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Hybrid finite element/volume method for 3D incompressible flows with heat transfer |
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| Authors: | Shahrouz Aliabadi Christopher Bigler Erdal Yilmaz Sridhar Palle Bela Soni |
| Affiliation: | 1. School of Engineering Northrop Grumman Center for High Performance Computing , Jackson State University , Jackson, MS, USA saliabadi@jsums.edu;3. Department of Naval Architecture and Marine Engineering , University of Michigan , Ann Arbor, MI, USA;4. School of Engineering Northrop Grumman Center for High Performance Computing , Jackson State University , Jackson, MS, USA |
| Abstract: | An implicit hybrid finite element (FE)/volume solver has been extended to incompressible flows coupled with the energy equation. The solver is based on the segregated pressure correction or projection method on staggered unstructured hybrid meshes. An intermediate velocity field is first obtained by solving the momentum equations with the matrix-free implicit cell-centred finite volume (FV) method. The pressure Poisson equation is solved by the node-based Galerkin FE method for an auxiliary variable. The auxiliary variable is used to update the velocity field and the pressure field. The pressure field is carefully updated by taking into account the velocity divergence field. Our current staggered-mesh scheme is distinct from other conventional ones in that we store the velocity components at cell centres and the auxiliary variable at vertices. The Generalized Minimal Residual (GMRES) matrix-free strategy is adapted to solve the governing equations in both FE and FV methods. The presented 2D and 3D numerical examples show the robustness and accuracy of the numerical method. |
| Keywords: | finite element finite volume incompressible flows heat transfer GMRES |