Sources

Collaboration diagram for Sources:

## Classes | |

class | acousticDampingSource |

Acoustic damping source. More... | |

class | actuationDiskSource |

Actuation disk source. More... | |

class | buoyancyEnergy |

Calculates and applies the buoyancy energy source rho*(U&g) to the energy equation. More... | |

class | buoyancyForce |

Calculates and applies the buoyancy force rho*g to the momentum equation corresponding to the specified velocity field. More... | |

class | directionalPressureGradientExplicitSource |

Creates 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, in which the heat exchanger is defined as an energy source using a selection of cells. More... | |

class | explicitPorositySource |

Explicit porosity source. More... | |

class | jouleHeatingSource |

Evolves an electrical potential equation. More... | |

class | meanVelocityForce |

Calculates and applies the force necessary to maintain the specified mean velocity. More... | |

class | radialActuationDiskSource |

Actuation disk source including radial thrust. More... | |

class | rotorDiskSource |

Rotor disk source. More... | |

class | solidificationMeltingSource |

This source is designed to model the effect of solidification and melting processes, e.g. windhield defrosting. The phase change occurs at the melting temperature, `Tmelt` . More... | |

class | tabulatedAccelerationSource |

Solid-body 6-DoF acceleration source. More... | |

class | viscousDissipation |

Calculates and applies the viscous dissipation energy source to the energy equation. More... | |

class | codedSource |

Constructs on-the-fly fvOption source. More... | |

class | SemiImplicitSource< Type > |

Semi-implicit source, described using an input dictionary. The injection rate coefficients are specified as pairs of Su-Sp coefficients, i.e. More... | |

class | interRegionExplicitPorositySource |

Inter-region explicit porosity source. More... | |

class | constantHeatTransfer |

Constant heat transfer model. htcConst [W/m2/K] and area/volume [1/m] must be provided. More... | |

class | interRegionHeatTransferModel |

Base class for inter region heat exchange. The derived classes must provide the heat transfer coeffisine (htc) which is used as follows in the energy equation. More... | |

class | tabulatedHeatTransfer |

Tabulated heat transfer model. The heat exchange area per unit volume must be provided. The 2D table returns the heat transfer coefficient by querying the local and neighbour region velocities. More... | |

class | tabulatedNTUHeatTransfer |

Tabulated heat transfer model. More... | |

class | variableHeatTransfer |

Variable heat transfer model depending on local values. The area of contact between regions (area) must be provided. The Nu number is calculated as: More... | |

class | multiphaseMangrovesSource |

class | multiphaseMangrovesTurbulenceModel |

This group contains finite volume sources