27 #ifndef OPM_BINARY_COEFF_H2O_N2_HPP
28 #define OPM_BINARY_COEFF_H2O_N2_HPP
37 namespace BinaryCoeff {
51 template <
class Evaluation>
52 static Evaluation
henry(
const Evaluation& temperature)
54 const double E = 2388.8777;
55 const double F = -14.9593;
56 const double G = 42.0179;
57 const double H = -29.4396;
59 return henryIAPWS(E, F, G, H, temperature);
69 template <
class Evaluation>
70 static Evaluation
gasDiffCoeff(
const Evaluation& temperature,
const Evaluation& pressure)
76 const double SigmaNu[2] = { 13.1 , 18.5 };
80 return fullerMethod(M, SigmaNu, temperature, pressure);
101 template <
class Evaluation>
104 const double Texp = 273.15 + 25;
105 const double Dexp = 2.01e-9;
107 return Dexp * temperature/Texp;
Material properties of pure water .
Definition: H2O.hpp:61
static Evaluation henry(const Evaluation &temperature)
Henry coefficent for molecular nitrogen in liquid water.
Definition: H2O_N2.hpp:52
Properties of pure molecular nitrogen .
Definition: N2.hpp:48
static Evaluation liquidDiffCoeff(const Evaluation &temperature, const Evaluation &)
Diffusion coefficent for molecular nitrogen in liquid water.
Definition: H2O_N2.hpp:102
Binary coefficients for water and nitrogen.
Definition: H2O_N2.hpp:43
Material properties of pure water .
static Scalar molarMass()
The molar mass in of molecular nitrogen.
Definition: N2.hpp:62
The IAPWS formulation of Henry coefficients in water.
Properties of pure molecular nitrogen .
static Evaluation gasDiffCoeff(const Evaluation &temperature, const Evaluation &pressure)
Binary diffusion coefficent for molecular water and nitrogen.
Definition: H2O_N2.hpp:70
static const Scalar molarMass()
The molar mass in of water.
Definition: H2O.hpp:80