OGS
Adsorption::DensityNunez Class Reference

Detailed Description

Definition at line 17 of file DensityNunez.h.

#include <DensityNunez.h>

Inheritance diagram for Adsorption::DensityNunez:
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Collaboration diagram for Adsorption::DensityNunez:
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Public Member Functions

double getAdsorbateDensity (const double T_Ads) const override
 
double getAlphaT (const double T_Ads) const override
 
double characteristicCurve (const double A) const override
 
double dCharacteristicCurve (const double A) const override
 
- Public Member Functions inherited from Adsorption::AdsorptionReaction
double getEquilibriumLoading (const double p_Ads, const double T_Ads, const double M_Ads) const override
 
double getEnthalpy (const double p_Ads, const double T_Ads, const double M_Ads) const override
 
double getReactionRate (const double p_Ads, const double T_Ads, const double M_Ads, const double loading) const override
 
- Public Member Functions inherited from Adsorption::Reaction
virtual ~Reaction ()=default
 

Additional Inherited Members

- Static Public Member Functions inherited from Adsorption::AdsorptionReaction
static double getEvaporationEnthalpy (const double T_Ads)
 
static double getEquilibriumVapourPressure (const double T_Ads)
 
static double getMolarFraction (double xm, double M_this, double M_other)
 
static double dMolarFraction (double xm, double M_this, double M_other)
 
static double getLoading (const double rho_curr, const double rho_dry)
 
- Static Public Member Functions inherited from Adsorption::Reaction
static std::unique_ptr< ReactionnewInstance (BaseLib::ConfigTree const &conf)
 
- Protected Member Functions inherited from Adsorption::AdsorptionReaction

Member Function Documentation

◆ characteristicCurve()

double Adsorption::DensityNunez::characteristicCurve ( const double A) const
overridevirtual

Implements Adsorption::AdsorptionReaction.

Definition at line 72 of file DensityNunez.cpp.

73{
74 double W = curvePolyfrac(DensityNunez_c, A); // cm^3/g
75
76 if (W < 0.0)
77 {
78 W = 0.0; // TODO [CL] debug output
79 }
80
81 return W / 1.e3; // m^3/kg
82}
double curvePolyfrac(const double *coeffs, const double x)
Definition Adsorption.h:52

References Adsorption::curvePolyfrac().

◆ dCharacteristicCurve()

double Adsorption::DensityNunez::dCharacteristicCurve ( const double A) const
overridevirtual

Implements Adsorption::AdsorptionReaction.

Definition at line 84 of file DensityNunez.cpp.

85{
86 return dCurvePolyfrac(DensityNunez_c, A);
87}
double dCurvePolyfrac(const double *coeffs, const double x)
Definition Adsorption.h:61

References Adsorption::dCurvePolyfrac().

◆ getAdsorbateDensity()

double Adsorption::DensityNunez::getAdsorbateDensity ( const double T_Ads) const
overridevirtual

Implements Adsorption::AdsorptionReaction.

Definition at line 30 of file DensityNunez.cpp.

31{
32 // TODO admissible T range: 273.16 K <= T_Ads <= 633.15 K
33 const double a[] = {1.0644e3, -8.01905, 1.445348e-2, -4.19589e-6,
34 -4.5294e-9};
35 const double b[] = {-8.039e-3, 1.8698e-5, -2.3015e-8, 2.3809e-11,
36 -1.388e-14};
37 const double u =
38 a[0] + T_Ads * (a[1] + T_Ads * (a[2] + T_Ads * (a[3] + T_Ads * a[4])));
39 const double v =
40 1.0 +
41 T_Ads *
42 (b[0] +
43 T_Ads * (b[1] + T_Ads * (b[2] + T_Ads * (b[3] + T_Ads * b[4]))));
44 return u / v;
45}

◆ getAlphaT()

double Adsorption::DensityNunez::getAlphaT ( const double T_Ads) const
overridevirtual

Implements Adsorption::AdsorptionReaction.

Definition at line 48 of file DensityNunez.cpp.

49{
50 // TODO admissible T range: 273.16 K <= T_Ads <= 633.15 K
51 const double a[] = {1.0644e3, -8.01905, 1.445348e-2, -4.19589e-6,
52 -4.5294e-9};
53 const double b[] = {-8.039e-3, 1.8698e-5, -2.3015e-8, 2.3809e-11,
54 -1.388e-14};
55 const double u =
56 a[0] + T_Ads * (a[1] + T_Ads * (a[2] + T_Ads * (a[3] + T_Ads * a[4])));
57 const double v =
58 1.0 +
59 T_Ads *
60 (b[0] +
61 T_Ads * (b[1] + T_Ads * (b[2] + T_Ads * (b[3] + T_Ads * b[4]))));
62 const double du =
63 a[1] + T_Ads * (2.0 * a[2] + T_Ads * (3.0 * a[3] + T_Ads * 4.0 * a[4]));
64 const double dv =
65 b[0] + T_Ads * (2.0 * b[1] +
66 T_Ads * (3.0 * b[2] +
67 T_Ads * (4.0 * b[3] + T_Ads * 5.0 * b[4])));
68 return dv / v - du / u;
69}

The documentation for this class was generated from the following files: