#include <cs_atmo.h>
numbers of altitudes for the dynamics
numbers of altitudes for the temperature and specific humidity
numbers of time steps for the meteo profiles
Number of vertical levels
◆ accretion
◆ aod_h2o_tot
◆ aod_o3_tot
◆ autocollection_cloud
bool autocollection_cloud |
◆ autocollection_rain
◆ autoconversion
◆ cloud_type
◆ compute_z_ground
Option to compute ground elevation in the domain
◆ deposition_model
◆ distribution_model
Option for liquid water content distribution models 1: all or nothing 2: Gaussian distribution
◆ domain_orientation
Domain orientation (angle in degree between y direction and north), 0 by default
◆ dpdt_met
Pressure drop integrated over a time step (used for automatic open boundaries) profile
◆ ek_met
meteo turbulent kinetic energy profile
◆ ep_met
meteo turbulent dissipation profile
◆ evaporation
◆ hyd_p_met
Hydrostatic pressure from Laplace integration
◆ hydrostatic_pressure_model
int hydrostatic_pressure_model |
◆ infrared_1D_profile
◆ latitude
latitude of the domain origin
◆ longitude
longitude of the domain origin
◆ met_1d_nlevels_d
◆ met_1d_nlevels_max_t
◆ met_1d_nlevels_t
◆ met_1d_ntimes
◆ meteo_angle
◆ meteo_dlmo
Meteo Monin obukhov inverse length
◆ meteo_evapor
Meteo reference evaporation
◆ meteo_file_name
◆ meteo_phih_s
Universal function Phi_h for stable condition
◆ meteo_phih_u
Universal function Phi_h for unstable condition
◆ meteo_phim_s
Universal function Phi_m for stable condition
◆ meteo_phim_u
Universal function Phi_m for unstable condition
◆ meteo_profile
Use meteo profile:
- 0: not use
- 1: use a meteo file
- 2: directly enter values large scale values
- 3: fill directly meteo_* fields
◆ meteo_psea
Meteo pressure at sea level
◆ meteo_ql0
Meteo reference mass fraction at 2m
◆ meteo_qw0
Meteo reference mass fraction at 2m
◆ meteo_qw1
Meteo reference mass fraction 1
◆ meteo_qw2
Meteo reference mass fraction 2
◆ meteo_qwstar
Meteo reference ground friction mass fraction
◆ meteo_sensi
Meteo reference sensible heat
◆ meteo_t0
Meteo reference temperature (ground temperature)
◆ meteo_t1
Meteo reference temperature 1
◆ meteo_t2
Meteo reference temperature 2
◆ meteo_tstar
Meteo reference ground friction temperature
◆ meteo_u1
Meteo reference velocity 1
◆ meteo_u2
Meteo reference velocity 2
◆ meteo_uref
◆ meteo_ustar0
Meteo reference ground friction velocity
◆ meteo_wstar0
Meteo reference convective velocity
◆ meteo_z0
Meteo reference roughness
◆ meteo_zi
Meteo Boundary layer elevation
◆ meteo_zref
Meteo reference elevation for reference velocity
◆ meteo_zt1
Meteo reference elevation for reference temperature 1
◆ meteo_zt2
Meteo reference elevation for reference temperature 2
◆ meteo_zu1
Meteo reference elevation for reference velocity 1
◆ meteo_zu2
Meteo reference elevation for reference velocity 2
◆ mom_cs
code_saturne momentum for each level
◆ mom_met
Momentum for each level (used for automatic open boundaries)
◆ nbmaxt
◆ nbmetd
◆ nbmetm
◆ nbmett
◆ ndrop_met
meteo number of droplets profile
◆ nucleation_model
Option for nucleation 0: without nucleation 1: Pruppacher and Klett 1997 2: Cohard et al. 1998,1999 3: Abdul-Razzak et al. 1998,2000 logaritmic standard deviation of the log-normal law of the droplet spectrum
◆ open_bcs_treatment
◆ pot_t_met
potential temperature profile
◆ precipitation
◆ qv_profile
flag for the standard atmo humidity profile qv_profile = 0 (default) qv_profile = 1 decreasing exponential
◆ qw_met
meteo water mass fraction profile
◆ rad_1d_acinfe
◆ rad_1d_aco2
◆ rad_1d_aco2s
◆ rad_1d_acsup
◆ rad_1d_acsups
◆ rad_1d_aerosols
1D profiles of aerosols along each vertical
◆ rad_1d_albedo0
Value of ground albedo for each vertical
◆ rad_1d_dacinfe
differential absorption for CO2 + 03
◆ rad_1d_daco2
differential absorption for CO2 only
◆ rad_1d_daco2s
