A finite volume method for a two-phase multicomponent polymer flooding

A finite volume method for a two-phase multicomponent polymer flooding

Multicomponent polymer flooding used in enhanced oil recovery is governed by a system of coupled non-strictly hyperbolic conservation laws. In the presence of gravity, the flux functions need not be monotone and hence designing Godunov type upwind schemes is difficult and computationally expensive....

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Veröffentlicht in:Journal of computational physics 2014-10, Vol.275, p.667-695
Hauptverfasser: K, Sudarshan Kumar, C, Praveen, D Veerappa Gowda, G.
Format: Artikel
Sprache:eng
Schlagworte:
Computation
Conservation laws
Discontinuous flux
Finite volume
Flux
Joining
Mathematical analysis
Maximum principle
Multicomponent
Polymer flooding
Riemann problems
Scalars
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Zusammenfassung:Multicomponent polymer flooding used in enhanced oil recovery is governed by a system of coupled non-strictly hyperbolic conservation laws. In the presence of gravity, the flux functions need not be monotone and hence designing Godunov type upwind schemes is difficult and computationally expensive. To overcome this difficulty, we use the basic idea of discontinuous flux to reduce the coupled system into an uncoupled system of scalar conservation laws with discontinuous coefficients. For these scalar equations we use the DFLU flux developed in [5] to construct a second order scheme. The scheme is shown to satisfy a maximum principle and the performance of the scheme is shown on both one and two dimensional test problems.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2014.07.014