#include <cs_atmo.h>

Collaboration diagram for cs_atmo_option_t:

Public Attributes
int	syear

int	squant

int	shour

int	smin

cs_real_t	ssec

cs_real_t	longitude

cs_real_t	latitude

cs_real_t	altitude

cs_real_t	x_l93

cs_real_t	y_l93

cs_real_t	x_origin

cs_real_t	y_origin

cs_atmo_projection_t	projection_type

int	utm_zone

union {
int met_1d_nlevels_d

int nbmetd

};

union {
int met_1d_nlevels_t

int nbmett

};

union {
int met_1d_ntimes

int nbmetm

};

union {
int met_1d_nlevels_max_t

int nbmaxt

};

cs_real_t	domain_orientation

bool	compute_z_ground

int	open_bcs_treatment

int	theo_interp

int	sedimentation_model

int	deposition_model

int	nucleation_model

int	subgrid_model

int	distribution_model

int	meteo_profile

char *	meteo_file_name

cs_real_t	meteo_dlmo

cs_real_t	meteo_z0

cs_real_t	meteo_zref

cs_real_t	meteo_zi

cs_real_t	meteo_zu1

cs_real_t	meteo_zu2

cs_real_t	meteo_zt1

cs_real_t	meteo_zt2

cs_real_t	meteo_uref

cs_real_t	meteo_u1

cs_real_t	meteo_u2

cs_real_t	meteo_ustar0

cs_real_t	meteo_wstar0

cs_real_t	meteo_angle

cs_real_t	meteo_t0

cs_real_t	meteo_t1

cs_real_t	meteo_t2

cs_real_t	meteo_tstar

cs_real_t	meteo_psea

cs_real_t	meteo_qw0

cs_real_t	meteo_qwstar

cs_real_t	meteo_qw1

cs_real_t	meteo_qw2

cs_real_t	meteo_ql0

cs_real_t	meteo_evapor

cs_real_t	meteo_sensi

int	meteo_phim_s

int	meteo_phih_s

int	meteo_phim_u

int	meteo_phih_u

cs_real_t *	xyp_met

cs_real_t *	u_met

cs_real_t *	v_met

cs_real_t *	w_met

cs_real_t *	ek_met

cs_real_t *	ep_met

cs_real_t *	temp_met

cs_real_t *	rho_met

cs_real_t *	qw_met

cs_real_t *	ndrop_met

cs_real_t *	z_dyn_met

cs_real_t *	z_temp_met

cs_real_t *	time_met

cs_real_t *	hyd_p_met

cs_real_t *	pot_t_met

cs_real_t *	dpdt_met

cs_real_3_t *	mom_met

cs_real_3_t *	mom_cs

int	hydrostatic_pressure_model

int	qv_profile

int	ground_model

cs_atmo_ground_cat_t	ground_cat

int	ground_zone_id

cs_atmo_ground_meb_model_t	ground_meb_model

bool	rain

int	cloud_type

bool	accretion

bool	autoconversion

bool	autocollection_cloud

bool	autocollection_rain

bool	precipitation

bool	evaporation

bool	rupture

cs_real_t	ground_surf_temp

cs_real_t	ground_temperature

cs_real_t	ground_humidity

cs_real_t	ground_w1_ini

cs_real_t	ground_w2_ini

cs_real_t *	ground_cat_thermal_inertia

cs_real_t *	ground_cat_roughness

cs_real_t *	ground_cat_thermal_roughness

cs_real_t *	ground_cat_albedo

cs_real_t *	ground_cat_emissi

cs_real_t *	ground_cat_vegeta

cs_real_t *	ground_cat_w1

cs_real_t *	ground_cat_w2

cs_real_t *	ground_cat_r1

cs_real_t *	ground_cat_r2

cs_real_t	sigc

int	infrared_1D_profile

int	solar_1D_profile

int	profiles_grid_id

cs_real_t	aod_o3_tot

cs_real_t	aod_h2o_tot

Member Data Documentation

◆

union { ... } @3

numbers of altitudes for the temperature and specific humidity

◆

union { ... } @5

numbers of time steps for the meteo profiles

◆

union { ... } @7

Number of vertical levels

◆ accretion

bool accretion

◆ altitude

cs_real_t altitude

altitude of the domain origin

◆ aod_h2o_tot

cs_real_t aod_h2o_tot

◆ aod_o3_tot

cs_real_t aod_o3_tot

◆ autocollection_cloud

bool autocollection_cloud

◆ autocollection_rain

bool autocollection_rain

◆ autoconversion

bool autoconversion

◆ cloud_type

int cloud_type

◆ compute_z_ground

bool compute_z_ground

Option to compute ground elevation in the domain

◆ deposition_model

int deposition_model

Deposition flag

◆ distribution_model

int distribution_model

Option for liquid water content distribution models 1: all or nothing 2: Gaussian distribution

◆ domain_orientation

cs_real_t domain_orientation

Domain orientation (angle in degree between y direction and north), 0 by default

◆ dpdt_met

cs_real_t* dpdt_met

Pressure drop integrated over a time step (used for automatic open boundaries) profile

◆ ek_met

cs_real_t* ek_met

meteo turbulent kinetic energy profile

◆ ep_met

cs_real_t* ep_met

meteo turbulent dissipation profile

◆ evaporation

bool evaporation

◆ ground_cat

cs_atmo_ground_cat_t ground_cat

Ground categories:

CS_ATMO_GROUND_5_CAT
CS_ATMO_GROUND_7_CAT
CS_ATMO_GROUND_23_CAT

◆ ground_cat_albedo

cs_real_t* ground_cat_albedo

Albedo per ground category

◆ ground_cat_emissi

cs_real_t* ground_cat_emissi

emissivity per ground category

◆ ground_cat_r1

cs_real_t* ground_cat_r1

Rij value for Rij1

◆ ground_cat_r2

cs_real_t* ground_cat_r2

Rij value for Rij2

◆ ground_cat_roughness

cs_real_t* ground_cat_roughness

Dynamic roughness length

◆ ground_cat_thermal_inertia

cs_real_t* ground_cat_thermal_inertia

Thermal inertia of the ground

◆ ground_cat_thermal_roughness

cs_real_t* ground_cat_thermal_roughness

Thermal roughness length

◆ ground_cat_vegeta

cs_real_t* ground_cat_vegeta

Vegetation index per ground category

◆ ground_cat_w1

cs_real_t* ground_cat_w1

maximum water capacity of shallow reservoir

◆ ground_cat_w2

cs_real_t* ground_cat_w2

ratio of the maximum water capacity of the shallow reservoir to the deep reservoir [0,1]

◆ ground_humidity

cs_real_t ground_humidity

initial ground specific humidity

◆ ground_meb_model

cs_atmo_ground_meb_model_t ground_meb_model

Solve supplementary heat budget equation (multi energy budget):

CS_ATMO_GROUND_GENUINE
CS_ATMO_GROUND_PHOTOVOLTAICS
CS_ATMO_GROUND_VEGETATION

◆ ground_model

int ground_model

Ground model (1: on, 0: off)

◆ ground_surf_temp

cs_real_t ground_surf_temp

initial ground surface temperature for Sea, it is also the surface temperature

◆ ground_temperature

cs_real_t ground_temperature

initial deep ground temperature

◆ ground_w1_ini

cs_real_t ground_w1_ini

initial water content of the first reservoir

◆ ground_w2_ini

cs_real_t ground_w2_ini

initial water content of the second reservoir

◆ ground_zone_id

int ground_zone_id

Ground zone id (or -1 if inactive)

◆ hyd_p_met

cs_real_t* hyd_p_met

Hydrostatic pressure from Laplace integration

◆ hydrostatic_pressure_model

int hydrostatic_pressure_model

◆ infrared_1D_profile

int infrared_1D_profile

1D infrared profile id

◆ latitude

cs_real_t latitude

latitude of the domain origin

◆ longitude

cs_real_t longitude

longitude of the domain origin

◆ met_1d_nlevels_d

int met_1d_nlevels_d

◆ met_1d_nlevels_max_t

int met_1d_nlevels_max_t

◆ met_1d_nlevels_t

int met_1d_nlevels_t

◆ met_1d_ntimes

int met_1d_ntimes

◆ meteo_angle

cs_real_t meteo_angle

Meteo wind direction

◆ meteo_dlmo

cs_real_t meteo_dlmo

Meteo Monin obukhov inverse length

◆ meteo_evapor

cs_real_t meteo_evapor

Meteo reference evaporation

◆ meteo_file_name

char* meteo_file_name

Meteo file

◆ meteo_phih_s

int meteo_phih_s

Universal function Phi_h for stable condition

◆ meteo_phih_u

int meteo_phih_u

Universal function Phi_h for unstable condition

◆ meteo_phim_s

int meteo_phim_s

Universal function Phi_m for stable condition

◆ meteo_phim_u

int meteo_phim_u

Universal function Phi_m for unstable condition

◆ meteo_profile

int 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

cs_real_t meteo_psea

Meteo pressure at sea level

◆ meteo_ql0

cs_real_t meteo_ql0

Meteo reference mass fraction at 2m

◆ meteo_qw0

cs_real_t meteo_qw0

Meteo reference mass fraction at 2m

◆ meteo_qw1

cs_real_t meteo_qw1

Meteo reference mass fraction 1

◆ meteo_qw2

cs_real_t meteo_qw2

Meteo reference mass fraction 2

◆ meteo_qwstar

cs_real_t meteo_qwstar

Meteo reference ground friction mass fraction

◆ meteo_sensi

cs_real_t meteo_sensi

Meteo reference sensible heat

◆ meteo_t0

cs_real_t meteo_t0

Meteo reference temperature (ground temperature)

