xref: /libCEED/examples/fluids/problems/densitycurrent.c (revision 1d5592410e85618bc90219351a01600c29cd94ba) 
1 // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors.
2 // All Rights Reserved. See the top-level LICENSE and NOTICE files for details.
3 //
4 // SPDX-License-Identifier: BSD-2-Clause
5 //
6 // This file is part of CEED:  http://github.com/ceed
7 
8 /// @file
9 /// Utility functions for setting up DENSITY_CURRENT
10 
11 #include "../qfunctions/densitycurrent.h"
12 
13 #include "../navierstokes.h"
14 
15 PetscErrorCode NS_DENSITY_CURRENT(ProblemData *problem, DM dm, void *ctx, SimpleBC bc) {
16   MPI_Comm                 comm = PETSC_COMM_WORLD;
17   User                     user = *(User *)ctx;
18   DensityCurrentContext    dc_ctx;
19   CeedQFunctionContext     density_current_context;
20   NewtonianIdealGasContext newtonian_ig_ctx;
21 
22   PetscFunctionBeginUser;
23   PetscCall(NS_NEWTONIAN_IG(problem, dm, ctx, bc));
24   PetscCall(PetscCalloc1(1, &dc_ctx));
25   // ------------------------------------------------------
26   //               SET UP DENSITY_CURRENT
27   // ------------------------------------------------------
28   CeedQFunctionContextDestroy(&problem->ics.qfunction_context);
29   problem->ics.qfunction     = ICsDC;
30   problem->ics.qfunction_loc = ICsDC_loc;
31 
32   // ------------------------------------------------------
33   //             Create the libCEED context
34   // ------------------------------------------------------
35   CeedScalar theta0 = 300.;   // K
36   CeedScalar thetaC = -15.;   // K
37   CeedScalar P0     = 1.e5;   // Pa
38   CeedScalar N      = 0.01;   // 1/s
39   CeedScalar rc     = 1000.;  // m (Radius of bubble)
40   PetscReal  center[3], dc_axis[3] = {0, 0, 0};
41   PetscReal  domain_min[3], domain_max[3], domain_size[3];
42   PetscCall(DMGetBoundingBox(dm, domain_min, domain_max));
43   for (PetscInt i = 0; i < 3; i++) domain_size[i] = domain_max[i] - domain_min[i];
44 
45   // ------------------------------------------------------
46   //              Command line Options
47   // ------------------------------------------------------
48   PetscOptionsBegin(comm, NULL, "Options for DENSITY_CURRENT problem", NULL);
49   PetscCall(PetscOptionsScalar("-theta0", "Reference potential temperature", NULL, theta0, &theta0, NULL));
50   PetscCall(PetscOptionsScalar("-thetaC", "Perturbation of potential temperature", NULL, thetaC, &thetaC, NULL));
51   PetscCall(PetscOptionsScalar("-P0", "Atmospheric pressure", NULL, P0, &P0, NULL));
52   PetscCall(PetscOptionsScalar("-N", "Brunt-Vaisala frequency", NULL, N, &N, NULL));
53   PetscCall(PetscOptionsScalar("-rc", "Characteristic radius of thermal bubble", NULL, rc, &rc, NULL));
54   for (PetscInt i = 0; i < 3; i++) center[i] = .5 * domain_size[i];
55   PetscInt n = problem->dim;
56   PetscCall(PetscOptionsRealArray("-center", "Location of bubble center", NULL, center, &n, NULL));
57   n = problem->dim;
58   PetscCall(PetscOptionsRealArray("-dc_axis",
59                                   "Axis of density current cylindrical anomaly, "
60                                   "or {0,0,0} for spherically symmetric",
61                                   NULL, dc_axis, &n, NULL));
62   {
63     PetscReal norm = PetscSqrtReal(PetscSqr(dc_axis[0]) + PetscSqr(dc_axis[1]) + PetscSqr(dc_axis[2]));
64     if (norm > 0) {
65       for (PetscInt i = 0; i < 3; i++) dc_axis[i] /= norm;
66     }
67   }
68 
69   PetscOptionsEnd();
70 
71   PetscScalar meter  = user->units->meter;
72   PetscScalar second = user->units->second;
73   PetscScalar Kelvin = user->units->Kelvin;
74   PetscScalar Pascal = user->units->Pascal;
75   rc                 = fabs(rc) * meter;
76   theta0 *= Kelvin;
77   thetaC *= Kelvin;
78   P0 *= Pascal;
79   N *= (1. / second);
80   for (PetscInt i = 0; i < 3; i++) center[i] *= meter;
81 
82   dc_ctx->theta0     = theta0;
83   dc_ctx->thetaC     = thetaC;
84   dc_ctx->P0         = P0;
85   dc_ctx->N          = N;
86   dc_ctx->rc         = rc;
87   dc_ctx->center[0]  = center[0];
88   dc_ctx->center[1]  = center[1];
89   dc_ctx->center[2]  = center[2];
90   dc_ctx->dc_axis[0] = dc_axis[0];
91   dc_ctx->dc_axis[1] = dc_axis[1];
92   dc_ctx->dc_axis[2] = dc_axis[2];
93 
94   CeedQFunctionContextGetData(problem->apply_vol_rhs.qfunction_context, CEED_MEM_HOST, &newtonian_ig_ctx);
95   dc_ctx->newtonian_ctx = *newtonian_ig_ctx;
96   CeedQFunctionContextRestoreData(problem->apply_vol_rhs.qfunction_context, &newtonian_ig_ctx);
97   CeedQFunctionContextCreate(user->ceed, &density_current_context);
98   CeedQFunctionContextSetData(density_current_context, CEED_MEM_HOST, CEED_USE_POINTER, sizeof(*dc_ctx), dc_ctx);
99   CeedQFunctionContextSetDataDestroy(density_current_context, CEED_MEM_HOST, FreeContextPetsc);
100   problem->ics.qfunction_context = density_current_context;
101 
102   PetscFunctionReturn(0);
103 }
104