Better bounding on topo change
[foam-extend-3.2.git] / tutorials / multiSolver / multiSolverDemo / teeFitting2d / system / multiFvSchemes
blob23c909a7ddbd556e2903d7943de278183e6b54b5
1 /*--------------------------------*- C++ -*----------------------------------*\
2 | =========                 |                                                 |
3 | \\      /  F ield         | foam-extend: Open Source CFD                    |
4 |  \\    /   O peration     | Version:     3.2                                |
5 |   \\  /    A nd           | Web:         http://www.foam-extend.org         |
6 |    \\/     M anipulation  |                                                 |
7 \*---------------------------------------------------------------------------*/
8 FoamFile
10     version     2.0;
11     format      ascii;
12     class       dictionary;
13     object      multiFvSchemes;
15 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
16 dictionaryName  fvSchemes;
18 multiSolver
20     icoFoam1
21     {
22         ddtSchemes
23         {
24             default         Euler;
25         }
27         gradSchemes
28         {
29             default         Gauss linear;
30             grad(p)         Gauss linear;
31         }
33         divSchemes
34         {
35             default         none;
36             div(phi,U)      Gauss linear;
37         }
39         laplacianSchemes
40         {
41             default         none;
42             laplacian(nu,U) Gauss linear corrected;
43             laplacian((1|A(U)),p) Gauss linear corrected;
44         }
46         interpolationSchemes
47         {
48             default         linear;
49             interpolate(HbyA) linear;
50         }
52         snGradSchemes
53         {
54             default         corrected;
55         }
57         fluxRequired
58         {
59             default         no;
60             p;
61         }
62     }
64     icoFoam2
65     {
66         ddtSchemes
67         {
68             default         Euler;
69         }
71         gradSchemes
72         {
73             default         Gauss linear;
74             grad(p)         Gauss linear;
75         }
77         divSchemes
78         {
79             default         none;
80             div(phi,U)      Gauss linear;
81         }
83         laplacianSchemes
84         {
85             default         none;
86             laplacian(nu,U) Gauss linear corrected;
87             laplacian((1|A(U)),p) Gauss linear corrected;
88         }
90         interpolationSchemes
91         {
92             default         linear;
93             interpolate(HbyA) linear;
94         }
96         snGradSchemes
97         {
98             default         corrected;
99         }
101         fluxRequired
102         {
103             default         no;
104             p;
105         }
106     }
108     scalarTransportFoam
109     {
110          ddtSchemes
111         {
112             default none;
113             ddt(T)  Euler;
114         }
116         gradSchemes
117         {
118             default         Gauss linear;
119         }
121         divSchemes
122         {
123             default         none;
124             div(phi,T)      Gauss upwind;
125         }
127         laplacianSchemes
128         {
129             default         none;
130             laplacian(DT,T) Gauss linear corrected;
131         }
133         interpolationSchemes
134         {
135             default         linear;
136         }
138         snGradSchemes
139         {
140             default         corrected;
141         }
143         fluxRequired
144         {
145             default         no;
146         }
147    }
150 // ************************************************************************* //