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W3200531659 endingPage "2316" @default.
W3200531659 startingPage "2316" @default.
W3200531659 abstract "In this paper, we propose a novel family of semi-implicit hybrid finite volume/finite element schemes for computational fluid dynamics (CFD), in particular for the approximate solution of the incompressible and compressible Navier-Stokes equations, as well as for the shallow water equations on staggered unstructured meshes in two and three space dimensions. The key features of the method are the use of an edge-based/face-based staggered dual mesh for the discretization of the nonlinear convective terms at the aid of explicit high resolution Godunov-type finite volume schemes, while pressure terms are discretized implicitly using classical continuous Lagrange finite elements on the primal simplex mesh. The resulting pressure system is symmetric positive definite and can thus be very efficiently solved at the aid of classical Krylov subspace methods, such as a matrix-free conjugate gradient method. For the compressible Navier-Stokes equations, the schemes are by construction asymptotic preserving in the low Mach number limit of the equations, hence a consistent hybrid FV/FE method for the incompressible equations is retrieved. All parts of the algorithm can be efficiently parallelized, i.e., the explicit finite volume step as well as the matrix-vector product in the implicit pressure solver. Concerning parallel implementation, we employ the Message-Passing Interface (MPI) standard in combination with spatial domain decomposition based on the free software package METIS. To show the versatility of the proposed schemes, we present a wide range of applications, starting from environmental and geophysical flows, such as dambreak problems and natural convection, over direct numerical simulations of turbulent incompressible flows to high Mach number compressible flows with shock waves. An excellent agreement with exact analytical, numerical or experimental reference solutions is achieved in all cases. Most of the simulations are run with millions of degrees of freedom on thousands of CPU cores. We show strong scaling results for the hybrid FV/FE scheme applied to the 3D incompressible Navier-Stokes equations, using millions of degrees of freedom and up to 4096 CPU cores. The largest simulation shown in this paper is the well-known 3D Taylor-Green vortex benchmark run on 671 million tetrahedral elements on 32,768 CPU cores, showing clearly the suitability of the presented algorithm for the solution of large CFD problems on modern massively parallel distributed memory supercomputers." @default.
W3200531659 created "2021-09-27" @default.
W3200531659 creator A5015873076 @default.
W3200531659 creator A5051559583 @default.
W3200531659 creator A5071843670 @default.
W3200531659 date "2021-09-18" @default.
W3200531659 modified "2023-10-12" @default.
W3200531659 title "A Massively Parallel Hybrid Finite Volume/Finite Element Scheme for Computational Fluid Dynamics" @default.
W3200531659 cites W1964233075 @default.
W3200531659 cites W1966158133 @default.
W3200531659 cites W1970212576 @default.
W3200531659 cites W1971166309 @default.
W3200531659 cites W1972094824 @default.
W3200531659 cites W1977925899 @default.
W3200531659 cites W1983575728 @default.
W3200531659 cites W1984450680 @default.
W3200531659 cites W1987613862 @default.
W3200531659 cites W1988644412 @default.
W3200531659 cites W1991230797 @default.
W3200531659 cites W2000761206 @default.
W3200531659 cites W2004951603 @default.
W3200531659 cites W2012887032 @default.
W3200531659 cites W2016730552 @default.
W3200531659 cites W2019992531 @default.
W3200531659 cites W2020863487 @default.
W3200531659 cites W2021810545 @default.
W3200531659 cites W2022659432 @default.
W3200531659 cites W2023688680 @default.
W3200531659 cites W2029015215 @default.
W3200531659 cites W2031043673 @default.
W3200531659 cites W2044385973 @default.
W3200531659 cites W2045935120 @default.
W3200531659 cites W2046899724 @default.
W3200531659 cites W2047119298 @default.
W3200531659 cites W2047612590 @default.
W3200531659 cites W2051708601 @default.
W3200531659 cites W2051909379 @default.
W3200531659 cites W2052487661 @default.
W3200531659 cites W2052787204 @default.
W3200531659 cites W2054154406 @default.
W3200531659 cites W2055857105 @default.
W3200531659 cites W2065842177 @default.
W3200531659 cites W2065852546 @default.
W3200531659 cites W2073256259 @default.
W3200531659 cites W2077186677 @default.
W3200531659 cites W2081177856 @default.
W3200531659 cites W2081998841 @default.
W3200531659 cites W2084306653 @default.
W3200531659 cites W2088432459 @default.
W3200531659 cites W2089064341 @default.
W3200531659 cites W2091137172 @default.
W3200531659 cites W2093842327 @default.
W3200531659 cites W2095769218 @default.
W3200531659 cites W2108236244 @default.
W3200531659 cites W2108294845 @default.
W3200531659 cites W2109940529 @default.
W3200531659 cites W2118462315 @default.
W3200531659 cites W2118922968 @default.
W3200531659 cites W2122177687 @default.
W3200531659 cites W2129124839 @default.
W3200531659 cites W2262511075 @default.
W3200531659 cites W2283904712 @default.
W3200531659 cites W2285719521 @default.
W3200531659 cites W2312950224 @default.
W3200531659 cites W2316564661 @default.
W3200531659 cites W2317734184 @default.
W3200531659 cites W2511639346 @default.
W3200531659 cites W2561255327 @default.
W3200531659 cites W2571332716 @default.
W3200531659 cites W2582103697 @default.
W3200531659 cites W2591803957 @default.
W3200531659 cites W2600651690 @default.
W3200531659 cites W2620947379 @default.
W3200531659 cites W2763573170 @default.
W3200531659 cites W2768132714 @default.
W3200531659 cites W2777698842 @default.
W3200531659 cites W2783647117 @default.
W3200531659 cites W2885166097 @default.
W3200531659 cites W2886210973 @default.
W3200531659 cites W2896140828 @default.
W3200531659 cites W2946545004 @default.
W3200531659 cites W2948092086 @default.
W3200531659 cites W2956026950 @default.
W3200531659 cites W2993685123 @default.
W3200531659 cites W3000187499 @default.
W3200531659 cites W3046516866 @default.
W3200531659 cites W3099239898 @default.
W3200531659 cites W3124126614 @default.
W3200531659 cites W3140478212 @default.
W3200531659 cites W3195649670 @default.
W3200531659 cites W3215266649 @default.
W3200531659 cites W4241554575 @default.
W3200531659 cites W4244931065 @default.
W3200531659 cites W4245037559 @default.
W3200531659 cites W4361863164 @default.
W3200531659 cites W84759582 @default.
W3200531659 doi "https://doi.org/10.3390/math9182316" @default.
W3200531659 hasPublicationYear "2021" @default.