version 3.10-dev
h2o_mesitylene.hh
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1// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
2// vi: set et ts=4 sw=4 sts=4:
3//
4// SPDX-FileCopyrightInfo: Copyright © DuMux Project contributors, see AUTHORS.md in root folder
5// SPDX-License-Identifier: GPL-3.0-or-later
6//
12#ifndef DUMUX_BINARY_COEFF_H2O_MESITYLENE_HH
13#define DUMUX_BINARY_COEFF_H2O_MESITYLENE_HH
14
15#include <algorithm>
16
17#include <dune/common/math.hh>
18
21
22namespace Dumux::BinaryCoeff {
23
29{
30public:
37 template <class Scalar>
38 static Scalar henry(Scalar temperature)
39 {
40 // after Sanders
41 constexpr Scalar sanderH = 1.7e-1; // [M/atm]
42 //conversion to our Henry definition
43 Scalar dumuxH = sanderH / 101.325; // has now [(mol/m^3)/Pa]
44 dumuxH *= 18.02e-6; // multiplied by molar volume of reference phase = water
45 return 1.0/dumuxH; // [Pa]
46 }
47
53 template <class Scalar>
54 static Scalar gasDiffCoeff(Scalar temperature, Scalar pressure)
55 {
58
59 using std::clamp;
60 temperature = clamp(temperature, 1e-9, 500.0); // regularization
61 pressure = clamp(pressure, 0.0, 1e8); // regularization
62
63 using std::sqrt;
64 using std::pow;
65 using Dune::power;
66 using std::exp;
67 constexpr Scalar M_m = 1e3*Mesitylene::molarMass(); // [g/mol] molecular weight of mesitylene
68 constexpr Scalar M_w = 1e3*H2O::molarMass(); // [g/mol] molecular weight of water
69 constexpr Scalar Tb_m = 437.9; // [K] boiling temperature of mesitylen
70 constexpr Scalar Tb_w = 373.15; // [K] boiling temperature of water (at p_atm)
71 constexpr Scalar V_B_w = 18.0; // [cm^3/mol] LeBas molal volume of water
72
73 using std::cbrt;
74 const Scalar sigma_w = 1.18*cbrt(V_B_w); // charact. length of air
75 constexpr Scalar T_scal_w = 1.15*Tb_w; // [K] (molec. energy of attraction/Boltzmann constant)
76 constexpr Scalar V_B_m = 162.6; // [cm^3/mol] LeBas molal volume of mesitylen
77 const Scalar sigma_m = 1.18*cbrt(V_B_m); // charact. length of mesitylen
78 const Scalar sigma_wm = 0.5*(sigma_w + sigma_m);
79 constexpr Scalar T_scal_m = 1.15*Tb_m;
80 const Scalar T_scal_wm = sqrt(T_scal_w*T_scal_m);
81
82 using std::max;
83 Scalar T_star = temperature/T_scal_wm;
84 T_star = max(T_star, 1e-5); // regularization
85
86 const Scalar Omega = 1.06036/pow(T_star,0.1561) + 0.193/exp(T_star*0.47635)
87 + 1.03587/exp(T_star*1.52996) + 1.76474/exp(T_star*3.89411);
88 const Scalar B_ = 0.00217 - 0.0005*sqrt(1.0/M_w + 1.0/M_m);
89 const Scalar Mr = (M_w + M_m)/(M_w*M_m);
90 const Scalar D_wm = (B_*pow(temperature, 1.6)*sqrt(Mr))
91 /(1e-5*pressure*power(sigma_wm, 2)*Omega); // [cm^2/s]
92
93 return D_wm*1e-4; // [m^2/s]
94 }
95
103 template <class Scalar>
104 static Scalar liquidDiffCoeff(Scalar temperature, Scalar pressure)
105 {
106 return 1.e-9;
107 }
108};
109
110} // end namespace Dumux::BinaryCoeff
111
112#endif
Binary coefficients for water and mesitylene.
Definition: h2o_mesitylene.hh:29
static Scalar liquidDiffCoeff(Scalar temperature, Scalar pressure)
Diffusion coefficient for mesitylene in liquid water.
Definition: h2o_mesitylene.hh:104
static Scalar henry(Scalar temperature)
Henry coefficient for mesitylene in liquid water.
Definition: h2o_mesitylene.hh:38
static Scalar gasDiffCoeff(Scalar temperature, Scalar pressure)
Binary diffusion coefficient for molecular water and mesitylene.
Definition: h2o_mesitylene.hh:54
Material properties of pure water .
Definition: h2o.hh:49
mesitylene
Definition: mesitylene.hh:36
Material properties of pure water .
Properties of mesitylene.
Definition: air_mesitylene.hh:19
std::string temperature() noexcept
I/O name of temperature for equilibrium models.
Definition: name.hh:39
std::string pressure(int phaseIdx) noexcept
I/O name of pressure for multiphase systems.
Definition: name.hh:22