! ! Sea-Ice Model Input Parameters ! !git $Id$ !svn $Id: ice.in 1176 2023-07-01 19:23:18Z arango $ !========================================================= Hernan G. Arango === ! Copyright (c) 2002-2023 The ROMS/TOMS Group ! ! Licensed under a MIT/X style license ! ! See License_ROMS.md ! !============================================================================== ! ! ! Input parameters can be entered in ANY order, provided that the parameter ! ! KEYWORD (usually, upper case) is typed correctly followed by "=" or "==" ! ! symbols. Any comment lines are allowed and must begin with an exclamation ! ! mark (!) in column one. Comments may appear to the right of a parameter ! ! specification to improve documentation. Comments are ignored during ! ! reading. Blank lines are also allowed and ignored. Continuation lines in ! ! a parameter specification are allowed if preceded by a backslash (\). In ! ! some instances, more than one value is required for a parameter. If fewer ! ! values are provided, the last value is assigned for the entire parameter ! ! array. The multiplication symbol (*), without blank spaces in between, ! ! is allowed for a parameter specification. For example, in two grids nested ! ! application: ! ! ! ! AKT_BAK == 2*1.0d-6 2*5.0d-6 ! m2/s ! ! ! ! indicates that the first two entries of array AKT_BAK, in fortran column- ! ! major order, will have the same value of "1.0d-6" for grid 1, whereas the ! ! next two entries will have the same value of "5.0d-6" for grid 2. ! ! ! ! In multiple levels of nesting or multiple connected domains step-ups, ! ! "Ngrids" entries are expected for some of these parameters. In such case, ! ! the order of the entries for a parameter is critical. It must follow the ! ! same order (1:Ngrids) as in the state variable declaration. The USER may ! ! follow the above guidelines for specifying his/her values. These parameters ! ! are marked by "==" plural symbol after the KEYWORD. ! ! ! !============================================================================== ! ! Number of elastic time steps per viscous step in Elastic-Viscous-Plastic ! (EVP) rheology equations. nEVP == 60 ! Density parameters [kg/m3]. AirRho == 1.267d0 ! air density IceRho == 900.d0 ! sea ice density SnowDryRho == 330.d0 ! dry snow density SnowWetRho == 450.d0 ! wet snow density ! Bulk drag coefficients [nondimensional]. Cd_ai == 3.0d-3 ! Air-Ice drag Cd_io == 7.5d-3 ! Ice-Ocean drag ! Ice strength exponential weighting coefficient on concentration ! (nondimensional) Astrength == 20.d0 ! Minimum and Maximum shear strength [N/m2]. zetaMin == 0.d0 zetaMax == 1.0d+14 ! Ellipticity squared of yield curve [nondimensional]. ellip_sq == 4.d0 ! Minimum and Maximum ice concentration: fractional area covered by ice ! [nondimensional]. min_ai == 0.0d0 max_ai == 1.0d0 ! Minimum average ice thickness [m]. min_hi == 0.0d0 ! Maximum melt pond water thickness [m]. max_hmelt == 0.10d0 ! Turning angle for ice-water drag [degrees]. stressAng == 0.d0 ! Emissivity of ice surface [nondimensional]. ice_emiss = 0.97d0 ! Specific heat of air [J/(kg K)]. spec_heat_air = 1004.d0 ! Heat transfer coefficient (nondimensional). trans_coeff = 1.75d-3 ! Latent heat of sublimation [J/kg]. sublimation = 2.834d+6 ! Logical switches (TRUE/FALSE) to activate writing of ice prognostic ! variables into HISTORY output file. Hout(idUice) == T ! Si(...,isUice) ice U-velocity Hout(idVice) == T ! Si(...,isVice) ice V-velocity Hout(idUiER) == F ! Si(...,isUice) ice U-eastward at RHO-points Hout(idViNR) == F ! Si(...,isVice) ice V-northward at RHO-points Hout(idAice) == T ! Si(...,isAice) ice concentration Hout(idIage) == T ! Si(...,isIage) age of ice Hout(idHice) == T ! Si(...,isHice) ice thickness Hout(idHmel) == T ! Si(...,isHmel) melt pond water thickness Hout(idHsno) == T ! Si(...,isHsno) snow cover thickness Hout(idTice) == T ! Si(...,isTice) ice interior