== [=#dynamic_input '''Dynamic input file'''] == The dynamic input file (see [../#PIDS_DYNAMIC PIDS_DYNAMIC]) comprises all data which might change depending on the day of year, such as initialization data, large-scale forcing tendencies or boundary data. Utilizing the pre-processing tool [wiki:doc/app/iofiles/inifor INIFOR], the respective data can be derived directly from the larger-scale [[http://www.cosmo-model.org/content/default.htm|COSMO model]] (except for active or passive chemical components which are not considered in the COSMO model). Another tool [wiki:doc/app/iofiles/wrf_interface WRF interface] extracts meteorological and chemical initialization and boundary data from WRF and CAMx outputs. This way, the dynamic input file acts as a interface between a larger-scale model and PALM, being a so-called [wiki:doc/app/initialization_parameters/#nesting_offline offline nesting]. In case of a [wiki:doc/app/nestpar nested] model run (online), only the parent domain considers the dynamic input_file for inititialization and offline-nesting, while embedded child models itself will be initialized and forced via its parent domains. In order to activate input from the dynamic input file, setting of [wiki:doc/app/initialization_parameters#initializing_actions initializing_actions] = 'inifor' is required. For more information of how to create a dynamic input file, please see the [wiki:doc/app/iofiles/inifor INIFOR documentation] or the [wiki:doc/app/iofiles/wrf_interface WRF interface documentation], respectively. ||='''Input variable''' =||='''Type''' =||='''LOD''' =||='''Explanation / Remarks''' =|| |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_pt '''init_atmosphere_pt''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of potential temperature. // {{{lod=2}}}: Initial volume data of potential temperature. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_qv '''init_atmosphere_qv''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of mixing ratio. // {{{lod=2}}}: Initial volume data of mixing_ratio. Input of this quantity becomes only effective if [wiki:doc/app/initialization_parameters#humidity humidity] = ''.T.''. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_u '''init_atmosphere_u''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of the wind component in the x-direction. // {{{lod=2}}}: Initial volume data of the wind component in the x-direction. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_v '''init_atmosphere_v''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of the wind component in the y-direction. // {{{lod=2}}}: Initial volume data of the wind component in the y-direction. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_w '''init_atmosphere_w''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of the wind component in the z-direction. // {{{lod=2}}}: Initial volume data of the wind component in the z-direction. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_s '''init_atmosphere_s''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of any passive scalar. // {{{lod=2}}}: Initial volume data of any passive scalar. Input of this quantity becomes only effective if [wiki:doc/app/initialization_parameters#passive_scalar passive_scalar] = ''.T.''. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_no '''init_atmosphere_no''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of nitrogen monoxide. // {{{lod=2}}}: Initial volume data of nitrogen monoxide. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_no2 '''init_atmosphere_no2''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of nitrogen dioxide. // {{{lod=2}}}: Initial volume data of nitrogen dioxide. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_no3 '''init_atmosphere_no3''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of nitrate. // {{{lod=2}}}: Initial volume data of nitrate. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_pm10 '''init_atmosphere_pm10''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of PM10. // {{{lod=2}}}: Initial volume data of PM10. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_hno3 '''init_atmosphere_hno3''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of nitric acid. // {{{lod=2}}}: Initial volume data of nitric acid. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_so4 '''init_atmosphere_so4''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of sulfate. // {{{lod=2}}}: Initial volume data of sulfate. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_yyy '''init_atmosphere_yyy''']// (z,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial profile of any further species. // {{{lod=2}}}: Initial volume data of any further species. Input of this quantity becomes only effective if the [wiki:doc/app/chemistry_parameters chemistry model] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_aerosol '''init_atmosphere_aerosol''']// (z,Dmid) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1 }}} {{{#!td {{{lod=1}}}: Initial profile of aerosol number concentration per aerosol size bin (# m^-3^). The bin mean diameter ''Dmid'' given in nm. // Input of this quantity becomes only effective if the [wiki:doc/tec/aerosol aerosol module SALSA] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_atmosphere_mass_fracs_a '''init_atmosphere_mass_fracs_a''']// (z,composition_index) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1 }}} {{{#!td Vertical profile of the mass fractions of background/initial aerosol concentration: subrange a. Input of this quantity becomes only effective if the [wiki:doc/tec/aerosol aerosol module SALSA] is switched on. Please note, this quantity is currently not provided by [#inifor inifor]. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#composition_name '''composition_name''']// (composition_index,// max_string_length) }}} {{{#!td style="vertical-align:top;width: 50px" NC_CHAR }}} {{{#!td style="vertical-align:top;width: 50px" }}} {{{#!td List of chemical components of aerosol particles. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_building_temperature '''init_building_temperature''']// ((s),(nwall),y,x) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2, 3 }}} {{{#!td Initialization of walls and indoor temperatures with varying level of detail. Requires the [wiki:doc/app/usmpar urban-surface model] to become effective. {{{lod=1}}}: The same wall temperature is assumed for all walls of the building at location ''(y,x)''. // {{{lod=2}}}: The wall layer temperatures of a building at ''(y,x)'' are provided individually for each layer. {{{lod=3}}}: The wall temperatures are provided individually for each surface element and for each wall layer. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_pavement_temperature '''init_pavement_temperature''']// (zsoil,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Initialization of the pavement temperature. Requires the [wiki:doc/app/land_surface_parameters land-surface model] to become effective. {{{lod=1}}}: For all paved surface elements the same pavement temperature profile is prescribed. // {{{lod=2}}}: The pavement temperature profile is prescribed for each ''(y,x)''-location individually. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_soil_t '''init_soil_t''']// (zsoil,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial vertical profile of soil temperature. // {{{lod=2}}}: Initial volume data of soil temperature. Input of this quantity becomes only effective if the [wiki:doc/app/land_surface_parameters land-surface model] is switched on. In case of a nested run and no dynamic input file is present for the child domain, soil temperature in the child domain will be initialized by horizontal mean vertical soil-temperature profiles derived from the respective parent domain. Moreover, please note '''zsoil''' need to have the same dimensions as in the static input file }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_soil_m '''init_soil_m''']// (zsoil,(y),(x)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td {{{lod=1}}}: Initial vertical profile of soil moisture. // {{{lod=2}}}: Initial volume data of soil moisture. Input of this quantity becomes only effective if the [wiki:doc/app/land_surface_parameters land-surface model] is switched on. In case of a nested run and no dynamic input file is present for the child domain, soil moisture in the child domain will be initialized by horizontal mean vertical soil-temperature profiles derived from the respective parent domain. Moreover, please note '''zsoil''' need to have the same dimensions as in the static input file }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#init_water_temperature '''init_water_temperature''']// (y,x) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Initialization of the water temperature at location ''(y,x)''. Requires the [wiki:doc/app/land_surface_parameters land-surface model] to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_pt '''nudging_pt''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for potential temperature. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#nudging nudging] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_qv '''nudging_qv''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for the mixing ratio. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#nudging nudging] = .T. and [wiki:doc/app/initialization_parameters#humidity humidity] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_u '''nudging_u''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for the wind in the x-direction. Requires cyclic boundary conditions to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_v '''nudging_v''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for the wind in the y-direction. Requires cyclic boundary conditions to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_w '''nudging_w''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for the wind in the z-direction. Requires cyclic boundary conditions to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_s '''nudging_s''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging data for a passive scalar. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#nudging nudging] = .T. and [wiki:doc/app/initialization_parameters#passive_scalar passive_scalar] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#nudging_tau '''nudging_tau''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Nudging relaxation time scale. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#nudging nudging] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_ug '''ls_forcing_ug''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Large­-scale forcing data for the geostrophic wind component in x-direction. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_vg '''ls_forcing_vg''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Large­-scale forcing data for the geostrophic wind component in y-direction. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_sub_w '''ls_forcing_sub_w''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Large­-scale forcing data for the subsidence velocity. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#large_scale_forcing large_scale_forcing] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_adv_lpt '''ls_forcing_adv_lpt''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Large­-scale forcing data for the advection tendency of potential temperature. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#large_scale_forcing large_scale_forcing] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_adv_qv '''ls_forcing_adv_qv''']// (time,z) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" none }}} {{{#!td Large­-scale forcing data for the advection tendency of mixing ratio. Requires cyclic boundary conditions as well as [wiki:doc/app/initialization_parameters#large_scale_forcing large_scale_forcing] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_left_pt '''ls_forcing_left_pt''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at left (west) model boundary for the potential temperature. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_left_qv '''ls_forcing_left_qv''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at left (west) model boundary for the mixing ratio. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_left_u '''ls_forcing_left_u''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at left (west) model boundary for the wind component in x-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_left_v '''ls_forcing_left_v''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at left (west) model boundary for the wind component in y-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_left_w '''ls_forcing_left_w''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at left (west) model boundary for the wind component in z-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_right_pt '''ls_forcing_right_pt''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at right model boundary for the potential temperature. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_right_qv '''ls_forcing_right_qv''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at right (east) model boundary for the mixing ratio. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_right_u '''ls_forcing_right_u''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at right (east) model boundary for the wind component in x-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_right_v '''ls_forcing_right_v''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at right (east) model boundary for the wind component in y-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_right_w '''ls_forcing_right_w''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at right (east) model boundary for the wind component in z-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_south_pt '''ls_forcing_south_pt''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at front (south) model boundary for the potential temperature. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_south_qv '''ls_forcing_south_qv''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at front (south) model boundary for the mixing ratio. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_south_u '''ls_forcing_south_u''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at front (south) model boundary for the wind component in x-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_south_v '''ls_forcing_south_v''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at front (south) model boundary for the wind component in y-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_south_w '''ls_forcing_south_w''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at front (south) model boundary for the wind component in z-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_north_pt '''ls_forcing_north_pt''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at back (north) model boundary for the potential temperature. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_north_qv '''ls_forcing_north_qv''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at back (north) model boundary for the mixing ratio. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_north_u '''ls_forcing_north_u''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at back (north) model boundary for the wind component in x-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_north_v '''ls_forcing_north_v''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at back (north) model boundary for the wind component in y-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_north_w '''ls_forcing_north_w''']// (time,z,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at back (north) model boundary for the wind component in z-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_top_pt '''ls_forcing_top_pt''']// (time,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at top model boundary for the potential temperature. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_top_qv '''ls_forcing_top_qv''']// (time,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at top model boundary for the mixing ratio. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_top_u '''ls_forcing_top_u''']// (time,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at top model boundary for the wind component in x-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_top_v '''ls_forcing_top_v''']// (time,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at top model boundary for the wind component in y-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#ls_forcing_top_w '''ls_forcing_top_w''']// (time,(x),(y)) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1, 2 }}} {{{#!td Boundary condition at top model boundary for the wind component in z-direction. Requires [wiki:doc/app/nesting_offl_parameters#nesting_offline nesting_offline] = .T. to become effective. }}} [=#external_rad '''External radiative forcing'''] ||='''Input variable''' =||='''Type''' =||='''LOD''' =||='''Explanation / Remarks''' =|| |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#rad_lw_in '''rad_lw_in''']// (time_rad) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1 }}} {{{#!td Longwave downwelling radiation (mandatory if [../../../radiation_parameters#radiation_scheme radiation_scheme ]= 'external'). }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#rad_sw_in '''rad_sw_in''']// (time_rad) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1 }}} {{{#!td Shortwave downwelling radiation (mandatory if [../../../radiation_parameters#radiation_scheme radiation_scheme ]= 'external'). }}} |---------------- {{{#!td style="vertical-align:top;width: 150px" [=#rad_sw_in '''rad_sw_in''']// (time_rad) }}} {{{#!td style="vertical-align:top;width: 50px" NC_FLOAT }}} {{{#!td style="vertical-align:top;width: 50px" 1 }}} {{{#!td Shortwave downwelling diffuse radiation, which can be optionally input. In case it is missing, the incoming shortwave radiation will be split into direct and diffuse fractions based on clear-sky assumptions. }}} \\\\