This class describes properties of a dummy gas, with all properties of 1.0 Use this name in the parameters file if needed. More...

#include <PureGas.h>

Inheritance diagram for FuelCellShop::Material::DummyGas:

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Collaboration diagram for FuelCellShop::Material::DummyGas:

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Public Member Functions
Constructors, destructor, and initialization
	DummyGas ()
	Constructor. More...

virtual	~DummyGas ()
	Destructor. More...

Accessors and info
virtual enMaterialID	get_ID () const
	This function returns a number from `enMaterialID` enumeration. More...

Public Member Functions inherited from FuelCellShop::Material::PureGas
const double &	get_molar_mass () const
	This function returns `molar_mass` [kg/mol]. More...

const double &	get_collision_diameter () const
	This function returns `collision_diameter` [Angstrom]. More...

const double &	get_eps_BY_k () const
	This function returns `eps_BY_k` (K). More...

const double &	get_Prandtl () const
	This function returns `Prandtl`. More...

const std::string &	get_chemical_formula () const
	This function returns `chemical_formula`. More...

const std::string &	get_dynamic_viscosity_mode () const
	This function returns `dynamic_viscosity_mode`. More...

const std::string &	get_bulk_viscosity_mode () const
	This function returns `bulk_viscosity_mode`. More...

const std::string &	get_thermal_conductivity_mode () const
	This function returns `thermal_conductivity_mode`. More...

const double	get_pressure (const double &density, const double &temperature) const
	This function returns pressure (Pa) of a pure ideal gas. More...

void	get_pressure (const std::vector< double > &density, const double &temperature, std::vector< double > &pressure) const
	This function returns pressure (Pa) of a pure ideal gas in the quadrature points of a mesh entity at a constant temperature (isothermal case). More...

void	get_pressure (const std::vector< double > &density, const std::vector< double > &temperature, std::vector< double > &pressure) const
	This function returns pressure (Pa) of a pure ideal gas in the quadrature points of a mesh entity at a variable temperature (non-isothermal case). More...

const double	get_Dpressure_Ddensity (const double &temperature) const
	This function returns $\quad \frac{\partial p}{\partial \rho} \quad$ of a pure ideal gas. More...

void	get_Dpressure_Ddensity (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns $\quad \frac{\partial p}{\partial \rho} \quad$ of a pure ideal gas in the quadrature points of a mesh entity. More...

const double	get_Dpressure_Dtemperature (const double &density) const
	This function returns $\quad \frac{\partial p}{\partial T} \quad$ of a pure ideal gas. More...

void	get_Dpressure_Dtemperature (const std::vector< double > &density, std::vector< double > &dst) const
	This function returns $\quad \frac{\partial p}{\partial T} \quad$ of a pure ideal gas in the quadrature points of a mesh entity. More...

const double	get_density (const double &temperature, const double &pressure, const double &molarMass) const
	This function returns density [kg/m^3] of a pure ideal gas. More...

const double	get_Sutherland_dynamic_viscosity (const double &temperature) const
	This function returns Sutherland dynamic viscosity [kg/(m s)] of a pure gas. More...

void	get_Sutherland_dynamic_viscosity (const std::vector< double > &temperature, std::vector< double > &dynamic_viscosity) const
	This function returns Sutherland dynamic viscosity [kg/(m s)] of a pure gas in the quadrature points of a mesh entity. More...

const double	get_DSutherland_dynamic_viscosity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the Sutherland dynamic viscosity of a pure gas. More...

void	get_DSutherland_dynamic_viscosity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the Sutherland dynamic viscosity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_ChapmanEnskog_dynamic_viscosity (const double &temperature) const
	This function returns Chapman Enskog dynamic viscosity [kg/(m s)] of a pure gas. More...

void	get_ChapmanEnskog_dynamic_viscosity (const std::vector< double > &temperature, std::vector< double > &dynamic_viscosity) const
	This function returns Chapman Enskog dynamic viscosity [kg/(m s)] of a pure gas in the quadrature points of a mesh entity. More...

const double	get_DChapmanEnskog_dynamic_viscosity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the Chapman Enskog dynamic viscosity of a pure gas. More...

void	get_DChapmanEnskog_dynamic_viscosity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the Chapman Enskog dynamic viscosity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_dynamic_viscosity (const double &temperature) const
	This function returns desired dynamic viscosity [kg/(m s)] of a pure gas. More...

void	get_dynamic_viscosity (const std::vector< double > &temperature, std::vector< double > &dynamic_viscosity) const
	This function returns desired dynamic viscosity [kg/(m s)] of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Ddynamic_viscosity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the desired dynamic viscosity of a pure gas. More...

void	get_Ddynamic_viscosity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \mu}{\partial T} \quad$ of the desired dynamic viscosity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_bulk_viscosity (const double &dynamic_viscosity) const
	This function returns desired bulk viscosity of a pure gas. More...

void	get_bulk_viscosity (const std::vector< double > &dynamic_viscosity, std::vector< double > &bulk_viscosity) const
	This function returns desired bulk viscosity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Dbulk_viscosity_Dtemperature (const double &src) const
	This function returns the first derivative $\quad \frac{\partial \lambda}{\partial T} \quad$ of the desired bulk viscosity of a pure gas. More...

void	get_Dbulk_viscosity_Dtemperature (const std::vector< double > &src, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \lambda}{\partial T} \quad$ of the desired bulk viscosity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Sutherland_thermal_conductivity (const double &temperature) const
	This function returns Sutherland thermal conductivity of a pure gas. More...

void	get_Sutherland_thermal_conductivity (const std::vector< double > &temperature, std::vector< double > &thermal_conductivity) const
	This function returns Sutherland thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_DSutherland_thermal_conductivity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the Sutherland thermal conductivity of a pure gas. More...

void	get_DSutherland_thermal_conductivity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the Sutherland thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_ChapmanEnskog_thermal_conductivity (const double &temperature) const
	This function returns Chapman Enskog thermal conductivity [W/(m K)] of a pure gas. More...

void	get_ChapmanEnskog_thermal_conductivity (const std::vector< double > &temperature, std::vector< double > &thermal_conductivity) const
	This function returns Chapman Enskog thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_DChapmanEnskog_thermal_conductivity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the Chapman Enskog thermal conductivity of a pure gas. More...

void	get_DChapmanEnskog_thermal_conductivity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the Chapman Enskog thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_thermal_conductivity (const double &temperature) const
	This function returns desired thermal conductivity [W/(m K)] of a pure gas. More...

void	get_thermal_conductivity (const std::vector< double > &temperature, std::vector< double > &thermal_conductivity) const
	This function returns desired thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Dthermal_conductivity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the desired thermal conductivity of a pure gas. More...

void	get_Dthermal_conductivity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \kappa}{\partial T} \quad$ of the desired thermal conductivity of a pure gas in the quadrature points of a mesh entity. More...

const double	get_molar_enthalpy (const double &temperature) const
	This function returns molar enthalpy [J/mol] of a pure gas. More...

void	get_molar_enthalpy (const std::vector< double > &temperature, std::vector< double > &molar_enthalpy) const
	This function returns molar enthalpy of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Dmolar_enthalpy_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial H}{\partial T} \quad$ of the molar enthalpy of a pure gas. More...

void	get_Dmolar_enthalpy_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial H}{\partial T} \quad$ of the molar enthalpy of a pure gas in the quadrature points of a mesh entity. More...

const double	get_D2molar_enthalpy_Dtemperature2 (const double &temperature) const
	This function returns the second derivative $\quad \frac{\partial^2 H}{\partial T^2} \quad$ of the molar enthalpy of a pure gas. More...

void	get_D2molar_enthalpy_Dtemperature2 (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the second derivative $\quad \frac{\partial^2 H}{\partial T^2} \quad$ of the molar enthalpy of a pure gas in the quadrature points of a mesh entity. More...

const double	get_water_vapor_saturation_pressure (const double &temperature) const
	This function returns saturation pressure [Pa] of water vapor. More...

void	get_water_vapor_saturation_pressure (const std::vector< double > &temperature, std::vector< double > &water_vapor_saturation_pressure) const
	This function returns saturation pressure of water vapor in the quadrature points of a mesh entity. More...

const double	get_Dwater_vapor_saturation_pressure_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial p_{\text{sat}}^{H_2O}}{\partial T} \quad$ of the saturation pressure of water vapor. More...

void	get_Dwater_vapor_saturation_pressure_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial p_{\text{sat}}^{H_2O}}{\partial T} \quad$ of the saturation pressure of water vapor in the quadrature points of a mesh entity. More...

const double	get_collision_integral (const double &temperature) const
	This function returns collision integral of a pure gas. More...

void	get_collision_integral (const std::vector< double > &temperature, std::vector< double > &collision_integral) const
	This function returns collision integral of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Dcollision_integral_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial \Omega_{\mu, \kappa}}{\partial T} \quad$ of the collision integral of a pure gas. More...

void	get_Dcollision_integral_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial \Omega_{\mu, \kappa}}{\partial T} \quad$ of the collision integral of a pure gas in the quadrature points of a mesh entity. More...

const double	get_specific_heat_capacity (const double &temperature) const
	This function returns specific heat capacity [J/(g C)] at constant pressure of a pure gas. More...

void	get_specific_heat_capacity (const std::vector< double > &temperature, std::vector< double > &specific_heat_capacity) const
	This function returns specific heat capacity at constant pressure of a pure gas in the quadrature points of a mesh entity. More...

const double	get_Dspecific_heat_capacity_Dtemperature (const double &temperature) const
	This function returns the first derivative $\quad \frac{\partial c_p}{\partial T} \quad$ of the specific heat capacity at constant pressure of a pure gas. More...

void	get_Dspecific_heat_capacity_Dtemperature (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the first derivative $\quad \frac{\partial c_p}{\partial T} \quad$ of the specific heat capacity at constant pressure of a pure gas in the quadrature points of a mesh entity. More...

const double	get_D2specific_heat_capacity_Dtemperature2 (const double &temperature) const
	This function returns the second derivative $\quad \frac{\partial^2 c_p}{\partial T^2} \quad$ of the specific heat capacity at constant pressure of a pure gas. More...

void	get_D2specific_heat_capacity_Dtemperature2 (const std::vector< double > &temperature, std::vector< double > &dst) const
	This function returns the second derivative $\quad \frac{\partial^2 c_p}{\partial T^2} \quad$ of the specific heat capacity at constant pressure of a pure gas in the quadrature points of a mesh entity. More...

virtual	~PureGas ()
	Destructor. More...

virtual void	declare_parameters (ParameterHandler &param) const
	Declare parameters. More...

virtual void	initialize (ParameterHandler &param)
	Initialize parameters. More...

Public Member Functions inherited from FuelCellShop::Material::BaseMaterial
void	set_derivative_flags (const std::vector< VariableNames > &flags)
	Set the names of FCST solution variables with respect to which you would like to compute the derivatives of material properties. More...

const std::string &	name_material () const
	Return the name of the layer. More...

virtual void	print_material_properties () const
	This function prints out the material properties. More...

Additional Inherited Members
Protected Member Functions inherited from FuelCellShop::Material::PureGas
	PureGas (const std::string &name)
	Constructor. More...

Protected Member Functions inherited from FuelCellShop::Material::BaseMaterial
	BaseMaterial ()
	Constructor. More...

	BaseMaterial (const std::string &name)
	Constructor. More...

virtual	~BaseMaterial ()
	Destructor. More...

Protected Attributes inherited from FuelCellShop::Material::PureGas
double	molar_mass
	Molar mass [kg/mol], $M \quad \left[ \frac{\text{kg}}{\text{mol}} \right]$ . More...

double	collision_diameter
	Collision diameter [Angstrom], $\sigma \quad \left[ \text{Angstrom} \right]$ . More...

double	eps_BY_k
	The maximum energy of attraction divided by the Boltzmann constant, $\frac{\epsilon}{k} \quad \left[ \text{K} \right]$ . More...

double	Prandtl
	Prandtl number, $\text{Pr}$ . More...

double	A_Sutherland
	Coefficient of the Sutherland dynamic viscosity formula, $A \quad \left[ \frac{\text{Pa sec}}{\text{K}^{1/2}} \right]$ . More...

double	B_Sutherland
	Coefficient of the Sutherland dynamic viscosity formula, $B \quad \left[ \text{K} \right]$ . More...

double	c_0
	Coefficient of the specific heat capacity at constant pressure formula, $c_0 \quad \left[ \frac{\text{J}}{\text{kg K}} \right]$ . More...

double	c_1
	Coefficient of the specific heat capacity at constant pressure formula, $c_1 \quad \left[ \frac{\text{J}}{\text{kg } \text{K}^2} \right]$ . More...

double	c_2
	Coefficient of the specific heat capacity at constant pressure formula, $c_2 \quad \left[ \frac{\text{J}}{\text{kg } \text{K}^3} \right]$ . More...

double	c_3
	Coefficient of the specific heat capacity at constant pressure formula, $c_3 \quad \left[ \frac{\text{J}}{\text{kg } \text{K}^4} \right]$ . More...

double	H_ref
	Coefficient of the molar enthalpy formula $H^{\text{ref}} \quad \left[ \frac{\text{J}}{\text{mol}} \right]$ . More...

double	T_ref
	Coefficient of the molar enthalpy formula $T^{\text{ref}} \quad \left[ \text{K} \right]$ . More...

std::string	chemical_formula
	Chemical formula of the pure gas. More...

std::string	dynamic_viscosity_mode

std::string	bulk_viscosity_mode

std::string	thermal_conductivity_mode

Protected Attributes inherited from FuelCellShop::Material::BaseMaterial
const std::string	name
	Name of the layer. More...

std::vector< VariableNames >	derivative_flags
	Flags for derivatives: These flags are used to request derivatives of material properties. More...