The open source CFD toolbox
Sources
Collaboration diagram for Sources:

## Classes

class  atmAmbientTurbSource
Applies sources on k and either epsilon or omega to prevent them droping below a specified ambient value for atmospheric boundary layer modelling. Such adjustment reportedly increases numerical stability for very stable atmospheric stability conditions, and prevents nonphysical oscillations in regions of low shear at higher altitudes. More...

class  atmBuoyancyTurbSource
Applies sources on k and either epsilon or omega to incorporate effects of buoyancy for atmospheric boundary layer modelling. More...

class  atmLengthScaleTurbSource
Applies sources on either epsilon or omega to correct mixing-length scale estimations for atmospheric boundary layer modelling. More...

class  atmNutSource
Adds/subtracts a given artificial turbulent viscosity field to/from nut for atmospheric boundary layer modelling. More...

class  atmPlantCanopyTSource
Applies sources on temperature, i.e. T, to incorporate effects of plant canopy for atmospheric boundary layer modelling. More...

class  atmPlantCanopyTurbSource
Applies sources on either epsilon or omega to incorporate effects of plant canopy for atmospheric boundary layer modelling. More...

class  atmPlantCanopyUSource
Applies sources on velocity, i.e. U, to incorporate effects of plant canopy for atmospheric boundary layer modelling. More...

class  acousticDampingSource
Applies sources on velocity (i.e. U) within a specified region to enable acoustic damping. More...

class  actuationDiskSource
Applies sources on velocity (i.e. U) within a specified region to enable actuator disk models for aero/hydro thrust loading of horizontal axis turbines on surrounding flow field in terms of energy conversion processes. More...

class  buoyancyEnergy
Applies buoyancy energy sources (i.e. Sb) to the energy equation for compressible flows. More...

class  buoyancyForce
Applies buoyancy force sources (i.e. Sf) to the momentum equation for incompressible and compressible flows. More...

class  buoyancyTurbSource
Applies sources on turbulent kinetic energy (i.e. k) and either turbulent kinetic energy dissipation rate (i.e. epsilon) or specific dissipation rate (i.e. omega) to incorporate effects of buoyancy on turbulence in incompressible and compressible flows. More...

Applies an explicit pressure gradient source in such a way to deflect the flow towards an specific direction (flowDir). Alternatively add an extra pressure drop in the flowDir direction using a model. More...

class  effectivenessHeatExchangerSource
Heat exchanger source model for compressible flows, in which the heat exchanger is defined as an energy source using a selection of cells. More...

class  explicitPorositySource
Applies an explicit porosity source to the momentum equation within a specified region. More...

class  jouleHeatingSource
Evolves an electrical potential equation. More...

class  meanVelocityForce
Applies the force within a specified region to maintain the specified mean velocity for incompressible flows. More...

class  multiphaseStabilizedTurbulence
Applies corrections to the turbulent kinetic energy equation (i.e. k) and turbulent viscosity field (i.e. nut) for incompressible multiphase flow cases. More...

Applies sources on velocity field (i.e. U) within a specified region to enable actuator disk models with radial thrust distribution for aero/hydro thrust loading of horizontal axis turbines on surrounding flow field in terms of energy conversion processes. More...

class  rotorDiskSource
Applies cell-based momentum sources on velocity (i.e. U) within a specified cylindrical region to approximate the mean effects of rotor forces. More...

class  solidificationMeltingSource
This source is designed to model the effect of solidification and melting processes, e.g. windhield defrosting, within a specified region. The phase change occurs at the melting temperature, Tmelt. More...

class  tabulatedAccelerationSource
Solid-body 6-DoF acceleration source. More...

class  viscousDissipation
Applies a viscous dissipation energy source to the energy equation. More...

class  codedSource
Constructs on-the-fly fvOption source. More...

class  SemiImplicitSource< Type >
Applies semi-implicit source within a specified region for Type, where <Type>=Scalar/Vector/SphericalTensor/SymmTensor/Tensor. The injection rate coefficients are specified as pairs of Su-Sp coefficients, i.e.: More...

class  interRegionExplicitPorositySource
Applies inter-region explicit porosity source. More...

class  constantHeatTransfer
Applies a constant heat transfer model for inter-region heat exchanges. More...

class  interRegionHeatTransferModel
Intermediate class for handling inter-region heat exchanges. More...

class  tabulatedHeatTransfer
Applies a tabulated heat transfer model for inter-region heat exchanges. More...

class  tabulatedNTUHeatTransfer
Applies a tabulated heat transfer model for inter-region heat exchanges. The heat flux is calculated based on the Number of Thermal Units (NTU). More...

class  variableHeatTransfer
Applies a variable heat transfer model depending on local values for inter-region heat exchanges. More...

class  multiphaseMangrovesSource

class  multiphaseMangrovesTurbulenceModel

## Detailed Description

This group contains finite volume sources