Changes between Version 2 and Version 3 of doc/app/salsaeg

Timestamp:

Nov 28, 2019 6:58:21 AM (5 years ago)

Author:

monakurppa

Comment:

--

doc/app/salsaeg

@@ -9 +9 @@
 An example set-up for including SALSA to PALM can be found [https://palm.muk.uni-hannover.de/trac/browser/palm/trunk/TESTS/cases/urban_environment_salsa here]. This test set-up called "urban_environment_salsa" is for a very small urban area and can thus be run on a personal computer. 
 
-The simulation domain is the same as in the test case [https://palm.muk.uni-hannover.de/trac/browser/palm/trunk/TESTS/cases/urban_environment urban_environment]. This set-up has been extended by enabling SALSA and introducing aerosol and gas emissions above streets and background air pollutant concentrations. In SALSA, the aerosol size distribution is represented with 8 size bins (see [wiki:/doc/app/salsapar#nbin nbin]) and the aerosols can contain organic compounds, nitrates and ammonia (see [wiki:/doc/app/salsapar#listspec listspec]). The following aerosol dynamic porcesses are included: deposition (on both vegetation and other surfaces), condensation and coagulation. The background concentrations for both aerosols and gaseous compounds are defined within the parameter file (see [wiki:/doc/app/salsapar#dpg dpg], [wiki:/doc/app/salsapar#sigmag sigmag], [wiki:/doc/app/salsapar#n_lognorm n_lognorm] and [wiki:/doc/app/salsapar#mass_fracs_a mass_fracs_a] for aerosols and [wiki:/doc/app/salsapar#H2SO4_init H2SO4_init], [wiki:/doc/app/salsapar#HNO3_init HNO3_init], [wiki:/doc/app/salsapar#NH3_init NH3_init], [wiki:/doc/app/salsapar#OCNV_init OCNV_init] and [wiki:/doc/app/salsapar#OCSV_init OCSV_init] for gases). The concentrations are set constant at the left and right lateral boundaries (see [wiki:/doc/app/salsapar#decycle_method decycle_method], [wiki:/doc/app/salsapar#decycle_lr decycle_lr] and [wiki:/doc/app/salsapar#decycle_ns decycle_ns]) to avoid accumulation of air pollutants with the cyclic boundary conditions for the flow. The aerosol emissions are read from file {{{urban_environment_salsa}}}.
+The simulation domain is the same as in the test case [https://palm.muk.uni-hannover.de/trac/browser/palm/trunk/TESTS/cases/urban_environment urban_environment]. This set-up has been extended by enabling SALSA and introducing aerosol and gas emissions above streets and background air pollutant concentrations. In SALSA, the aerosol size distribution is represented with 8 size bins (see [wiki:/doc/app/salsapar#nbin nbin]) and the aerosols can contain organic compounds, nitrates and ammonia (see [wiki:/doc/app/salsapar#listspec listspec]). The following aerosol dynamic porcesses are included: deposition (on both vegetation and other surfaces), condensation and coagulation. The background concentrations for both aerosols and gaseous compounds are defined within the parameter file (see [wiki:/doc/app/salsapar#dpg dpg], [wiki:/doc/app/salsapar#sigmag sigmag], [wiki:/doc/app/salsapar#n_lognorm n_lognorm] and [wiki:/doc/app/salsapar#mass_fracs_a mass_fracs_a] for aerosols and [wiki:/doc/app/salsapar#H2SO4_init H2SO4_init], [wiki:/doc/app/salsapar#HNO3_init HNO3_init], [wiki:/doc/app/salsapar#NH3_init NH3_init], [wiki:/doc/app/salsapar#OCNV_init OCNV_init] and [wiki:/doc/app/salsapar#OCSV_init OCSV_init] for gases). The concentrations are set constant at the left and right lateral boundaries (see [wiki:/doc/app/salsapar#decycle_method decycle_method], [wiki:/doc/app/salsapar#decycle_lr decycle_lr] and [wiki:/doc/app/salsapar#decycle_ns decycle_ns]) to avoid accumulation of air pollutants with the cyclic boundary conditions for the flow. The aerosol emissions are read from file {{{urban_environment_salsa_salsa}}}.
 
 The following input files are included:
-  * {{{urban_environment_p3d}}}:  Parameter file
-  * {{{urban_environment_static}}}:  Static driver including information on topography, vegetation and land use
-  * {{{urban_environment_salsa}}}:  Input file for aerosol emissions (with the level of detail 2)
-  * {{{urban_environment_chemistry}}}:  Input file for gaseous emissions (with the level of detail 2)
+  * {{{urban_environment_salsa_p3d}}}:  Parameter file
+  * {{{urban_environment_salsa_static}}}:  Static driver including information on topography, vegetation and land use
+  * {{{urban_environment_salsa_salsa}}}:  Input file for aerosol emissions (with the level of detail 2)
+  * {{{urban_environment_salsa_chemistry}}}:  Input file for gaseous emissions (with the level of detail 2)
 
-Furthermore, a dynamic driver {{{urban_environment_dynamic}}} for initialising the meteorological conditions and background concentrations, as well as setting a time-dependent meteorological forcing, is included. To enable this dynamic input, the following changes are needed in the parameter file:
+Furthermore, a dynamic driver {{{urban_environment_salsa_dynamic}}} for initialising the meteorological conditions and background concentrations, as well as setting a time-dependent meteorological forcing, is included. To enable this dynamic input, the following changes are needed in the parameter file:
 
 
   * In initialization_parameters: nz = 22 --> nz = 60 and initializing_actions = 'set_constant_profiles' --> initializing_actions = 'inifor set_constant_profiles'
-  * In salsa_parameters: init_aerosol_type = 0 --> init_aerosol_type = 1 and init_gases_type = 0 --> init_gases_type = 1