8.0
general documentation
atmo Directory Reference

Files

file  atchem.f90
 Module for chemistry in the atmospheric module.
 
file  atimbr.f90
 Atmospheric Imbrication module. This module contains the data structure and subroutines to perform atmospheric imbrication or nesting of a CFD domain within a large scale meteorological field. Starting from a set of large scale meteological profiles (in the format of meteo files) an interpolation is performed for each boundary face both spatially and temporally (using Cressman method)
 
file  atincl.f90
 Module for atmospheric models - main variables.
 
file  atini1.f90
 Initialisation of variable options for the atmospheric module in addition to what is done in usipsu function.
 
file  atiniv.f90
 Initialisation of calculation variables for the atmospheric module, it is the counterpart of usiniv.f90.
 
file  atleca.f90
 Reads initial aerosol concentration and number.
 
file  atlecc.f90
 Reads the chemistry profile data for the atmospheric chemistry.
 
file  atlecm.f90
 Reads the meteo profile data for the atmospheric module.
 
file  atmcls.f90
 Compute friction velocity u* and surface sensible heat flux q0 for a non neutral atmospheric surface layer using the explicit formula developed for the ECMWF by Louis (1982)
 
file  atmsol.f90
 build constants and variables to describe ground model
 
file  atphyv.f90
 Functions that compute physical variables for each cell for the atmospheric module.
 
file  atprop.f90
 Add if needed the variables fields for temperature and liquid water.
 
file  atr1vf.f90
 Compute radiative fluxes for the atmospheric model. Computes the source term for scalar equations from radiative forcing (UV and IR radiative fluxes) with a 1D scheme.
 
file  atsoil.f90
 Module for the atmospheric soil model adapted to the IGN "land use" file format.
 
file  attssc.f90
 Additional right-hand side source terms for scalar equations taking into account dry and humid atmospheric variables. If 1D atmospheric radiative module is used (iatra1 = 1) additional source terms for the thermal scalar equation to take into account the radiative forcing.
 
file  attycl.f90
 Automatic boundary conditions for atmospheric module (based on meteo file)
 
file  atvarp.f90
 Declare additional transported variables for atmospheric module.
 
file  chem_luscheme1.f90
 Routines for atmospheric chemical scheme 1.
 
file  chem_luscheme2.f90
 Routines for atmospheric chemical scheme 2.
 
file  chem_luscheme3.f90
 Routines for atmospheric chemical scheme 3.
 
file  chem_roschem.f90
 Rosenbrock solver for atmospheric chemistry.
 
file  chem_solvelu.f90
 Solver of AX=B with LU decomposition of A for atmospheric chemical systems.
 
file  chem_source_terms.f90
 Computes the explicit chemical source term for atmospheric chemistry in case of a semi-coupled resolution.
 
file  compute_gaseous_chemistry.f90
 Calls the rosenbrock resolution for atmospheric chemistry.
 
file  cs_air_props.c
 
file  cs_air_props.h [code]
 
file  cs_at_data_assim.c
 
file  cs_at_data_assim.h [code]
 
file  cs_at_opt_interp.c
 
file  cs_at_opt_interp.h [code]
 
file  cs_at_source_terms.f90
 
file  cs_atmo.c
 
file  cs_atmo.h [code]
 
file  cs_atmo_aerosol.c
 
file  cs_atmo_aerosol.h [code]
 
file  cs_atmo_aerosol_ssh.c
 
file  cs_atmo_aerosol_ssh.h [code]
 
file  cs_atmo_headers.h [code]
 
file  cs_atmo_profile_std.c
 
file  cs_atmo_profile_std.h [code]
 
file  cs_atprke.c
 
file  cs_atprke.h [code]
 
file  cs_intprf.c
 
file  cs_intprf.h [code]
 
file  kinrates.f90
 Calls the computation of reaction rates for atmospheric chemistry.
 
file  rayigc.f90
 Compute carbonic dioxide (CO2) and ozone (O3) absorption in infrared (1D radiative scheme).
 
file  rayir.f90
 Compute infrared flux divergence profile and downward flux at ground level relying on a 1D radiative scheme.
 
file  rayive.f90
 1D Radiative scheme - IR H20 and dimere absorption
 
file  rayso.f90
 
file  solcat.f90
 Soil - atmosphere parameters computed from a "Land use" file.
 
file  soliva.f90
 Atmospheric soil module - soil variables initialisation.
 
file  solmoy.f90
 Atmospheric soil module - Initialize ground level parameters from land use.
 
file  solvar.f90
 Atmospheric soil module - Compute ground level variables.
 
file  spefun.f90
 Atmospheric module - Module for specific math functions.
 
file  sshaerosol.f90
 Module for aerosol chemistry in the atmospheric module.