Volume variables for the isothermal single-phase low-Re k-epsilons model.
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| template<class ElementSolution, class Problem, class Element, class SubControlVolume> |
| void | update (const ElementSolution &elemSol, const Problem &problem, const Element &element, const SubControlVolume &scv) |
| | Update all quantities for a given control volume.
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| template<class ElementSolution, class Problem, class Element, class SubControlVolume> |
| void | updateRANSProperties (const ElementSolution &elemSol, const Problem &problem, const Element &element, const SubControlVolume &scv) |
| | Update all turbulent quantities for a given control volume.
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| Scalar | calculateEddyViscosity () |
| | Returns the dynamic eddy viscosity \(\mathrm{[Pa s]}\).
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| Scalar | turbulentKineticEnergy () const |
| | Returns the turbulent kinetic energy \( m^2/s^2 \).
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| Scalar | dissipationTilde () const |
| | Returns an effective dissipation \( m^2/s^3 \).
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| Scalar | storedTurbulentKineticEnergy () const |
| | Returns the turbulent kinetic energy \( m^2/s^2 \).
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| Scalar | storedDissipationTilde () const |
| | Returns an effective dissipation \( m^2/s^3 \).
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| Scalar | stressTensorScalarProduct () const |
| | Returns the scalar product of the stress tensor.
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| const Scalar | reT () const |
| | Returns the \( Re_\textrm{T} \) value.
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| const Scalar | reY () const |
| | Returns the \( Re_\textrm{y} \) value.
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| const Scalar | cMu () const |
| | Returns the \( C_\mu \) constant.
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| const Scalar | sigmaK () const |
| | Returns the \( \sigma_\textrm{k} \) constant.
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| const Scalar | sigmaEpsilon () const |
| | Returns the \( \sigma_\varepsilon \) constant.
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| const Scalar | cOneEpsilon () const |
| | Returns the \( C_{1\tilde{\varepsilon}} \) constant.
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| const Scalar | cTwoEpsilon () const |
| | Returns the \( C_{2\tilde{\varepsilon}} \) constant.
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| const Scalar | dValue () const |
| | Returns the \( D \) value.
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| const Scalar | fMu () const |
| | Returns the \( f_\mu \) value.
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| const Scalar | fOne () const |
| | Returns the \( f_1 \) value.
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| const Scalar | fTwo () const |
| | Returns the \( f_2 \) value.
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| const Scalar | eValue () const |
| | Returns the \( E \) value.
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| template<class ElementSolution, class Problem, class Element, class SubControlVolume> |
| void | updateNavierStokesVolVars (const ElementSolution &elemSol, const Problem &problem, const Element &element, const SubControlVolume &scv) |
| | Update all quantities for a given control volume.
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| unsigned int | elementIdx () const |
| | Return the element Idx of the control volume.
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| DimVector | ccVelocityVector () const |
| | Return the velocity vector \(\mathrm{[m/s]}\) at the control volume center.
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| DimVector | velocityMaximum () const |
| | Return the maximum velocity vector \(\mathrm{[m/s]}\) of the wall segment.
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| DimVector | velocityMinimum () const |
| | Return the minimum velocity vector \(\mathrm{[m/s]}\) of the wall segment.
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| DimMatrix | velocityGradients () const |
| | Return the velocity gradients \(\mathrm{[1/s]}\) at the control volume center.
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| Scalar | wallDistance () const |
| | Return the wall distance \(\mathrm{[m]}\) of the control volume.
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| Scalar | karmanConstant () const |
| | Return the Karman constant.
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| Scalar | uStar () const |
| | Return the wall friction velocity \(\mathrm{[m/s]}\).
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| Scalar | yPlus () const |
| | Return the dimensionless wall distance \(\mathrm{[-]}\).
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| Scalar | uPlus () const |
| | Return the dimensionless velocity \(\mathrm{[-]}\).
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| Scalar | dynamicEddyViscosity () const |
| | Return the dynamic eddy viscosity \(\mathrm{[Pa s]}\) of the flow within the control volume.
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| Scalar | effectiveViscosity () const |
| | Return the effective dynamic viscosity \(\mathrm{[Pa s]}\) of the fluid within the control volume.
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| Scalar | kinematicEddyViscosity () const |
| | Return the kinematic eddy viscosity \(\mathrm{[m^2/s]}\) of the flow within the control volume.
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| Scalar | kinematicViscosity () const |
| | Return the kinematic viscosity \(\mathrm{[m^2/s]}\) of the fluid within the control volume.
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| template<class Problem> |
| void | calculateEddyDiffusivity (const Problem &problem) |
| | Calculates the eddy diffusivity \(\mathrm{[m^2/s]}\) based on the kinematic eddy viscosity and the turbulent Schmidt number.
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| template<class Problem, bool eB = enableEnergyBalance, typename std::enable_if_t< eB, int > = 0> |
| void | calculateEddyThermalConductivity (const Problem &problem) |
| | Calculates the eddy thermal conductivity \(\mathrm{[W/(m*K)]}\) based on the kinematic eddy viscosity and the turbulent Prandtl number.
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| template<class Problem, bool eB = enableEnergyBalance, typename std::enable_if_t<!eB, int > = 0> |
| void | calculateEddyThermalConductivity (const Problem &problem) |
| | Eddy thermal conductivity is zero for isothermal model.
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| Scalar | eddyDiffusivity () const |
| | Returns the eddy diffusivity \(\mathrm{[m^2/s]}\).
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| Scalar | eddyThermalConductivity () const |
| | Returns the eddy thermal conductivity \(\mathrm{[W/(m*K)]}\).
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| Scalar | effectiveDiffusionCoefficient (int phaseIdx, int compIIdx, int compJIdx) const |
| | Returns the binary diffusion coefficients for a phase in \([m^2/s]\).
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| template<bool eB = enableEnergyBalance, typename std::enable_if_t< eB, int > = 0> |
| Scalar | effectiveThermalConductivity () const |
| | Returns the effective thermal conductivity \(\mathrm{[W/(m*K)]}\) of the fluid-flow in the sub-control volume.
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