atincl Module Reference

Data Types
interface	cs_air_pwv_sat
	Computes the saturation water vapor pressure function of the temperature (C). More...
interface	cs_air_x_sat
	Calculation of the absolute humidity at saturation for a given temperature. More...
interface	cs_air_x_to_yw
	Convert the absolute humidity of humid air to the air water mass fraction. More...
interface	cs_air_yw_sat
	Calculation of the air water mass fraction at saturation for a given temperature. More...
interface	cs_air_yw_to_x
	Convert the air water mass fraction to the absolute humidity of humid air. More...
interface	cs_atmo_compute_meteo_profiles
	Compute meteo profiles if no meteo file is given. More...
interface	cs_atmo_init_meteo_profiles
	Initialize meteo profiles if no meteo file is given. More...
interface	cs_f_atmo_get_meteo_file_name
interface	cs_f_atmo_get_pointers
	Return pointers to atmo includes. More...
interface	cs_liq_t_to_h
	Calculation of the specific enthalpy of liquid water. More...
interface	cs_rho_humidair
	Calculation of the density of humid air. More...

Functions/Subroutines
subroutine	atmo_get_meteo_file_name (name)
	Return meteo file name. More...
type(c_ptr) function	cs_atmo_get_auto_flag ()
	Return pointer to automatic face bc flag array. More...
subroutine	atmo_init
	Map fortran to C variables. More...
subroutine	init_meteo
	Initialisation of meteo data. More...
subroutine	init_atmo_autom (nfabor)
	Initialisation of meteo data. More...
subroutine	finalize_meteo
	Final step for deallocation. More...
subroutine	mo_phim_s (z, dlmo, coef)
	Universal functions of Cheng and Brutsaert 2005, for stable (derivative function) More...
subroutine	mo_phih_s (z, dlmo, coef)
subroutine	mo_psim_s (z, z0, dlmo, coef)
subroutine	mo_psih_s (z, z0, dlmo, coef)
subroutine	mo_phim_u (z, dlmo, coef)
	Universal functions of Hogstrom 1988, for unstable (derivative function) More...
subroutine	mo_phih_u (z, dlmo, coef)
subroutine	mo_psim_u (z, z0, dlmo, coef)
subroutine	mo_psih_u (z, z0, dlmo, coef)
subroutine	mo_phim_n (z, dlmo, coef)
	Universal functions, for neutral (derivative function) More...
subroutine	mo_phih_n (z, dlmo, coef)
subroutine	mo_psim_n (z, z0, dlmo, coef)
subroutine	mo_psih_n (z, z0, dlmo, coef)
real(c_double) function	cs_mo_phim (z, dlmo)
real(c_double) function	cs_mo_phih (z, dlmo)
real(c_double) function	cs_mo_psim (z, z0, dlmo)
real(c_double) function	cs_mo_psih (z, z0, dlmo)
subroutine	mo_compute_from_thermal_flux (z, z0, du, flux, tm, gredu, dlmo, ustar)
	Compute LMO, friction velocity ustar, friction temperature tstar from a thermal flux using Monin Obukhov. More...
subroutine	mo_compute_from_thermal_diff (z, z0, du, dt, tm, gredu, dlmo, ustar)
	Compute LMO, friction velocity ustar, friction temperature tstar from a thermal difference using Monin Obukhov. More...

Variables
double precision, dimension(:), pointer	tmmet
	time (in sec) of the meteo profile More...
double precision, dimension(:), allocatable	zdmet
	altitudes of the dynamic profiles (read in the input meteo file) More...
double precision, dimension(:), allocatable	dpdt_met
	Pressure drop integrated over a time step (used for automatic open boundaries) More...
double precision, dimension(:,:), allocatable	mom_met
	Momentum for each level (used for automatic open boundaries) More...
double precision, dimension(:,:), allocatable	mom
double precision, dimension(:), pointer	ztmet
	altitudes of the temperature profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	umet
	meteo u profiles (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	vmet
	meteo v profiles (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	wmet
	meteo w profiles - unused More...
double precision, dimension(:,:), allocatable	ekmet
	meteo turbulent kinetic energy profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	epmet
	meteo turbulent dissipation profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	ttmet
	meteo temperature (Celsius) profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	qvmet
	meteo specific humidity profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	ncmet
	meteo specific droplet number profile (read in the input meteo file) More...
double precision, dimension(:), allocatable	pmer
	Sea level pressure (read in the input meteo file) More...
double precision, dimension(:), allocatable	xmet
	X axis coordinates of the meteo profile (read in the input meteo file) More...
double precision, dimension(:), allocatable	ymet
	Y axis coordinates of the meteo profile (read in the input meteo file) More...
double precision, dimension(:,:), allocatable	rmet
	density profile More...
double precision, dimension(:,:), allocatable	tpmet
	potential temperature profile More...
double precision, dimension(:,:), pointer	phmet
	hydrostatic pressure from Laplace integration More...
integer, save	iymw
	total water content (for humid atmosphere) More...
integer, save	intdrp = -1
	intdrp—> total number of droplets (for humid atmosphere) More...
integer, save	itempc
	temperature (in Celsius) More...
integer, save	iliqwt
	liquid water content More...
integer, save	imomst
	momentum source term field id (useful when iatmst > 0) More...
integer(c_int), pointer, save	imeteo
	flag for reading the meteo input file More...
integer(c_int), pointer, save	nbmetd
	numbers of altitudes for the dynamics More...
integer(c_int), pointer, save	nbmett
	numbers of altitudes for the temperature and specific humidity More...
integer(c_int), pointer, save	nbmetm
	numbers of time steps for the meteo profiles More...
integer, dimension(nozppm), save	iprofm
	read zone boundary conditions from profile More...
integer, dimension(:), allocatable, target	iautom
	automatic inlet/outlet boundary condition flag (0: not auto (default); 1,2: auto) When meteo momentum source terms are activated (iatmst > 0), iautom = 1 corresponds to a Dirichlet on the pressure and a Neumann on the velocity, whereas iautom = 2 imposes a Dirichlet on both pressure and velocity More...
integer, save	initmeteo
	use meteo profile for variables initialization (0: not used; 1: used (default)) More...
integer(c_int), pointer, save	iatmst
	add a momentum source term based on the meteo profile for automatic open boundaries More...
integer, save	theo_interp
	flag for meteo velocity field interpolation More...
real(c_double), pointer, save	ps
	reference pressure (to compute potential temp: 1.0d+5) More...
integer(c_int), pointer, save	syear
	starting year More...
integer(c_int), pointer, save	squant
	starting quantile More...
integer(c_int), pointer, save	shour
	starting hour More...
integer(c_int), pointer, save	smin
	starting min More...
real(c_double), pointer, save	ssec
	starting second More...
real(c_double), pointer, save	xlon
	longitude of the domain origin More...
real(c_double), pointer, save	xlat
	latitude of the domain origin More...
real(c_double), pointer, save	xl93
	x coordinate of the domain origin in Lambert-93 More...
real(c_double), pointer, save	yl93
	y coordinate of the domain origin in Lambert-93 More...
integer(c_int), pointer, save	nbmaxt
	Number of vertical levels (cf. 1D radiative scheme. More...
integer, save	ihpm
	flag to compute the hydrostastic pressure by Laplace integration in the meteo profiles = 0 : bottom to top Laplace integration, based on P(sea level) (default) = 1 : top to bottom Laplace integration based on P computed for the standard atmosphere at z(nbmaxt) More...
integer, save	ivert
	flag for the definition of the vertical grid More...
integer, save	nvert