◆ rad_1d_dacsup
◆ rad_1d_dacsups
◆ rad_1d_emissi0
Value of ground emissivity for each vertical
◆ rad_1d_fn
1D profiles of nebulosity along each vertical
◆ rad_1d_frequency
1D radiative model pass frequency (1 valu bu default)
◆ rad_1d_ir_div
flux divergence of IR radiation
◆ rad_1d_ird
◆ rad_1d_iru
Upward and downward radiative fluxes (infrared, solar) along each vertical
◆ rad_1d_nc
1D profiles of number of droplets along each vertical
◆ rad_1d_nlevels
1-D radiative model: number of levels (up to the top of the domain)
◆ rad_1d_nlevels_max
1-D radiative model: number of levels (up to 11000 m) (automatically computed)
◆ rad_1d_nvert
1-D radiative model: number of vertical arrays
◆ rad_1d_p0
Value of ground pressure for each vertical
◆ rad_1d_ql
1D profiles of liquid water mass fraction along each vertical
◆ rad_1d_qv
1D profiles of vapor water mass fraction along each vertical
◆ rad_1d_qw
1D profiles of total water mass fraction along each vertical
◆ rad_1d_qw0
Value of ground total water mass fraction for each vertical
◆ rad_1d_rho0
Value of ground density for each vertical
◆ rad_1d_sol_div
flux divergence of solar radiation
◆ rad_1d_sold
◆ rad_1d_solu
◆ rad_1d_tauz
internal variable for 1D radiative model
◆ rad_1d_tauzq
internal variable for 1D radiative model
◆ rad_1d_temp0
Value of ground temperature for each vertical
◆ rad_1d_theta0
Value of ground potential temperature for each vertical
◆ rad_1d_xy
horizontal coordinates of the vertical grid
◆ rad_1d_z
vertical grid for 1D radiative scheme
◆ rad_1d_zq
internal variable for 1D radiative model
◆ rad_1d_zray
internal variable for 1D radiative model
◆ radiative_model_1d
1-D radiative model (0 off, 1 on)
◆ rain
◆ rho_met
◆ rupture
◆ sedimentation_model
◆ shour
◆ sigc
adimensional : sigc=0.53 other referenced values are 0.28, 0.15
◆ smin
◆ soil_cat
Soil categories:
- CS_ATMO_SOIL_5_CAT
- CS_ATMO_SOIL_7_CAT
- CS_ATMO_SOIL_23_CAT
◆ soil_cat_albedo
◆ soil_cat_emissi
emissivity per soil category
◆ soil_cat_r1
◆ soil_cat_r2
◆ soil_cat_roughness
◆ soil_cat_thermal_inertia
Thermal inertia of the soil
◆ soil_cat_thermal_roughness
◆ soil_cat_vegeta
Vegetation index per soil category
◆ soil_cat_w1
maximum water capacity of shallow reservoir
◆ soil_cat_w2
ratio of the maximum water capacity of the shallow reservoir to the deep reservoir [0,1]
◆ soil_humidity
initial soil specific humidity
◆ soil_meb_model
Solve supplementary heat budget equation (multi energy budget):
- CS_ATMO_SOIL_GENUINE
- CS_ATMO_SOIL_PHOTOVOLTAICS
- CS_ATMO_SOIL_VEGETATION
◆ soil_model
Soil model (1: on, 0: off)
◆ soil_surf_temp
initial soil surface temperature for Sea, it is also the surface temperature
◆ soil_temperature
initial deep soil temperature
◆ soil_w1_ini
initial water content of the first reservoir
◆ soil_w2_ini
initial water content of the second reservoir
◆ soil_zone_id
Soil zone id (or -1 if inactive)
◆ solar_1D_profile
◆ squant
◆ ssec
◆ subgrid_model
Option for subgrid models 0: the simplest parameterization (for numerical verifications) 1: Bechtold et al. 1995 (Luc Musson-Genon) 2: Bouzereau et al. 2004 3: Cuijpers and Duynkerke 1993, Deardorff 1976, Sommeria and Deardorff 1977
◆ syear
◆ temp_met
meteo temperature profile
◆ theo_interp
◆ time_met
Time (in seconds) of the meteo profile
◆ u_met
◆ v_met
◆ w_met
◆ x_l93
x coordinate of the domain origin in Lambert-93
◆ xyp_met
meteo x, y, p at sea levels
◆ y_l93
y coordinate of the domain origin in Lambert-93
◆ z_dyn_met
flag to compute the hydrostatic pressure by Laplace integration in the meteo profiles 0: based on P (sea level) value by default 1: based on P computed for the standard atmosphere
Altitudes of the dynamic profiles
◆ z_temp_met
Altitudes of the temperature profile
The documentation for this struct was generated from the following file: