Functions
double	R ()
	Universal gas constant, $R = 8.314462176 \quad \left[ \frac{\text{J}}{\text{mol K}} \right]$ . More...

double	F ()
	Faraday constant, $F = 9.648533992 \cdot 10^4 \quad \left[ \frac{\text{C}}{\text{mol}} \right]$ . More...

double	Pi ()
	$\pi = 3.141592654$ . More...

double	E0 ()
	Permittivity of free space, $\epsilon_0 = 8.854187818 \cdot 10^{-12} \quad \left[ \frac{\text{F}}{\text{m}} \right]$ . More...

double	K ()
	Boltzmann constant, $k = 8.617332478 \cdot 10^{-5} \quad \left[ \frac{\text{eV}}{\text{K}} \right]$ . More...

const dealii::Tensor< 1, dim >	gravity_acceleration ()
	Gravitational acceleration, $\mathbf{g} = \{ g_{\alpha} \}_{\alpha = 1}^d \quad \text{such that} \quad \forall \alpha \neq d : \quad g_{\alpha} = 0 \quad \left[ \frac{\text{m}}{\text{sec}^2} \right] \quad \text{and} \quad g_d = -9.81 \quad \left[ \frac{\text{m}}{\text{sec}^2} \right]$ . More...

const dealii::SymmetricTensor < 2, dim >	unit_tensor ()
	Unit tensor, $\hat{ \mathbf{I} } = \{ \delta_{\alpha \beta} \}_{\alpha,\beta = 1}^d$ . More...

double	A_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	B_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	C_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	D_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	E_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	F_vk ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity). More...

double	A_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	B_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	C_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	D_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	E_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	F_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	G_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	H_diff ()
	Coefficient of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity). More...

double	b_0 ()
	Coefficient of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula. More...

double	b_1 ()
	Coefficient $b_1 = 2.9530 \cdot 10^{-2}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula. More...

double	b_2 ()
	Coefficient $b_2 = -9.1837 \cdot 10^{-5}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula. More...

double	b_3 ()
	Coefficient $b_3 = 1.4454 \cdot 10^{-7}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula. More...

Function Documentation

double Constants::A_diff ( )

inline

Coefficient $ A = 1.06036 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::A_vk ( )

inline

Coefficient $ A = 1.16145 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::b_0 ( )

inline

Coefficient $ b_0 = -2.1794 $ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula.

double Constants::b_1 ( )

inline

Coefficient $b_1 = 2.9530 \cdot 10^{-2}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula.

double Constants::b_2 ( )

inline

Coefficient $b_2 = -9.1837 \cdot 10^{-5}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula.

double Constants::b_3 ( )

inline

Coefficient $b_3 = 1.4454 \cdot 10^{-7}$ of the Springer-Zawodzinski-Gottesfeld water vapor saturation pressure formula.

double Constants::B_diff ( )

inline

Coefficient $ B = 0.15610 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::B_vk ( )

inline

Coefficient $ B = 0.14874 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::C_diff ( )

inline

Coefficient $ C = 0.19300 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::C_vk ( )

inline

Coefficient $ C = 0.52487 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::D_diff ( )

inline

Coefficient $ D = 0.47635 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::D_vk ( )

inline

Coefficient $ D = 0.77320 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::E0 ( )

inline

Permittivity of free space, $\epsilon_0 = 8.854187818 \cdot 10^{-12} \quad \left[ \frac{\text{F}}{\text{m}} \right]$ .

Referenced by FuelCellShop::MicroScale::AgglomerateBase::AgglomerateBase().

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double Constants::E_diff ( )

inline

Coefficient $ E = 1.03587 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::E_vk ( )

inline

Coefficient $ E = 2.16178 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::F ( )

inline

Faraday constant, $F = 9.648533992 \cdot 10^4 \quad \left[ \frac{\text{C}}{\text{mol}} \right]$ .

Referenced by FuelCellShop::MicroScale::AgglomerateBase::AgglomerateBase(), FuelCellShop::Kinetics::BaseKinetics::BaseKinetics(), and FuelCellShop::Equation::ReactionHeat::initialize_factors().

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double Constants::F_diff ( )

inline

Coefficient $ F = 1.52996 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::F_vk ( )

inline

Coefficient $ F = 2.43787 $ of the Neufeld-Jansen-Aziz collision integrals formula (viscosity and thermal conductivity).

double Constants::G_diff ( )

inline

Coefficient $ G = 1.76474 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

const dealii::Tensor<1,dim> Constants::gravity_acceleration ( )

inline

Gravitational acceleration, $\mathbf{g} = \{ g_{\alpha} \}_{\alpha = 1}^d \quad \text{such that} \quad \forall \alpha \neq d : \quad g_{\alpha} = 0 \quad \left[ \frac{\text{m}}{\text{sec}^2} \right] \quad \text{and} \quad g_d = -9.81 \quad \left[ \frac{\text{m}}{\text{sec}^2} \right]$ .

References dim.

double Constants::H_diff ( )

inline

Coefficient $ H = 3.89411 $ of the Neufeld-Jansen-Aziz collision integrals formula (diffusivity).

double Constants::K ( )

inline

Boltzmann constant, $k = 8.617332478 \cdot 10^{-5} \quad \left[ \frac{\text{eV}}{\text{K}} \right]$ .

Referenced by FuelCellShop::Kinetics::BaseKinetics::BaseKinetics().

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