Recently, the FORCE centred scheme for conservative hyperbolic multi-dimensional systems has been introduced in [34] and has been applied to Euler and relativistic MHD equations, solved on unstructured meshes. In this work we propose a modification of the FORCE scheme, named FORCE-Contact, that provides improved resolution of contact and shear waves. This paper presents the technique in full detail as applied to the two-dimensional homogeneous shallow water equations. The improvements due to the new method are particularly evident when an additional equation is solved for a tracer, since the modified scheme exactly resolves isolated and steady contact discontinuities. The improvement is considerable also for slowly moving contact discontinuities, for shear waves and for steady states in meandering channels. For these types of flow fields, the numerical results provided by the new FORCE-Contact scheme are comparable with, and sometimes better than, the results obtained from upwind schemes, such as Roes scheme for example. In a companion paper, a similar approach to restoring the missing contact wave and preserving well-balanced properties for non-conservative one- and two-layer shallow water equations is introduced. However, the procedure is general and it is in principle applicable to other multidimensional hyperbolic systems in conservative and non-conservative form, such as the Euler equations for compressible gas dynamics. © 2012 Elsevier Ltd.

Restoration of the contact surface in FORCE-type centred schemes I: Homogeneous two-dimensional shallow water equations / Canestrelli, A.; Toro, E. F.. - In: ADVANCES IN WATER RESOURCES. - ISSN 0309-1708. - 47:(2012), pp. 88-99. [10.1016/j.advwatres.2012.03.019]

Restoration of the contact surface in FORCE-type centred schemes I: Homogeneous two-dimensional shallow water equations

Toro E. F.
2012-01-01

Abstract

Recently, the FORCE centred scheme for conservative hyperbolic multi-dimensional systems has been introduced in [34] and has been applied to Euler and relativistic MHD equations, solved on unstructured meshes. In this work we propose a modification of the FORCE scheme, named FORCE-Contact, that provides improved resolution of contact and shear waves. This paper presents the technique in full detail as applied to the two-dimensional homogeneous shallow water equations. The improvements due to the new method are particularly evident when an additional equation is solved for a tracer, since the modified scheme exactly resolves isolated and steady contact discontinuities. The improvement is considerable also for slowly moving contact discontinuities, for shear waves and for steady states in meandering channels. For these types of flow fields, the numerical results provided by the new FORCE-Contact scheme are comparable with, and sometimes better than, the results obtained from upwind schemes, such as Roes scheme for example. In a companion paper, a similar approach to restoring the missing contact wave and preserving well-balanced properties for non-conservative one- and two-layer shallow water equations is introduced. However, the procedure is general and it is in principle applicable to other multidimensional hyperbolic systems in conservative and non-conservative form, such as the Euler equations for compressible gas dynamics. © 2012 Elsevier Ltd.
2012
Canestrelli, A.; Toro, E. F.
Restoration of the contact surface in FORCE-type centred schemes I: Homogeneous two-dimensional shallow water equations / Canestrelli, A.; Toro, E. F.. - In: ADVANCES IN WATER RESOURCES. - ISSN 0309-1708. - 47:(2012), pp. 88-99. [10.1016/j.advwatres.2012.03.019]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/332132
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