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unsaturated_laws.hpp

/* =============================================================================
Copyright (c) 2014 - 2016
F. Georget <fabieng@princeton.edu> Princeton University
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#ifndef SPECMICP_PHYSICS_UNSATURATEDLAWS_HPP
#define SPECMICP_PHYSICS_UNSATURATEDLAWS_HPP
//! \file physics/unsaturated_laws.hpp
//! \brief Common laws and models in unsaturated porous medium
#include "../types.hpp"
namespace specmicp {
namespace laws {
//! \brief Return the capillary pressure as function of the relative humidity
scalar_t SPECMICP_DLL_PUBLIC kelvin_equation(scalar_t rh);
//! \brief Return the relative humidity as function of the capillary pressure
scalar_t SPECMICP_DLL_PUBLIC invert_kelvin_equation(scalar_t pc);
//! \brief Capillary Pressure model used by V. Baroghel-Bouny et al.
//!
//! \f$ Pc(S_l) = a (S_l^{-b} - 1)^{1-1/b} \f$
//!
//! \param saturation the liquid saturation
//! \param a fitting coefficient, unit of pressure
//! \param b fitting coefficient, dimensioneless, >1
scalar_t SPECMICP_DLL_PUBLIC capillary_pressure_BaroghelBouny(
scalar_t saturation,
scalar_t a,
scalar_t b
);
//! \brief The Mualem model for relative liquid permeability
//!
//! \f$ k_{rl}(S_l) = \sqrt{S_l}\left(1 - \left(1-S_l^{1/m}\right)^m\right)^2 \f$
//!
//! \param saturation the liquid saturation
//! \param m a fitting coefficient
//!
//! In Baroghel-Bouny et al. m=1.0/b
scalar_t SPECMICP_DLL_PUBLIC relative_liquid_permeability_Mualem(
scalar_t saturation,
scalar_t m
);
//! \brief The mualem Model for relative gas permeability
//!
//! \f$ k_{rg} = \sqrt{1-S_l} \left(1 - S)l^{1/m} \right)^{2m}
scalar_t SPECMICP_DLL_PUBLIC relative_gas_permeability_Mualem(
scalar_t saturation,
scalar_t m
);
//! \brief Type of a model of the saturation
using saturation_model_f = std::function<scalar_t (scalar_t)>;
// FIXME don't work with GCC < 4.9.0
//! \brief Return a model function of the saturation
//!
//! \tparam F a model where saturation is the first parameter
//! \tparam ...Args Parameter pack representing the parameters of the model
//! \return a function taking only the saturation
//!
//! Bind the argument of the model
template <typename F, typename ...Args>
saturation_model_f make_saturation_model(F func, Args...args)
{
return [func,args...](scalar_t saturation) -> scalar_t {
return func(saturation, args...);
};
}
//! \brief Return a relative humidity model from a capillary pressure model
//!
//! Use the kelvin equation
inline saturation_model_f make_rh_model(saturation_model_f cap_pressure)
{
return [cap_pressure](scalar_t saturation) -> scalar_t {
return invert_kelvin_equation(cap_pressure(saturation));
};
}
} //end namespace laws
} //end namespace specmicp
#endif // SPECMICP_PHYSICS_UNSATURATEDLAWS_HPP

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