Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/57483

TitleVery high-order accurate finite volume scheme on curved boundaries for the two-dimensional steady-state convection–diffusion equation with Dirichlet condition
Author(s)Costa, Ricardo Daniel Pereira da
Clain, Stéphane
Loubère, Raphaël
Machado, Gaspar J.
KeywordsVery high-order finite volume method
Curved boundaries
Reconstruction for Off-site Data (ROD)
Issue date2018
PublisherElsevier
JournalApplied Mathematical Modelling
Abstract(s)Accuracy may be dramatically reduced when the boundary domain is curved and numeri- cal schemes require a specific treatment of the boundary condition to preserve the optimal order. In the finite volume context, Ollivier-Gooch and Van Altena (2002) has proposed a technique to overcome such limitation and restore the very high-order accuracy which consists in specific restrictions considered in the least-squares minimization associated to the polynomial reconstruction. The method suffers from several drawbacks, particularly, the use of curved elements that requires sophisticated meshing algorithms. We propose a new method where the physical domain and the computational domain are distinct and we introduce the Reconstruction for Off-site Data (ROD) where polynomial reconstructions are carried out on the mesh using data localized outside of the computational domain, namely the Dirichlet condition situated on the physical domain. A series of numerical tests assess the accuracy, convergence rates, robustness, and efficiency of the new method and show that the boundary condition is fully integrated in the scheme with a very high-order accuracy and the optimal convergence rate is achieved.
Typearticle
URIhttp://hdl.handle.net/1822/57483
DOI10.1016/j.apm.2017.10.016
ISSN0307-904X
Peer-Reviewedyes
AccessembargoedAccess (1 Year)
Appears in Collections:CMAT - Artigos em revistas com arbitragem / Papers in peer review journals

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