temperature Hout(idISxx) == T ! Si(...,isISxx) internal ice stress xx-component Hout(idISxy) == T ! Si(...,isISxy) internal ice stress xy-component Hout(idISyy) == T ! Si(...,isISyy) internal ice stress yy-component Hout(idIsst) == T ! Fi(...,icIsst) ice surface temperature Hout(idIOmf) == T ! Fi(...,icIOmf) ice-ocean mass flux Hout(idIOfv) == T ! Fi(...,icIOfv) ice-ocean friction velocity Hout(idIOmt) == T ! Fi(...,icIOmt) ice-ocean momentum transfer coefficient Hout(idS0mk) == T ! Fi(...,icS0mk) under ice molecular sublayer salinity Hout(idT0mk) == T ! Fi(...,icT0mk) under ice molecular sublayer temperature Hout(idWdiv) == T ! Fi(...,icWdiv) ice divergence rate Hout(idW_fr) == T ! Fi(...,icW_fr) ice accretion rate by frazil ice growth Hout(idW_ai) == T ! Fi(...,icW_ai) melt/freeze rate at Air/Ice Hout(idW_ao) == T ! Fi(...,icW_ao) melt/freeze rate at Air/Ocean Hout(idW_io) == T ! Fi(...,icW_io) melt/freeze rate at Ice/Ocean Hout(idW_ro) == T ! Fi(...,icW_ro) melt/freeze rate runoff into ocean ! Logical switches (TRUE/FALSE) to activate writing of ice prognostic ! variables into QUICKSAVE output file. Qout(idUice) == T ! Si(...,isUice) ice U-velocity Qout(idVice) == T ! Si(...,isVice) ice V-velocity Qout(idUiER) == F ! Si(...,isUice) ice U-eastward at RHO-points Qout(idViNR) == F ! Si(...,isVice) ice V-northward at RHO-points Qout(idAice) == T ! Si(...,isAice) ice concentration Qout(idIage) == T ! Si(...,isIage) age of ice Qout(idHice) == T ! Si(...,isHice) ice thickness Qout(idHmel) == T ! Si(...,isHmel) melt pond water thickness Qout(idHsno) == T ! Si(...,isHsno) snow cover thickness Qout(idTice) == T ! Si(...,isTice) ice interior temperature Qout(idISxx) == T ! Si(...,isISxx) internal ice stress xx-component Qout(idISxy) == T ! Si(...,isISxy) internal ice stress xy-component Qout(idISyy) == T ! Si(...,isISyy) internal ice stress yy-component Qout(idIsst) == T ! Fi(...,icIsst) ice surface temperature Qout(idIOmf) == T ! Fi(...,icIOmf) ice-ocean mass flux Qout(idIOfv) == T ! Fi(...,icIOfv) ice-ocean friction velocity Qout(idIOmt) == T ! Fi(...,icIOmt) ice-ocean momentum transfer coefficient Qout(idS0mk) == T ! Fi(...,icS0mk) under ice molecular sublayer salinity Qout(idT0mk) == T ! Fi(...,icT0mk) under ice molecular sublayer temperature Qout(idWdiv) == T ! Fi(...,icWdiv) ice divergence rate Qout(idW_fr) == T ! Fi(...,icW_fr) ice accretion rate by frazil ice growth Qout(idW_ai) == T ! Fi(...,icW_ai) melt/freeze rate at Air/Ice Qout(idW_ao) == T ! Fi(...,icW_ao) melt/freeze rate at Air/Ocean Qout(idW_io) == T ! Fi(...,icW_io) melt/freeze rate at Ice/Ocean Qout(idW_ro) == T ! Fi(...,icW_ro) melt/freeze rate runoff into ocean ! Logical switches (TRUE/FALSE) to activate writing of ice prognostic ! variables into AVERAGES output file. Aout(idUice) == T ! Si_avg(...,isUice) ice U-velocity Aout(idVice) == T ! Si_avg(...,isVice) ice V-velocity Aout(idUiER) == F ! Si_avg(...,isUice) ice U-eastward at RHO-points Aout(idViNR) == F ! Si_avg(...,isVice) ice V-northward at RHO-points Aout(idAice) == T ! Si_avg(...,isAice) ice concentration Aout(idIage) == T ! Si_avg(...,isIage) age of ice Aout(idHice) == T ! Si_avg(...,isHice) ice thickness Aout(idHmel) == T ! Si_avg(...,isHmel) melt pond water thickness Aout(idHsno) == T ! Si_avg(...,isHsno) snow cover thickness Aout(idTice) == T ! Si_avg(...,isTice) ice interior temperature Aout(idISxx) == T ! Si_avg(...,isISxx) internal ice stress xx-component Aout(idISxy) == T ! Si_avg(...,isISxy) internal ice stress xy-component Aout(idISyy) == T ! Si_avg(...,isISyy) internal ice stress yy-component Aout(idIsst) == T ! Fi_avg(...,icIsst) ice surface temperature Aout(idIOmf) == T ! Fi_avg(...,icIOmf) ice-ocean mass flux Aout(idIOfv) == T ! Fi_avg(...,icIOfv) ice-ocean friction velocity Aout(idIOmt) == T ! Fi_avg(...,icIOmt) ice-ocean momentum transfer coefficient Aout(idS0mk) == T ! Fi_avg(...,icS0mk) under ice molecular sublayer salinity Aout(idT0mk) == T ! Fi_avg(...,icT0mk) under ice molecular sublayer temperature Aout(idWdiv) == T ! Fi_avg(...,icWdiv) ice divergence rate Aout(idW_fr) == T ! Fi_avg(...,icW_fr) ice accretion rate by frazil ice growth Aout(idW_ai) == T ! Fi_avg(...,icW_ai) melt/freeze rate at Air/Ice Aout(idW_ao) == T ! Fi_avg(...,icW_ao) melt/freeze rate at Air/Ocean Aout(idW_io) == T ! Fi_avg(...,icW_io) melt/freeze rate at Ice/Ocean Aout(idW_ro) == T ! Fi_avg(...,icW_ro) melt/freeze rate runoff into ocean ! ! GLOSSARY: ! ========= ! !------------------------------------------------------------------------------ ! Sea ice model parameters. !------------------------------------------------------------------------------ ! ! nEVP Number of elastic time steps per viscous step in ! Elastic-Viscous-Plastic (EVP) rheology equations. ! ! AirRho Air density (kg/m3) constant. ! ! IceRho Sea ice density (kg/m3) constant. ! ! SnowDryRho Dry (fresh) snow density (kg/m3) constant. ! ! SnowWetRho Wet (heavy) snow density (kg/m3) constant. ! ! Cd_ai Atmosphere-Ice boundary bulk drag coefficient (unitless). ! ! Cd_io Ice-Ocean boundary bulk drag coefficient (unitless). ! ! Astrength Exponential weighting coefficient for ice strengh (pressure) ! parameterization as function of ice concentration. ! ! zetaMin Minimum shear stregth threshold (N/m2) in the computation of ! bulk viscosity in the EVP formulation. ! ! zetaMax Maximum shear stregth threshold (N/m2) in the computation of ! bulk viscosity in the EVP formulation. ! ! ellip_sq Squared ellipticity (nondimensional) of the yield curve used ! in the ice stress tensor formulation. ! ! min_ai Minimum threshold for ice concentration (nondimensional) ! defined as the fractional grid area covered by ice. ! ! max_ai Maxmum threshold for ice concentration (nondimensional) ! defined as the fractional grid area covered by ice. ! ! min_hi Minimum average ice thickness (m) threshold. ! ! max_hmelt Maximum melt pond water thickness (m) threshold. ! ! stressAng Turning angle (degrees) for ice-water drag. ! ! ice_emiss Emissivity of ice surface (nondimensional). ! ! spec_heat_air Specific heat of air (J/kg/K). ! ! trans_coeff Heat transfer coefficient (nondimensional). ! ! sublimation Latent heat of sublimation (J/kg). ! !------------------------------------------------------------------------------ ! Logical switches (T/F) to activate writing of instantaneous ice fields into ! HISTORY file. !------------------------------------------------------------------------------ ! ! Hout(idUice) Write out ice U-velocity component. ! Hout(idVice) Write out ice V-velocity component. ! Hout(idUiER) Write out ice Eastward velocity component at RHO-points. ! Hout(idViNR) Write out ice Northward velocity component at RHO-points. ! Hout(idAice) Write out ice concentration (fractional area coverage). ! Hout(idIage) Write out age of ice. ! Hout(idHice) Write out average ice thickness (ice mass per area). ! Hout(idHmel) Write out surface melt water thickness on ice. ! Hout(idHsno) Write out average snow coverage thickness. ! Hout(idTice) Write out surface temperature at snow/atmosphere interface. ! Hout(idISxx) Write out internal ice stress tensor, xx-component. ! Hout(idISxy) Write out internal ice stress tensor, xy-component. ! Hout(idISyy) Write out internal ice stress tensor, yy-component. ! ! Hout(idIsst) Write out ice interior temperature (at ice mid-layer). ! Hout(idIOmf) Write out ice-ocean mass flux. ! Hout(idIOfv) Write out ice-ocean friction velocity. ! Hout(idIOmt) Write out ice-ocean momentum transfer coefficient. ! Hout(idS0mk) Write out salinity of molecular sublayer under ice. ! Hout(idT0mk) Write out temperature of molecular sublayer under ice. ! Hout(idWdiv) Write out rate of ice divergence. ! Hout(idW_fr) Write out rate of ice accretion by frazil ice growth. ! Hout(idW_ai) Write out rate of melt/freeze at air/ice interface. ! Hout(idW_ao) Write out rate of melt/freeze at air/ocean interface. ! Hout(idW_io) Write out rate of melt/freeze at ice/ocean interface. ! Hout(idW_ro) Write out rate of melt/freeze runoff into ocean. ! !