A unsplitting finite volume method for models with stiff relaxation source terms

Eduardo Abreu; Abel Bustos; Wanderson Lambert

doi:10.1007/s00574-016-0118-1

A unsplitting finite volume method for models with stiff relaxation source terms

Eduardo Abreu, Abel Bustos, Wanderson Lambert

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We developed an unsplitting finite volume scheme to account the delicate nonlinear balance between numerical approximations of the hyperbolic flux function and the source linked to balance laws. The method is Riemann-solver-free and no upwinding technique is used. By means of this new approach, we conducted an analysis for two new models of balance laws linked to compositional and thermal flow in porous media problems, under and without a thermodynamic equilibrium hypothesis. For concreteness, we adopt the nitrogen and steam injection models in a porous media. To this model we found an interesting behavior linked to the relaxation term, which is the existence of a non-monotonic traveling wave. We applied this numerical technique to others well-known differential models with relaxation terms available in the literature. Qualitatively we were able to reproduce the expected results.

Original language	English
Pages (from-to)	5-20
Number of pages	16
Journal	Bulletin of the Brazilian Mathematical Society
Volume	47
Issue number	1
DOIs	https://doi.org/10.1007/s00574-016-0118-1
State	Published - 01 Mar 2016
Externally published	Yes

Keywords

Euler equations
balance laws
finite volume
friction
gravity
unsplitting scheme

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10.1007/s00574-016-0118-1

Cite this

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abstract = "We developed an unsplitting finite volume scheme to account the delicate nonlinear balance between numerical approximations of the hyperbolic flux function and the source linked to balance laws. The method is Riemann-solver-free and no upwinding technique is used. By means of this new approach, we conducted an analysis for two new models of balance laws linked to compositional and thermal flow in porous media problems, under and without a thermodynamic equilibrium hypothesis. For concreteness, we adopt the nitrogen and steam injection models in a porous media. To this model we found an interesting behavior linked to the relaxation term, which is the existence of a non-monotonic traveling wave. We applied this numerical technique to others well-known differential models with relaxation terms available in the literature. Qualitatively we were able to reproduce the expected results.",

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T1 - A unsplitting finite volume method for models with stiff relaxation source terms

AU - Abreu, Eduardo

AU - Bustos, Abel

AU - Lambert, Wanderson

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N2 - We developed an unsplitting finite volume scheme to account the delicate nonlinear balance between numerical approximations of the hyperbolic flux function and the source linked to balance laws. The method is Riemann-solver-free and no upwinding technique is used. By means of this new approach, we conducted an analysis for two new models of balance laws linked to compositional and thermal flow in porous media problems, under and without a thermodynamic equilibrium hypothesis. For concreteness, we adopt the nitrogen and steam injection models in a porous media. To this model we found an interesting behavior linked to the relaxation term, which is the existence of a non-monotonic traveling wave. We applied this numerical technique to others well-known differential models with relaxation terms available in the literature. Qualitatively we were able to reproduce the expected results.

AB - We developed an unsplitting finite volume scheme to account the delicate nonlinear balance between numerical approximations of the hyperbolic flux function and the source linked to balance laws. The method is Riemann-solver-free and no upwinding technique is used. By means of this new approach, we conducted an analysis for two new models of balance laws linked to compositional and thermal flow in porous media problems, under and without a thermodynamic equilibrium hypothesis. For concreteness, we adopt the nitrogen and steam injection models in a porous media. To this model we found an interesting behavior linked to the relaxation term, which is the existence of a non-monotonic traveling wave. We applied this numerical technique to others well-known differential models with relaxation terms available in the literature. Qualitatively we were able to reproduce the expected results.

KW - Euler equations

KW - balance laws

KW - finite volume

KW - friction

KW - gravity

KW - unsplitting scheme

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A unsplitting finite volume method for models with stiff relaxation source terms

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Keywords

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