◆ meteo_t1

cs_real_t meteo_t1

Meteo reference temperature 1

◆ meteo_t2

cs_real_t meteo_t2

Meteo reference temperature 2

◆ meteo_tstar

cs_real_t meteo_tstar

Meteo reference ground friction temperature

◆ meteo_u1

cs_real_t meteo_u1

Meteo reference velocity 1

◆ meteo_u2

cs_real_t meteo_u2

Meteo reference velocity 2

◆ meteo_uref

cs_real_t meteo_uref

Meteo reference velocity

◆ meteo_ustar0

cs_real_t meteo_ustar0

Meteo reference ground friction velocity

◆ meteo_wstar0

cs_real_t meteo_wstar0

Meteo reference convective velocity

◆ meteo_z0

cs_real_t meteo_z0

Meteo reference roughness

◆ meteo_zi

cs_real_t meteo_zi

Meteo Boundary layer elevation

◆ meteo_zref

cs_real_t meteo_zref

Meteo reference elevation for reference velocity

◆ meteo_zt1

cs_real_t meteo_zt1

Meteo reference elevation for reference temperature 1

◆ meteo_zt2

cs_real_t meteo_zt2

Meteo reference elevation for reference temperature 2

◆ meteo_zu1

cs_real_t meteo_zu1

Meteo reference elevation for reference velocity 1

◆ meteo_zu2

cs_real_t meteo_zu2

Meteo reference elevation for reference velocity 2

◆ mom_cs

cs_real_3_t* mom_cs

code_saturne momentum for each level

◆ mom_met

cs_real_3_t* mom_met

Momentum for each level (used for automatic open boundaries)

◆ nbmaxt

int nbmaxt

◆ nbmetd

int nbmetd

◆ nbmetm

int nbmetm

◆ nbmett

int nbmett

◆ ndrop_met

cs_real_t* ndrop_met

meteo number of droplets profile

◆ nucleation_model

int 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

int open_bcs_treatment

◆ pot_t_met

cs_real_t* pot_t_met

potential temperature profile

◆ precipitation

bool precipitation

◆ profiles_grid_id

int profiles_grid_id

id of grid formed by 1D profiles

◆ projection_type

cs_atmo_projection_t projection_type

Projection system used in computation

◆ qv_profile

int qv_profile

flag for the standard atmo humidity profile qv_profile = 0 (default) qv_profile = 1 decreasing exponential

◆ qw_met

cs_real_t* qw_met

meteo water mass fraction profile

◆ rain

bool rain

◆ rho_met

cs_real_t* rho_met

meteo density profile

◆ rupture

bool rupture

◆ sedimentation_model

int sedimentation_model

Sedimentation flag

◆ shour

int shour

Starting hour

◆ sigc

cs_real_t sigc

adimensional : sigc=0.53 other referenced values are 0.28, 0.15

◆ smin

int smin

Starting minute

◆ solar_1D_profile

int solar_1D_profile

1D solar profile id

◆ squant

int squant

Starting quantile

◆ ssec

cs_real_t ssec

Starting second

◆ subgrid_model

int 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

int syear

Starting year

◆ temp_met

cs_real_t* temp_met

meteo temperature profile

◆ theo_interp

int theo_interp

◆ time_met

cs_real_t* time_met

Time (in seconds) of the meteo profile

◆ u_met

cs_real_t* u_met

meteo u profiles

◆ utm_zone

int utm_zone

◆ v_met

cs_real_t* v_met

meteo v profiles

◆ w_met

cs_real_t* w_met

meteo w profiles

◆ x_l93

cs_real_t x_l93

x coordinate of the domain origin in Lambert-93

◆ x_origin

cs_real_t x_origin

numbers of altitudes for the dynamics

XY coordinates of the domain origin in current projection system

◆ xyp_met

cs_real_t* xyp_met

meteo x, y, p at sea levels

◆ y_l93

cs_real_t y_l93

y coordinate of the domain origin in Lambert-93

◆ y_origin

cs_real_t y_origin

◆ z_dyn_met

cs_real_t* 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

cs_real_t* z_temp_met

Altitudes of the temperature profile

The documentation for this struct was generated from the following file:

src/atmo/cs_atmo.h

Public Attributes