Boundary formulations for high-order finite differences on staggered meshes
Discretizations of the compressible flow equations with flow variables defined at different staggered positions on a regular mesh have accuracy and stability advantages over standard collocated discretization, but implementation of boundary conditions is hampered without all flow variables available...
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| Published in | Computers & fluids Vol. 39; no. 8; pp. 1332 - 1344 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
01.09.2010
Elsevier |
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| Abstract | Discretizations of the compressible flow equations with flow variables defined at different staggered positions on a regular mesh have accuracy and stability advantages over standard collocated discretization, but implementation of boundary conditions is hampered without all flow variables available at any boundary point. Boundary schemes for implementation of the boundary conditions compatible with staggered mesh discretizations are considered in this study. We focus on a combination of fourth- and fifth-order schemes near the boundary that are stable when sixth-order centered schemes are used for the interior points. Characteristics-based formulations provide a physically meaningful treatment for all the variables, avoiding the use of extrapolation. However its application on staggered meshes has not been systematically studied and its implementation is unclear since this method requires collocation of all the variables at the boundary, which is not natural for standard staggered mesh formulations. We show that including all the flow variables at the boundary can be done in a way that does not affect resolution or accuracy of the formulation. Predictions based upon analysis with model equations are verified with a staggered mesh flow solver. |
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| AbstractList | Discretizations of the compressible flow equations with flow variables defined at different staggered positions on a regular mesh have accuracy and stability advantages over standard collocated discretization, but implementation of boundary conditions is hampered without all flow variables available at any boundary point. Boundary schemes for implementation of the boundary conditions compatible with staggered mesh discretizations are considered in this study. We focus on a combination of fourth- and fifth-order schemes near the boundary that are stable when sixth-order centered schemes are used for the interior points. Characteristics-based formulations provide a physically meaningful treatment for all the variables, avoiding the use of extrapolation. However its application on staggered meshes has not been systematically studied and its implementation is unclear since this method requires collocation of all the variables at the boundary, which is not natural for standard staggered mesh formulations. We show that including all the flow variables at the boundary can be done in a way that does not affect resolution or accuracy of the formulation. Predictions based upon analysis with model equations are verified with a staggered mesh flow solver. |
| Author | Freund, J.B. Topalian, V.D. |
| Author_xml | – sequence: 1 givenname: V.D. surname: Topalian fullname: Topalian, V.D. email: topalian@illinois.edu organization: Department of Mechanical Science and Engineering, University of Illinois at Urbana–Champaign, Urbana, IL 61801, USA – sequence: 2 givenname: J.B. surname: Freund fullname: Freund, J.B. email: jbfreund@illinois.edu organization: Department of Mechanical Science and Engineering, University of Illinois at Urbana–Champaign, Urbana, IL 61801, USA |
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| Keywords | Compact schemes High-order methods Staggered mesh Compressible flows Use boundary conditions Compressible fluid Taylor vortex Pipe flow Computational fluid dynamics Tollmien Schlichting wave Digital simulation Boundary conditions Staggered arrangement Modelling Mesh generation Numerical stability Navier-Stokes equations Finite difference method |
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| SubjectTerms | Accuracy Boundaries Boundary conditions Compact schemes Compressible flows Computational methods in fluid dynamics Discretization Exact sciences and technology Finite element method Fluid dynamics Fundamental areas of phenomenology (including applications) High-order methods Mathematical analysis Mathematical models Physics Staggered mesh Use boundary conditions |
| Title | Boundary formulations for high-order finite differences on staggered meshes |
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