Numerical Model for the Simulation of Two-Dimensional Shallow-Water Flows of Arbitrary Topography

Author

Ai, Congfang ; Xing, Yan

Author_Institution

State Key Lab. of Coastal & offshore Eng., Dalian Univ. of Technol., Dalian, China

fYear

2012

fDate

27-30 May 2012

Firstpage

1

Lastpage

4

Abstract

A numerical model based on a second-order upwind finite volume method is developed for unsteady, two-dimensional, shallow-water flow over arbitrary topography with moving boundaries. The HLL approximate Riemann solver is used for the computation of inviscid flux functions, which makes it possible to handle discontinuous solutions. To prevent numerical truncation errors due to the pressure and bed slope terms from artificially accelerating quiescent water over an arbitrary bed, the classic HLL scheme is modified. In addition, a simple and efficient procedure is presented to simulate the movement of moving boundaries. The good quality of the results is illustrated by means of two shallow water flow test cases.

Keywords

geophysical fluid dynamics; shallow water equations; HLL approximate Riemann solver; arbitrary bed; arbitrary topography; artificially accelerating quiescent water; classic HLL scheme; inviscid flux functions; numerical truncation errors; second-order upwind finite volume method; shallow water flow test; two-dimensional shallow-water flows; Acceleration; Equations; Mathematical model; Numerical models; Surface topography; Water conservation;

fLanguage

English

Publisher

ieee

Conference_Titel

Engineering and Technology (S-CET), 2012 Spring Congress on

Conference_Location

Xian

Print_ISBN

978-1-4577-1965-3

Type

conf

DOI

10.1109/SCET.2012.6341931

Filename

6341931