Classes | |
class | sorptionWallFunctionFvPatchScalarField |
The sorptionWallFunction is a wall boundary condition to specify scalar/concentration gradient for turbulent and laminar flows. More... | |
class | epsilonWallFunctionFvPatchScalarField |
This boundary condition provides wall functions for the turbulent kinetic energy dissipation rate (i.e. epsilon ) and the turbulent kinetic energy production contribution (i.e. G ) for low- and high-Reynolds number simulations. More... | |
class | kLowReWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the turbulent kinetic energy (i.e. k ) for low- and high-Reynolds number simulations. More... | |
class | kqRWallFunctionFvPatchField< Type > |
This boundary condition provides a simple wrapper around the zero-gradient condition, which can be used for the turbulent kinetic energy (i.e. k ), square-root of turbulent kinetic energy (i.e. q ) and Reynolds stress symmetric-tensor fields (i.e. R ) for the cases of high Reynolds number flow using wall functions. It is not a wall-function condition. More... | |
class | nutkRoughWallFunctionFvPatchScalarField |
This boundary condition provides a wall-function for the turbulent viscosity (i.e. nut ) when using wall functions for rough walls, based on the turbulent kinetic energy (i.e. k ). The condition manipulates the wall roughness parameter (i.e. E ) to account for roughness effects. More... | |
class | nutkWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the turbulent viscosity (i.e. nut ) based on the turbulent kinetic energy, (i.e. k ) for for low- and high-Reynolds number applications. More... | |
class | nutLowReWallFunctionFvPatchScalarField |
This boundary condition provides a simple wrapper around a zero fixed-value condition for the turbulent viscosity (i.e. nut ) for low-Reynolds number applications. It sets nut to zero, and provides an access function to calculate y+ . More... | |
class | nutUBlendedWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the turbulent viscosity (i.e. nut ) based on velocity (i.e. U ) using a binomial-function wall-function blending method between the viscous and inertial sublayer predictions of nut for low- and high-Reynolds number applications. More... | |
class | nutURoughWallFunctionFvPatchScalarField |
This boundary condition provides a wall function on the turbulent viscosity (i.e. nut ) based on velocity (i.e. U ) for low- and high-Reynolds number applications for rough walls. More... | |
class | nutUSpaldingWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the turbulent viscosity (i.e. nut ) based on velocity (i.e. U ). Using Spalding's law gives a continuous nut profile to the wall. More... | |
class | nutUTabulatedWallFunctionFvPatchScalarField |
This boundary condition provides a wall constraint on the turbulent viscosity (i.e. nut ) based on velocity (i.e. U ), for low- and high-Reynolds number applications. More... | |
class | nutUWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the turbulent viscosity (i.e. nut ) based on velocity (i.e. U ) for low- and high-Reynolds number applications. More... | |
class | nutWallFunctionFvPatchScalarField |
The class nutWallFunction is an abstract base class that hosts calculation methods and common functions for nut wall-function boundary conditions. More... | |
class | omegaWallFunctionFvPatchScalarField |
This boundary condition provides a wall function for the specific dissipation rate (i.e. omega ) and the turbulent kinetic energy production contribution (i.e. G ) for low- and high-Reynolds number applications. More... | |
This group contains turbulence model wall functions