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Asymptotic behavior of two-phase flows in heterogeneous porous media for capillarity depending only on space. I: Convergence to the optimal entropy solution. (English) Zbl 1219.35136

The author considers an immiscible two-phase flow in a heterogeneous one-dimensional porous medium. One supposes particularly that the capillary pressure field is discontinuous with respect to the space variable. The dependence of the capillary pressure on the oil saturation is supposed to be weak, at least for saturations which are not too close to 0 or 1. One studies the asymptotic behavior when the capillary pressure tends to a function which does not depend on the saturation. In this paper, the author shows that if the capillary forces at the spatial discontinuities are oriented in the same sense as the gravity forces, or if the two phases move in the same sense, then the saturation profile with capillary diffusion converges toward the unique optimal entropy solution to the hyperbolic scalar conservation law with discontinuous flux functions.

MSC:

35L65 Hyperbolic conservation laws
76S05 Flows in porous media; filtration; seepage
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