On the homogenization of multicomponent transport

Grégoire Allaire; Harsha Hutridurga

doi:10.3934/dcdsb.2015.20.2527

On the homogenization of multicomponent transport

Grégoire Allaire
, Harsha Hutridurga

University of Cambridge

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

Abstract

This paper is devoted to the homogenization of weakly coupled cooperative parabolic systems in strong convection regime with purely periodic coeficients. Our approach is to factor out oscillations from the solution via principal eigenfunctions of an associated spectral problem and to cancel any exponential decay in time of the solution using the principal eigenvalue of the same spectral problem. We employ the notion of two-scale convergence with drift in the asymptotic analysis of the factorized model as the lengthscale of the oscillations tends to zero. This combination of the factorization method and the method of two-scale convergence is applied to upscale an adsorption model for multicomponent ow in an heterogeneous porous medium.

Original language	English
Pages (from-to)	2527-2551
Number of pages	25
Journal	Discrete and Continuous Dynamical Systems - Series B
Volume	20
Issue number	8
DOIs	https://doi.org/10.3934/dcdsb.2015.20.2527
Publication status	Published - 1 Oct 2015

Keywords

Cooperative system
Homogenization
Multicomponent transport
Porous media
Reaction-diffusion

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10.3934/dcdsb.2015.20.2527

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title = "On the homogenization of multicomponent transport",

abstract = "This paper is devoted to the homogenization of weakly coupled cooperative parabolic systems in strong convection regime with purely periodic coeficients. Our approach is to factor out oscillations from the solution via principal eigenfunctions of an associated spectral problem and to cancel any exponential decay in time of the solution using the principal eigenvalue of the same spectral problem. We employ the notion of two-scale convergence with drift in the asymptotic analysis of the factorized model as the lengthscale of the oscillations tends to zero. This combination of the factorization method and the method of two-scale convergence is applied to upscale an adsorption model for multicomponent ow in an heterogeneous porous medium.",

keywords = "Cooperative system, Homogenization, Multicomponent transport, Porous media, Reaction-diffusion",

author = "Gr{\'e}goire Allaire and Harsha Hutridurga",

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AU - Hutridurga, Harsha

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N2 - This paper is devoted to the homogenization of weakly coupled cooperative parabolic systems in strong convection regime with purely periodic coeficients. Our approach is to factor out oscillations from the solution via principal eigenfunctions of an associated spectral problem and to cancel any exponential decay in time of the solution using the principal eigenvalue of the same spectral problem. We employ the notion of two-scale convergence with drift in the asymptotic analysis of the factorized model as the lengthscale of the oscillations tends to zero. This combination of the factorization method and the method of two-scale convergence is applied to upscale an adsorption model for multicomponent ow in an heterogeneous porous medium.

AB - This paper is devoted to the homogenization of weakly coupled cooperative parabolic systems in strong convection regime with purely periodic coeficients. Our approach is to factor out oscillations from the solution via principal eigenfunctions of an associated spectral problem and to cancel any exponential decay in time of the solution using the principal eigenvalue of the same spectral problem. We employ the notion of two-scale convergence with drift in the asymptotic analysis of the factorized model as the lengthscale of the oscillations tends to zero. This combination of the factorization method and the method of two-scale convergence is applied to upscale an adsorption model for multicomponent ow in an heterogeneous porous medium.

KW - Cooperative system

KW - Homogenization

KW - Multicomponent transport

KW - Porous media

KW - Reaction-diffusion

U2 - 10.3934/dcdsb.2015.20.2527

DO - 10.3934/dcdsb.2015.20.2527

M3 - Article

AN - SCOPUS:84939832950

SN - 1531-3492

VL - 20

SP - 2527

EP - 2551

JO - Discrete and Continuous Dynamical Systems - Series B

JF - Discrete and Continuous Dynamical Systems - Series B

IS - 8

ER -

On the homogenization of multicomponent transport

Abstract

Keywords

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