------------------------------------------------------------------------------ ! Logical switches (T/F) to activate writing of instantaneous ice fields into ! QUICKSAVE file. !------------------------------------------------------------------------------ ! ! Qout(idUice) Write out ice U-velocity component. ! Qout(idVice) Write out ice V-velocity component. ! Qout(idUiER) Write out ice Eastward velocity component at RHO-points. ! Qout(idViNR) Write out ice Northward velocity component at RHO-points. ! Qout(idAice) Write out ice concentration (fractional area coverage). ! Qout(idIage) Write out age of ice. ! Qout(idHice) Write out average ice thickness (ice mass per area). ! Qout(idHmel) Write out surface melt water thickness on ice. ! Qout(idHsno) Write out average snow coverage thickness. ! Qout(idTice) Write out surface temperature at snow/atmosphere interface. ! Qout(idISxx) Write out internal ice stress tensor, xx-component. ! Qout(idISxy) Write out internal ice stress tensor, xy-component. ! Qout(idISyy) Write out internal ice stress tensor, yy-component. ! ! Qout(idIsst) Write out ice interior temperature (at ice mid-layer). ! Qout(idIOmf) Write out ice-ocean mass flux. ! Qout(idIOfv) Write out ice-ocean friction velocity. ! Qout(idIOmt) Write out ice-ocean momentum transfer coefficient. ! Qout(idS0mk) Write out salinity of molecular sublayer under ice. ! Qout(idT0mk) Write out temperature of molecular sublayer under ice. ! Qout(idWdiv) Write out rate of ice divergence. ! Qout(idW_fr) Write out rate of ice accretion by frazil ice growth. ! Qout(idW_ai) Write out rate of melt/freeze at air/ice interface. ! Qout(idW_ao) Write out rate of melt/freeze at air/ocean interface. ! Qout(idW_io) Write out rate of melt/freeze at ice/ocean interface. ! Qout(idW_ro) Write out rate of melt/freeze runoff into ocean. ! !------------------------------------------------------------------------------ ! Logical switches (T/F) to activate writing of time-averaged ice fields into ! AVERAGE file. !------------------------------------------------------------------------------ ! ! Aout(idUice) Write out ice U-velocity component. ! Aout(idVice) Write out ice V-velocity component. ! Aout(idUiER) Write out ice Eastward velocity component at RHO-points. ! Aout(idViNR) Write out ice Northward velocity component at RHO-points. ! Aout(idAice) Write out ice concentration (fractional area coverage). ! Aout(idIage) Write out age of ice. ! Aout(idHice) Write out average ice thickness (ice mass per area). ! Aout(idHmel) Write out surface melt water thickness on ice. ! Aout(idHsno) Write out average snow coverage thickness. ! Aout(idTice) Write out surface temperature at snow/atmosphere interface. ! Aout(idISxx) Write out internal ice stress tensor, xx-component. ! Aout(idISxy) Write out internal ice stress tensor, xy-component. ! Aout(idISyy) Write out internal ice stress tensor, yy-component. ! ! Aout(idIsst) Write out ice interior temperature (at ice mid-layer). ! Aout(idIOmf) Write out ice-ocean mass flux. ! Aout(idIOfv) Write out ice-ocean friction velocity. ! Aout(idIOmt) Write out ice-ocean momentum transfer coefficient. ! Aout(idS0mk) Write out salinity of molecular sublayer under ice. ! Aout(idT0mk) Write out temperature of molecular sublayer under ice. ! Aout(idW_fr) Write out rate of ice accretion by frazil ice growth. ! Aout(idW_ai) Write out rate of melt/freeze at air/ice interface. ! Aout(idW_ao) Write out rate of melt/freeze at air/ocean interface. ! Aout(idW_io) Write out rate of melt/freeze at ice/ocean interface. ! Aout(idW_ro) Write out rate of melt/freeze runoff into ocean. ! Aout(idWdiv) Write out rate of ice divergence. !