188626eedSJames Wright // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. 288626eedSJames Wright // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 388626eedSJames Wright // 488626eedSJames Wright // SPDX-License-Identifier: BSD-2-Clause 588626eedSJames Wright // 688626eedSJames Wright // This file is part of CEED: http://github.com/ceed 788626eedSJames Wright 888626eedSJames Wright /// @file 988626eedSJames Wright /// Utility functions for setting up Channel flow 1088626eedSJames Wright 1188626eedSJames Wright #include "../navierstokes.h" 1288626eedSJames Wright #include "../qfunctions/channel.h" 1388626eedSJames Wright 1488626eedSJames Wright #ifndef channel_context_struct 1588626eedSJames Wright #define channel_context_struct 1688626eedSJames Wright typedef struct ChannelContext_ *ChannelContext; 1788626eedSJames Wright struct ChannelContext_ { 1888626eedSJames Wright bool implicit; // !< Using implicit timesteping or not 1988626eedSJames Wright CeedScalar theta0; // !< Reference temperature 2088626eedSJames Wright CeedScalar P0; // !< Reference Pressure 2188626eedSJames Wright CeedScalar umax; // !< Centerline velocity 2288626eedSJames Wright CeedScalar center; // !< Y Coordinate for center of channel 2388626eedSJames Wright CeedScalar H; // !< Channel half-height 2488626eedSJames Wright CeedScalar B; // !< Body-force driving the flow 2588626eedSJames Wright struct NewtonianIdealGasContext_ newtonian_ctx; 2688626eedSJames Wright }; 2788626eedSJames Wright #endif 2888626eedSJames Wright 2988626eedSJames Wright PetscErrorCode NS_CHANNEL(ProblemData *problem, DM dm, void *setup_ctx, 3088626eedSJames Wright void *ctx) { 3188626eedSJames Wright 3288626eedSJames Wright PetscInt ierr; 3388626eedSJames Wright ierr = NS_NEWTONIAN_IG(problem, dm, setup_ctx, ctx); CHKERRQ(ierr); 3488626eedSJames Wright User user = *(User *)ctx; 3588626eedSJames Wright MPI_Comm comm = PETSC_COMM_WORLD; 3688626eedSJames Wright PetscFunctionBeginUser; 3788626eedSJames Wright ierr = PetscCalloc1(1, &user->phys->channel_ctx); CHKERRQ(ierr); 3888626eedSJames Wright 3988626eedSJames Wright // ------------------------------------------------------ 4088626eedSJames Wright // SET UP Channel 4188626eedSJames Wright // ------------------------------------------------------ 42*91e5af17SJed Brown problem->ics.qfunction = ICsChannel; 43*91e5af17SJed Brown problem->ics.qfunction_loc = ICsChannel_loc; 44*91e5af17SJed Brown problem->apply_inflow.qfunction = Channel_Inflow; 45*91e5af17SJed Brown problem->apply_inflow.qfunction_loc = Channel_Inflow_loc; 46*91e5af17SJed Brown problem->apply_outflow.qfunction = Channel_Outflow; 47*91e5af17SJed Brown problem->apply_outflow.qfunction_loc = Channel_Outflow_loc; 4888626eedSJames Wright problem->setup_ctx = SetupContext_CHANNEL; 4988626eedSJames Wright 5088626eedSJames Wright // -- Command Line Options 5188626eedSJames Wright CeedScalar umax = 10.; // m/s 5288626eedSJames Wright CeedScalar mu = .01; // Pa s, dynamic viscosity 5388626eedSJames Wright //TODO ^^ make optional/respect explicit user set 5488626eedSJames Wright CeedScalar theta0 = 300.; // K 5588626eedSJames Wright CeedScalar P0 = 1.e5; // Pa 5688626eedSJames Wright PetscOptionsBegin(comm, NULL, "Options for CHANNEL problem", NULL); 5788626eedSJames Wright ierr = PetscOptionsScalar("-umax", "Centerline velocity of the Channel", 5888626eedSJames Wright NULL, umax, &umax, NULL); CHKERRQ(ierr); 5988626eedSJames Wright ierr = PetscOptionsScalar("-theta0", "Wall temperature", 6088626eedSJames Wright NULL, theta0, &theta0, NULL); CHKERRQ(ierr); 6188626eedSJames Wright ierr = PetscOptionsScalar("-P0", "Pressure at outflow", 6288626eedSJames Wright NULL, P0, &P0, NULL); CHKERRQ(ierr); 6388626eedSJames Wright PetscOptionsEnd(); 6488626eedSJames Wright 6588626eedSJames Wright PetscScalar meter = user->units->meter; 6688626eedSJames Wright PetscScalar second = user->units->second; 6788626eedSJames Wright PetscScalar Kelvin = user->units->Kelvin; 6888626eedSJames Wright PetscScalar Pascal = user->units->Pascal; 6988626eedSJames Wright 7088626eedSJames Wright mu *= Pascal * second; 7188626eedSJames Wright theta0 *= Kelvin; 7288626eedSJames Wright P0 *= Pascal; 7388626eedSJames Wright umax *= meter / second; 7488626eedSJames Wright 7588626eedSJames Wright //-- Setup Problem information 7688626eedSJames Wright CeedScalar H, center; 7788626eedSJames Wright { 7888626eedSJames Wright PetscReal domain_min[3], domain_max[3], domain_size[3]; 7988626eedSJames Wright ierr = DMGetBoundingBox(dm, domain_min, domain_max); CHKERRQ(ierr); 8088626eedSJames Wright for (int i=0; i<3; i++) domain_size[i] = domain_max[i] - domain_min[i]; 8188626eedSJames Wright 8288626eedSJames Wright H = 0.5*domain_size[1]*meter; 8388626eedSJames Wright center = H + domain_min[1]*meter; 8488626eedSJames Wright } 8588626eedSJames Wright 8688626eedSJames Wright user->phys->channel_ctx->center = center; 8788626eedSJames Wright user->phys->channel_ctx->H = H; 8888626eedSJames Wright user->phys->channel_ctx->theta0 = theta0; 8988626eedSJames Wright user->phys->channel_ctx->P0 = P0; 9088626eedSJames Wright user->phys->channel_ctx->umax = umax; 9188626eedSJames Wright user->phys->channel_ctx->implicit = user->phys->implicit; 9288626eedSJames Wright user->phys->channel_ctx->B = -2*umax*mu/H; 9388626eedSJames Wright 9488626eedSJames Wright { 9588626eedSJames Wright // Calculate Body force 9688626eedSJames Wright CeedScalar cv = user->phys->newtonian_ig_ctx->cv, 9788626eedSJames Wright cp = user->phys->newtonian_ig_ctx->cp; 9888626eedSJames Wright CeedScalar Rd = cp - cv; 9988626eedSJames Wright CeedScalar rho = P0 / (Rd*theta0); 10088626eedSJames Wright CeedScalar g[] = {user->phys->channel_ctx->B / rho, 0., 0.}; 10188626eedSJames Wright ierr = PetscArraycpy(user->phys->newtonian_ig_ctx->g, g, 3); CHKERRQ(ierr); 10288626eedSJames Wright } 10388626eedSJames Wright user->phys->newtonian_ig_ctx->mu = mu; 10488626eedSJames Wright user->phys->channel_ctx->newtonian_ctx = *user->phys->newtonian_ig_ctx; 10588626eedSJames Wright 10688626eedSJames Wright PetscFunctionReturn(0); 10788626eedSJames Wright } 10888626eedSJames Wright 10988626eedSJames Wright PetscErrorCode SetupContext_CHANNEL(Ceed ceed, CeedData ceed_data, 11088626eedSJames Wright AppCtx app_ctx, SetupContext setup_ctx, Physics phys) { 11188626eedSJames Wright PetscFunctionBeginUser; 11288626eedSJames Wright PetscInt ierr; 11388626eedSJames Wright ierr = SetupContext_NEWTONIAN_IG(ceed, ceed_data, app_ctx, setup_ctx, phys); 11488626eedSJames Wright CHKERRQ(ierr); 11588626eedSJames Wright CeedQFunctionContextCreate(ceed, &ceed_data->channel_context); 11688626eedSJames Wright CeedQFunctionContextSetData(ceed_data->channel_context, CEED_MEM_HOST, 11788626eedSJames Wright CEED_USE_POINTER, 11888626eedSJames Wright sizeof(*phys->channel_ctx), phys->channel_ctx); 11988626eedSJames Wright phys->has_neumann = PETSC_TRUE; 12088626eedSJames Wright if (ceed_data->qf_ics) 12188626eedSJames Wright CeedQFunctionSetContext(ceed_data->qf_ics, ceed_data->channel_context); 12288626eedSJames Wright if (ceed_data->qf_apply_inflow) 12388626eedSJames Wright CeedQFunctionSetContext(ceed_data->qf_apply_inflow, ceed_data->channel_context); 12488626eedSJames Wright if (ceed_data->qf_apply_outflow) 12588626eedSJames Wright CeedQFunctionSetContext(ceed_data->qf_apply_outflow, 12688626eedSJames Wright ceed_data->channel_context); 12788626eedSJames Wright PetscFunctionReturn(0); 12888626eedSJames Wright } 129