26#ifndef SET_FREE_ENERGY_WALL_BOUNDARY_3D_H
27#define SET_FREE_ENERGY_WALL_BOUNDARY_3D_H
59template<
typename T,
typename DESCRIPTOR>
61 T alpha, T kappa1, T kappa2, T h1, T h2,
int latticeNumber);
64template<
typename T,
typename DESCRIPTOR>
66 T alpha, T kappa1, T kappa2, T h1, T h2,
int latticeNumber);
83template<
typename T,
typename DESCRIPTOR>
85 T alpha, T kappa1, T kappa2, T kappa3, T h1, T h2,T h3,
int latticeNumber);
88template<
typename T,
typename DESCRIPTOR>
90 T alpha, T kappa1, T kappa2, T kappa3, T h1, T h2, T h3,
int latticeNumber);
96template<
typename T,
typename DESCRIPTOR>
98 T addend,
int latticeNumber,
bool includeOuterCells=
false);
In this file the dynamic calls for the free energy model is implemented.
Top level namespace for all of OpenLB.
void setFreeEnergyWallBoundary(SuperLattice< T, DESCRIPTOR > &sLattice, SuperGeometry< T, 2 > &superGeometry, int material, T alpha, T kappa1, T kappa2, T h1, T h2, int latticeNumber)
Implementation of a wetting boundary condition for the ternary free energy model, consisting of a Bou...
Representation of a parallel 2D geometry – header file.