Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/45009

TitleSecond-order finite volume with hydrostatic reconstruction for tsunami simulation
Author(s)Clain, Stéphane
Reis, C.
Costa, R.
Figueiredo, Jorge Manuel
Baptista, M. A.
Miranda, J. M.
KeywordsSecond-order finite volume scheme with hydrostatic reconstruction
Nonconservative flux
tsunami
application to tsunami
finite volume scheme
hydrostatic reconstruction
second-order
Issue dateDec-2016
PublisherAmerican Geophysical Union
JournalJournal of Advances in Modeling Earth Systems
CitationClain, S., Reis, C., Costa, R., Figueiredo, J., Baptista, M. A., & Miranda, J. M. (2016). Second-order finite volume with hydrostatic reconstruction for tsunami simulation. Journal of Advances in Modeling Earth Systems. doi: 10.1002/2015ms000603
Abstract(s)Tsunami modeling commonly accepts the shallow water system as governing equations where the major difficulty is the correct treatment of the nonconservative term due to bathymetry variations. The finite volume method for solving the shallow water equations with such source terms has received great attention in the two last decades. The built-in conservation property, the capacity to correctly treat discontinuities, and the ability to handle complex bathymetry configurations preserving some steady state configurations (well-balanced scheme) make the method very efficient. Nevertheless, it is still a challenge to build an efficient numerical scheme, with very few numerical artifacts (e.g., small numerical diffusion, correct propagation of the discontinuities, accuracy, and robustness), to be used in an operational environment, and that is able to better capture the dynamics of the wet-dry interface and the physical phenomena that occur in the inundation area. In the first part of this paper, we present a new second-order finite volume code. The code is developed for the shallow water equations with a nonconservative term based on the hydrostatic reconstruction technology to achieve a well-balanced scheme and an adequate dry/wet interface treatment. A detailed presentation of the numerical method is given. In the second part of the paper, we highlight the advantages of the new numerical technique. We benchmark the numerical code against analytical, experimental, and field results to assess the robustness and the accuracy of the numerical code. Finally, we use the 28 February 1969 North East Atlantic tsunami to check the performance of the code with real data.
TypeArticle
URIhttp://hdl.handle.net/1822/45009
DOI10.1002/2015MS000603
ISSN1942-2466
e-ISSN1942-2466
Publisher versionhttp://agupubs.onlinelibrary.wiley.com/hub/journal/10.1002/(ISSN)1942-2466/
Peer-Reviewedyes
AccessOpen access
Appears in Collections:CMAT - Artigos em revistas com arbitragem / Papers in peer review journals

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