 2 9 THP0 DP Peak direction. ! T T 2 10 HIG HIG Infragravity height ! T T 2 11 STMAXE MXE Max surface elev (STE) ! T T 2 12 STMAXD MXES St Dev of max surface elev (STE) ! T T 2 13 HMAXE MXH Max wave height (STE) ! T T 2 14 HCMAXE MXHC Max wave height from crest (STE) ! T T 2 15 HMAXD SDMH St Dev of MXC (STE) ! T T 2 16 HCMAXD SDMHC St Dev of MXHC (STE) ! F T 2 17 WBT WBT Domiant wave breaking probability bT ! ------------------------------------------------- ! 3 Spectral Parameters (first 5) ! ------------------------------------------------- ! F F 3 1 EF EF Wave frequency spectrum ! F F 3 2 TH1M TH1M Mean wave direction from a1,b2 ! F F 3 3 STH1M STH1M Directional spreading from a1,b2 ! F F 3 4 TH2M TH2M Mean wave direction from a2,b2 ! F F 3 5 STH2M STH2M Directional spreading from a2,b2 ! F F 3 6 WN WN Wavenumber array ! ------------------------------------------------- ! 4 Spectral Partition Parameters ! ------------------------------------------------- ! T T 4 1 PHS PHS Partitioned wave heights. ! T T 4 2 PTP PTP Partitioned peak period. ! T T 4 3 PLP PLP Partitioned peak wave length. ! T T 4 4 PDIR PDIR Partitioned mean direction. ! T T 4 5 PSI PSPR Partitioned mean directional spread. ! T T 4 6 PWS PWS Partitioned wind sea fraction. ! T T 4 7 PTHP0 PDP Peak wave direction of partition. ! T T 4 8 PQP PQP Goda peakdedness parameter of partition. ! T T 4 9 PPE PPE JONSWAP peak enhancement factor of partition. ! T T 4 10 PGW PGW Gaussian frequency width of partition. ! T T 4 11 PSW PSW Spectral width of partition. ! T T 4 12 PTM1 PTM10 Mean wave period (Tm-1,0) of partition. ! T T 4 13 PT1 PT01 Mean wave period (Tm0,1) of partition. ! T T 4 14 PT2 PT02 Mean wave period (Tm0,2) of partition. ! T T 4 15 PEP PEP Peak spectral density of partition. ! T T 4 16 PWST TWS Total wind sea fraction. ! T T 4 17 PNR PNR Number of partitions. ! ------------------------------------------------- ! 5 Atmosphere-waves layer ! ------------------------------------------------- ! T T 5 1 UST UST Friction velocity. ! F T 5 2 CHARN CHA Charnock parameter ! F T 5 3 CGE CGE Energy flux ! F T 5 4 PHIAW FAW Air-sea energy flux ! F T 5 5 TAUWI[X,Y] TAW Net wave-supported stress ! F T 5 6 TAUWN[X,Y] TWA Negative part of the wave-supported stress ! F F 5 7 WHITECAP WCC Whitecap coverage ! F F 5 8 WHITECAP WCF Whitecap thickness ! F F 5 9 WHITECAP WCH Mean breaking height ! F F 5 10 WHITECAP WCM Whitecap moment ! F F 5 11 FWS FWS Wind sea mean period ! ------------------------------------------------- ! 6 Wave-ocean layer ! ------------------------------------------------- ! F F 6 1 S[XX,YY,XY] SXY Radiation stresses. ! F F 6 2 TAUO[X,Y] TWO Wave to ocean momentum flux ! F F 6 3 BHD BHD Bernoulli head (J term) ! F F 6 4 PHIOC FOC Wave to ocean energy flux ! F F 6 5 TUS[X,Y] TUS Stokes transport ! F F 6 6 USS[X,Y] USS Surface Stokes drift ! F F 6 7 [PR,TP]MS P2S Second-order sum pressure ! F F 6 8 US3D USF Spectrum of surface Stokes drift ! F F 6 9 P2SMS P2L Micro seism source term ! F F 6 10 TAUICE TWI Wave to sea ice stress ! F F 6 11 PHICE FIC Wave to sea ice energy flux ! ------------------------------------------------- ! 