	number of vertical arrays More...
integer, save	kvert
	number of levels (up to the top of the domain) More...
integer, save	kmx
	Number of levels (up to 11000 m if ray1d used) (automatically computed) More...
real(c_double), pointer, save	meteo_zi
	Height of the boundary layer. More...
integer, save	iatra1
	flag for the use of the 1d atmo radiative model More...
integer, save	nfatr1
	1d radiative model pass frequency More...
integer, save	iqv0
	flag for the standard atmo humidity profile More...
integer, save	idrayi
	pointer for 1D infrared profile More...
integer, save	idrayst
	pointer for 1D solar profile More...
integer, save	igrid
	grid formed by 1D profiles More...
integer, save	irdu
	Flag for the computation of downward and upward infrared radiative fluxes 0: disabled 1: enabled. More...
double precision, dimension(:,:), allocatable	xyvert
	horizontal coordinates of the vertical grid More...
double precision, dimension(:), allocatable	zvert
	vertical grid for 1D radiative scheme initialize in cs_user_atmospheric_model.f90 More...
double precision, dimension(:), allocatable	acinfe
	absorption for CO2 + 03 More...
double precision, dimension(:), allocatable	dacinfe
	differential absorption for CO2 + 03 More...
double precision, dimension(:,:), allocatable	aco2
	absorption for CO2 only More...
double precision, dimension(:,:), allocatable	aco2s
double precision, dimension(:,:), allocatable	daco2
	differential absorption for CO2 only More...
double precision, dimension(:,:), allocatable	daco2s
double precision, dimension(:), allocatable	acsup
	idem acinfe, flux descendant More...
double precision, dimension(:), allocatable	acsups
double precision, dimension(:), allocatable	dacsup
	internal variable for 1D radiative model More...
double precision, dimension(:), allocatable	dacsups
double precision, dimension(:), allocatable	tauzq
	internal variable for 1D radiative model More...
double precision, dimension(:), allocatable	tauz
	internal variable for 1D radiative model More...
double precision, dimension(:), allocatable	zq
	internal variable for 1D radiative model More...
double precision, save	tausup
	internal variable for 1D radiative model More...
double precision, dimension(:), allocatable	zray
	internal variable for 1D radiative model More...
double precision, dimension(:,:), allocatable	rayi
double precision, dimension(:,:), allocatable	rayst
double precision, dimension(:,:), allocatable	iru
	Upward and downward radiative fluxes (infrared, solar) along each vertical. More...
double precision, dimension(:,:), allocatable	ird
double precision, dimension(:,:), allocatable	solu
double precision, dimension(:,:), allocatable	sold
integer, save	iatsoil
	iatsoil –> flag to use the ground model More...
double precision, save	w1ini
	Water content of the first ground reservoir. More...
double precision, save	w2ini
	Water content of the second ground reservoir. More...
logical(c_bool), pointer, save	compute_z_ground
	Do we compute z ground every where? More...
integer(c_int), pointer, save	modsub
	Option for subgrid models. More...
integer(c_int), pointer, save	moddis
	Option for liquid water content distribution models. More...
integer(c_int), pointer, save	modnuc
	Option for nucleation. More...
integer(c_int), pointer, save	modsedi
	sedimentation flag More...
integer(c_int), pointer, save	moddep
	deposition flag More...
double precision, save	sigc
	adimensional : sigc=0.53 other referenced values are 0.28, 0.15 More...
integer, save	init_at_chem
	force initilization in case of restart (this option is automatically set in lecamp) More...
integer, save	kopint
	key id for optimal interpolation More...
double precision, save	aod_o3_tot
	Aerosol optical properties. More...
double precision, save	aod_h2o_tot
	adimensional : aod_h2o_tot=0.10 other referenced values are 0.06, 0.08 More...
double precision, save	gaero_o3
	Asymmetry factor for O3 (non-dimensional) climatic value gaero_o3=0.66. More...
double precision, save	gaero_h2o
	Asymmetry factor for H2O (non-dimensional) climatic value gaero_h2o=0.64. More...
double precision, save	piaero_o3
	Single scattering albedo for O3 (non-dimensional) climatic value piaero_o3=0.84, other referenced values are 0.963. More...
double precision, save	piaero_h2o
	Single scattering albedo for H2O (non-dimensional) climatic value piaero_h2o=0.84, other referenced values are 0.964. More...
double precision, save	black_carbon_frac
	Fraction of Black carbon (non-dimensional): black_carbon_frac=1.d-8 for no BC. More...
double precision, save	zaero
	Maximal height for aerosol distribution on the vertical important should be <= zqq(kmray-1); in meters : referenced value: zaero=6000. More...

