CONVERGENCE OF AN UPSTREAM FINITE-VOLUME SCHEME FOR A NONLINEAR HYPERBOLIC EQUATION ON A TRIANGULAR MESH

Authors
CHAMPIER S GALLOUET T HERBIN R
Citation
S. Champier et al., CONVERGENCE OF AN UPSTREAM FINITE-VOLUME SCHEME FOR A NONLINEAR HYPERBOLIC EQUATION ON A TRIANGULAR MESH, Numerische Mathematik, 66(2), 1993, pp. 139-157
Citations number
11
Categorie Soggetti
Mathematics,Mathematics
Journal title
Numerische MathematikACNP
ISSN journal
0029599X
Volume
66
Issue
2
Year of publication
1993
Pages
139 - 157
Database
ISI
SICI code
0029-599X(1993)66:2<139:COAUFS>2.0.ZU;2-M
Abstract
We study here the discretisation of the nonlinear hyperbolic equation u(t) + div(vf(u)) = 0 in R2 x R+, with given initial condition u(., 0) = u0(.) in R2, where v is a function from R2 X R+ to R2 such that div v = 0 and f is a given nondecreasing function from R to R. An explicit Euler scheme is used for the time discretisation of the equation, and a triangular mesh for the spatial discretisation. Under a usual stabi lity condition, we prove the convergence of the solution given by an u pstream finite volume scheme towards the unique entropy weak solution to the equation.