/*--------------------------------*- C++ -*----------------------------------*\
| =========                 |                                                 |
| \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox           |
|  \\    /   O peration     | Version:  5.0                                   |
|   \\  /    A nd           | Web:      www.OpenFOAM.org                      |
|    \\/     M anipulation  |                                                 |
\*---------------------------------------------------------------------------*/
FoamFile {
  version     4.0;
  format      ascii;
  class       dictionary;
  object      fieldsDescription;
}


volScalarField
{
    AField[0] "Pre-exponential factor of the pyrolysis reaction 0";
    AField[1] "Pre-exponential factor of the pyrolysis reaction 1";
    AField[2] "Pre-exponential factor of the pyrolysis reaction 2";
    Beta "Part of the storage mass flux [s]";
    C(gr) "Carbon (graphite), solid mass fraction";
    CO "Carbon monoxide, gaseous mass fraction";
    CO2 "Carbon dioxide, gaseous mass fraction";
    O2 "Oxygen, gaseous mass fraction";
    N2 "Nitrogen, gaseous mass fraction";
    Ediff "Flux transported by diffusion of the species [W/m3]";
    Dm[N2] "Nitrogen diffusion coefficient";
    Dm[O2] "Oxygen diffusion coefficient";
    Dm[CO2] "Carbon dioxide diffusion coefficient";
    Dm[CO] "Carbon monoxide diffusion coefficient";
    Dm[C(gr)] "Carbon (graphite) diffusion coefficient";
    M_g "Gaseous molar mass [kg/kmol]";
    RR.C(gr) "Carbon (graphite) reaction rates [kg/m3/s]";
    RR.CO "Carbon monoxide reaction rates [kg/m3/s]";
    RR.CO2 "Carbon dioxide reaction rates [kg/m3/s]";
    RR.N2 "Nitrogen reaction rates [kg/m3/s]";
    RR.O2 "Oxygen reaction rates [kg/m3/s]";
    T "Temperature [K]";
    Ta "Temperature [K]";
    Ta_old "Temperature of previous time step [K]";
    X[N2] "Nitrogen mole fraction";
    X[O2] "Oxygen mole fraction";
    X[CO2] "Carbon dioxide mole fraction";
    X[CO] "Carbon monoxide mole fraction";
    X[C(gr)] "Cargon (graphite) mole fraction";
    Y[N2] "Nitrogen mole fraction";
    Y[O2] "Oxygen mass fraction";
    Y[CO2] "Carbon dioxide mass fraction";
    Y[CO] "Carbon monoxide mass fraction";
    Y[C(gr)] "Carbon (graphite) mass fraction";
    Ydefault "Default mass fraction";
    Yold[N2] "Nitrogen mass fraction of previous time step";
    Yold[O2] "Oxygen mass fraction of previous time step";
    Yold[CO2] "Carbon dioxide mass fraction of previous time step";
    Yold[CO] "Carbon monoxide mass fraction of previous time step";
    Yold[C(gr)] "Carbon (graphite) mass fraction of previous time step";
    absorptivity "Absorptivity";
    blowingCorrection "Blowing correction";
    cp "Heat capacity [J/kg/K]";
    cp_g "Gas heat capacity [J/kg/K]";
    diffY[C(gr)] "Diffusive part of Carbon (graphite)";
    diffY[CO2] "Diffusive part of Carbon dioxide";
    diffY[CO] "Diffusive part of Carbon monoxide";
    diffY[N2] "Diffusive part of Nitrogen";
    diffY[O2] "Diffusive part of oxygen";
    emissivity "Emissivity";
    eps_g "Gaseous volume fraction";
    eps_s "Solid volume fraction";
    eps_s0 "Initial solid volume fraction";
    eps_s_phase0 "Initial solid volume fraction of phase 0";
    h "Enthalpy [J/kg]";
    hSpeciesField(N2) "Nitrogen enthalpy [J/kg]";
    hSpeciesField(O2) "Oxygen enthalpy [J/kg]";
    hSpeciesField(CO2) "Carbon dioxide enthalpy [J/kg]";
    hSpeciesField(CO) "Carbon monoxide enthalpy [J/kg]";
    hSpeciesField(C(gr)) "Carbon (graphite) enthalpy [J/kg]";
    h_bar "Average enthalpy [J/kg]";
    h_c "Carbon enthalpy [J/kg]";
    h_ew "Wall enthalpy using the environment composition [J/kg]";
    h_g "Gaseous enthalpy [J/kg]";
    mDotGw "Pyrolysis gas mass flux at the wall [kg/m2/s]";
    mu_g "Gaseous viscosity";
    omegaHeterogeneousEnergy "Heterogeneous energy [W/m3]";
    omegaHeterogeneousRate "Heterogeneous rate [kg/m3/s]"
        p "Pressure [Pa]";
    p_old "Pressure at the previous time step [Pa]";
    piTotal "Total pyrolysis production rate [kg/m3/s]";
    pyrolysisFlux "Pyrolysis flux [W/m3]";
    rT "Fiber radius [m]";
    rT0 "Initial fiber radius [m]";
    recession "Recession [m]";
    rho_ext "External solid density [kg/m3]";
    rho_g "Gaseous density [kg/m3]";
    rho_s "Solid density [kg/m3]";
    rho_c "Char density [kg/m3]";
    rho_v "Virgin material density [kg/m3]";
    k_g "Gaseaous thermal conductivity [W/m/K]";
    rho_s_phase1 "Solid density of phase 0 [kg/m3]";
    rhoeUeCH "Heat transfer coefficient [kg/m2/s]";
    siteDensity "Site density [kmol/m2]" ;
    siteDensityIni "Initial site density [kmol/m2]" ;
    specificSurface "Specific surface [1/m]";
    tau "Advancement of the pyrolysis";
    thermo:alpha "Thermal diffusivity [kg/m/s]";
    thermo:mu "Viscosity [kg/m/s]";
    thermo:psi "Compressibility [s2/m2]";
    thermo:psi_0 "Initial compressibility [s2/m2]";
    E "Young modulus of elasticity [Pa]";
    alpha "Thermal expansion coefficient [1/K]";
    lambda_sM "First Lam coefficient [Pa]";
    mu_sM "Second Lam Coefficient [Pa]";
    nu "Poissons's ration";
    sigmaEq "Von Mises stress [Pa]";
    EpsilonEq "Von Mises strain [Pa]";
}

volVectorField
{
    U "Velocity [m/s]: U=eps*vG";
    cellMotionU "Cell motion velocity [m/s]";
    initialPosition "Initial face center positions";
    mDotG "Pyrolysis gas mass flux [kg/m3/s]";
    vG "Gaseous velocity [m/s]";
    D "Displacement field [m]";
}

surfaceVectorField
{
    mDotGface "Pyrolysis gas mass flux interpolated at the surface [kg/m2/s]";
}

volTensorField
{
    Gamma "Part of the convective mass flux [s] : q_conv = dx . ( Gamma dx p )";
    K "Permeability [m2]";
    k "Thermal conductivity [W/m/K]";
    kijk "Thermal conductivity direction ijk";
    gradD "Gradient of displacement field";
}