Function/Subroutine Documentation

atmo_get_meteo_file_name()

subroutine atincl::atmo_get_meteo_file_name

(

character(len=*), intent(out)

name

)

Return meteo file name.

Parameters

[out]

name

meteo file name

atmo_init()

subroutine atincl::atmo_init

(

)

Map fortran to C variables.

cs_atmo_get_auto_flag()

type(c_ptr) function atincl::cs_atmo_get_auto_flag

(

void

)

Return pointer to automatic face bc flag array.

Returns

auto_flag pointer to automatic boundary condition array

cs_mo_phih()

real(c_double) function atincl::cs_mo_phih	(	real(c_double), value	z,
		real(c_double), value	dlmo
	)

cs_mo_phim()

real(c_double) function atincl::cs_mo_phim	(	real(c_double), value	z,
		real(c_double), value	dlmo
	)

cs_mo_psih()

real(c_double) function atincl::cs_mo_psih	(	real(c_double), value	z,
		real(c_double), value	z0,
		real(c_double), value	dlmo
	)

cs_mo_psim()

real(c_double) function atincl::cs_mo_psim	(	real(c_double), value	z,
		real(c_double), value	z0,
		real(c_double), value	dlmo
	)

finalize_meteo()

subroutine atincl::finalize_meteo

(

)

Final step for deallocation.

init_atmo_autom()

subroutine atincl::init_atmo_autom

(

integer

nfabor

)

Initialisation of meteo data.

init_meteo()

subroutine atincl::init_meteo

(

)

Initialisation of meteo data.

mo_compute_from_thermal_diff()

subroutine atincl::mo_compute_from_thermal_diff	(	double precision	z,
		double precision	z0,
		double precision	du,
		double precision	dt,
		double precision	tm,
		double precision	gredu,
		double precision	dlmo,
		double precision	ustar
	)

Compute LMO, friction velocity ustar, friction temperature tstar from a thermal difference using Monin Obukhov.

Parameters

[in]	z	altitude
[in]	z0
[in]	du	velocity difference
[in]	dt	thermal difference
[in]	tm
[in]	gredu
[out]	dlmo	Inverse Monin Obukhov length
[out]	ustar	friction velocity

mo_compute_from_thermal_flux()

subroutine atincl::mo_compute_from_thermal_flux	(	double precision	z,
		double precision	z0,
		double precision	du,
		double precision	flux,
		double precision	tm,
		double precision	gredu,
		double precision	dlmo,
		double precision	ustar
	)

Compute LMO, friction velocity ustar, friction temperature tstar from a thermal flux using Monin Obukhov.

Parameters

[in]	z	altitude
[in]	z0
[in]	du	velocity difference
[in]	flux	thermal flux
[in]	tm
[in]	gredu
[out]	dlmo	Inverse Monin Obukhov length
[out]	ustar	friction velocity

mo_phih_n()

subroutine atincl::mo_phih_n	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

mo_phih_s()

subroutine atincl::mo_phih_s	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

mo_phih_u()

subroutine atincl::mo_phih_u	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

mo_phim_n()

subroutine atincl::mo_phim_n	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

Universal functions, for neutral (derivative function)

Parameters

[in]	z	altitude
[in]	dlmo	Inverse Monin Obukhov length
[out]	coef	function

mo_phim_s()

subroutine atincl::mo_phim_s	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

Universal functions of Cheng and Brutsaert 2005, for stable (derivative function)

Parameters

[in]	z	altitude
[in]	dlmo	inverse Monin Obukhov length
[out]	coef	function

mo_phim_u()

subroutine atincl::mo_phim_u	(	double precision	z,
		double precision	dlmo,
		double precision	coef
	)

Universal functions of Hogstrom 1988, for unstable (derivative function)

Parameters

[in]	z	altitude
[in]	dlmo	Monin Obukhov length
[out]	coef	function

mo_psih_n()

subroutine atincl::mo_psih_n	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)

mo_psih_s()

subroutine atincl::mo_psih_s	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)

mo_psih_u()

subroutine atincl::mo_psih_u	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)

mo_psim_n()

subroutine atincl::mo_psim_n	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)

mo_psim_s()

subroutine atincl::mo_psim_s	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)

mo_psim_u()

subroutine atincl::mo_psim_u	(	double precision	z,
		double precision	z0,
		double precision	dlmo,
		double precision	coef
	)