AN ENGQUIST-OSHER-TYPE SCHEME FOR CONSERVATION LAWS WITH DISCONTINUOUS FLUX ADAPTED TO FLUX CONNECTIONS

Burger, R; Karlsen KH; Towers JD

Abstract

We consider scalar conservation laws with the spatially varying flux H (x)f (u) + (1 - H (x))g (u), where H (x) is the Heaviside function and f and g are smooth nonlinear functions. Adimurthi, Mishra, and Veerappa Gowda [J. Hyperbolic Difier. Equ., 2 (2005), pp. 783-837] pointed out that such a conservation law admits many L 1 contraction semigroups, one for each so-called connection (A, B). Here we define entropy solutions of type (A, B) involving Kružkov-type entropy inequalities that can be adapted to any fixed connection (A, B). It is proved that these entropy inequalities imply the L 1 contraction property for L 8 solutions, in contrast to the "piecewise smooth" setting of Adimurthi, Mishra, and Veerappa Gowda. For a fixed connection, these entropy inequalities include a single adapted entropy of the type used by Audusse and Perthame [Proc. Roy. Soc. Edinburgh Sect. A, 135 (2005), pp. 253-265]. We prove convergence of a new difference scheme that approximates entropy solutions of type (A, B) for any connection (A, B) if a few parameters are varied. The scheme relies on a modification of the standard Engquist-Osher flux, is simple as no 2× 2 Riemann solver is involved, and is designed such that the steady-state solution connecting A to B is preserved. In contrast to most analyses of similar problems, our convergence proof is not based on the singular mapping or compensated compactness methods, but on standard spatial variation estimates away from the flux discontinuity. Some numerical examples are presented. © 2009 Society for Industrial and Applied Mathematics.

Más información

Título según WOS: AN ENGQUIST-OSHER-TYPE SCHEME FOR CONSERVATION LAWS WITH DISCONTINUOUS FLUX ADAPTED TO FLUX CONNECTIONS
Título según SCOPUS: An engquist-osher-type scheme for conservation laws with discontinuous flux adapted to flux connections
Título de la Revista: SIAM JOURNAL ON NUMERICAL ANALYSIS
Volumen: 47
Número: 3
Editorial: SIAM PUBLICATIONS
Fecha de publicación: 2009
Página de inicio: 1684
Página final: 1712
Idioma: English
URL: http://epubs.siam.org/doi/abs/10.1137/07069314X
DOI:

10.1137/07069314X

Notas: ISI, SCOPUS