7 Wave-bottom layer ! ------------------------------------------------- ! F F 7 1 ABA ABR Near bottom rms amplitides. ! F F 7 2 UBA UBR Near bottom rms velocities. ! F F 7 3 BEDFORMS BED Bedforms ! F F 7 4 PHIBBL FBB Energy flux due to bottom friction ! F F 7 5 TAUBBL TBB Momentum flux due to bottom friction ! ------------------------------------------------- ! 8 Spectrum parameters ! ------------------------------------------------- ! F F 8 1 MSS[X,Y] MSS Mean square slopes ! F F 8 2 MSC[X,Y] MSC Spectral level at high frequency tail ! F F 8 3 WL02[X,Y] WL02 East/X North/Y mean wavelength compon ! F F 8 4 ALPXT AXT Correl sea surface gradients (x,t) ! F F 8 5 ALPYT AYT Correl sea surface gradients (y,t) ! F F 8 6 ALPXY AXY Correl sea surface gradients (x,y) ! ------------------------------------------------- ! 9 Numerical diagnostics ! ------------------------------------------------- ! T T 9 1 DTDYN DTD Average time step in integration. ! T T 9 2 FCUT FC Cut-off frequency. ! T T 9 3 CFLXYMAX CFX Max. CFL number for spatial advection. ! T T 9 4 CFLTHMAX CFD Max. CFL number for theta-advection. ! F F 9 5 CFLKMAX CFK Max. CFL number for k-advection. ! ------------------------------------------------- ! 10 User defined ! ------------------------------------------------- ! F F 10 1 U1 User defined #1. (requires coding ...) ! F F 10 2 U2 User defined #1. (requires coding ...) ! ------------------------------------------------- ! ! Section 4 consist of a set of fields, index 0 = wind sea, index ! 1:NOSWLL are first NOSWLL swell fields. ! ! ! * output track file formatted (T) or unformated (F) ! ! * coupling fields exchanged list is : ! - Sent fields by ww3: ! - Ocean model : T0M1 OCHA OHS DIR BHD TWO UBR FOC TAW TUS USS LM DRY ! - Atmospheric model : ACHA AHS TP (or FP) FWS ! - Ice model : IC5 TWI ! - Received fields by ww3: ! - Ocean model : SSH CUR ! - Atmospheric model : WND ! - Ice model : ICE IC1 IC5 ! ! * namelist must be terminated with / ! * definitions & defaults: ! TYPE%FIELD%LIST = 'unset' ! TYPE%POINT%FILE = 'points.list' ! TYPE%TRACK%FORMAT = T ! TYPE%PARTITION%X0 = 0 ! TYPE%PARTITION%XN = 0 ! TYPE%PARTITION%NX = 0 ! TYPE%PARTITION%Y0 = 0 ! TYPE%PARTITION%YN = 0 ! TYPE%PARTITION%NY = 0 ! TYPE%PARTITION%FORMAT = T ! TYPE%COUPLING%SENT = 'unset' ! TYPE%COUPLING%RECEIVED = 'unset' ! ! -------------------------------------------------------------------- ! ! TYPE%FIELD%LIST = 'HS T01 T02 DIR PHS PTP TWS PNR PTM10 PT01 PT02 WND' &OUTPUT_TYPE_NML TYPE%FIELD%LIST = 'HS T01 DIR' TYPE%POINT%FILE = 'points.list' / ! -------------------------------------------------------------------- ! ! Define output dates via OUTPUT_DATE_NML namelist ! ! * start and stop times are with format 'yyyymmdd hhmmss' ! * if time stride is equal '0', then output is disabled ! * time stride is given in seconds ! ! * namelist must be terminated with / ! * definitions & defaults: ! DATE%FIELD%START = '19680606 000000' ! DATE%FIELD%STRIDE = '0' ! DATE%FIELD%STOP = '19680607 000000' ! DATE%POINT%START = '19680606 000000' ! DATE%POINT%STRIDE = '0' ! DATE%POINT%STOP = '19680607 000000' ! DATE%TRACK%START = '19680606 000000' ! DATE%TRACK%STRIDE = '0' ! DATE%TRACK%STOP = '19680607 000000' ! DATE%RESTART%START = '19680606 000000' ! DATE%RESTART%STRIDE = '0' ! DATE%RESTART%STOP = '19680607 000000' ! DATE%BOUNDARY%START = '19680606 000000' ! DATE%BOUNDARY%STRIDE = '0' ! DATE%BOUNDARY%STOP = '19680607 000000' ! DATE%PARTITION%START = '19680606 000000' ! DATE%PARTITION%STRIDE = '0' ! DATE%PARTITION%STOP = '19680607 000000' ! DATE%COUPLING%START = '19680606 000000' ! DATE%COUPLING%STRIDE = '0' ! DATE%COUPLING%STOP = '19680607 000000' ! ! DATE%RESTART = '19680606 000000' '0' '19680607 000000' ! -------------------------------------------------------------------- ! &OUTPUT_DATE_NML DATE%FIELD = '20090601 000000' '3600' '20090606 230000' DATE%POINT = '20090601 000000' '3600' '20090606 230000' DATE%RESTART = '20090601 000000' '86400' '20090606 230000' DATE%BOUNDARY = '20090601 000000' '3600' '20090606 230000' / ! -------------------------------------------------------------------- ! ! Define homogeneous input via HOMOG_COUNT_NML and HOMOG_INPUT_NML namelist ! ! * the number of each homogeneous input is defined by HOMOG_COUNT ! * the total number of homogeneous input is automatically calculated ! * the homogeneous input must start from index 1 to N ! * if VALUE1 is equal 0, then the homogeneous input is desactivated ! * NAME can be IC1, IC2, IC3, IC4, IC5, MDN, MTH, MVS, LEV, CUR, WND, ICE, MOV ! * each homogeneous input is defined over a maximum of 3 values detailled below : ! - IC1 is defined by thickness ! - IC2 is defined by viscosity ! - IC3 is defined by density ! - IC4 is defined by modulus ! - IC5 is defined by floe diameter ! - MDN is defined by density ! - MTH is defined by thickness ! - MVS is defined by viscosity ! - LEV is defined by height ! - CUR is defined by speed and direction ! - WND is defined by speed, direction and airseatemp ! - ICE is defined by concentration ! - MOV is defined by speed and direction ! ! * namelist must be terminated with / ! * definitions & defaults: ! HOMOG_COUNT%N_IC1 = 0 ! HOMOG_COUNT%N_IC2 = 0 ! HOMOG_COUNT%N_IC3 = 0 ! HOMOG_COUNT%N_IC4 = 0 ! HOMOG_COUNT%N_IC5 = 0 ! HOMOG_COUNT%N_MDN = 0 ! HOMOG_COUNT%N_MTH = 0 ! HOMOG_COUNT%N_MVS = 0 ! HOMOG_COUNT%N_LEV = 0 ! HOMOG_COUNT%N_CUR = 0 ! HOMOG_COUNT%N_WND = 0 ! HOMOG_COUNT%N_ICE = 0 ! HOMOG_COUNT%N_MOV = 0 ! ! HOMOG_INPUT(I)%NAME = 'unset' ! HOMOG_INPUT(I)%DATE = '19680606 000000' ! HOMOG_INPUT(I)%VALUE1 = 0 ! HOMOG_INPUT(I)%VALUE2 = 0 ! HOMOG_INPUT(I)%VALUE3 = 0 ! -------------------------------------------------------------------- ! &HOMOG_COUNT_NML / &HOMOG_INPUT_NML / ! -------------------------------------------------------------------- ! ! WAVEWATCH III - end of namelist ! ! -------------------------------------------------------------------- !