Unfolding-based corrector estimates for a reaction-diffusion system predicting concrete corrosion

Tasnim Fatima; Adrian Muntean; Mariya Ptashnyk

doi:10.1080/00036811.2011.625016

Unfolding-based corrector estimates for a reaction-diffusion system predicting concrete corrosion

Tasnim Fatima, Adrian Muntean, Mariya Ptashnyk^*

^*Corresponding author for this work

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

23 Citations (Scopus)

Abstract

We use the periodic unfolding technique to derive corrector estimates for a reaction-diffusion system describing concrete corrosion penetration in the sewer pipes. The system, defined in a periodically perforated domain, is semi-linear, partially dissipative and coupled to a nonlinear ordinary differential equation posed on the solid-water interface at the pore level. After discussing the solvability of the pore scale model, we apply the periodic unfolding techniques (adapted to treat the presence of perforations) not only to derive macroscopic (upscaled) model equations, but also to prepare a proper framework for obtaining a convergence rate (corrector estimates) of the averaging procedure.

Original language	English
Pages (from-to)	1129-1154
Number of pages	26
Journal	Applicable Analysis
Volume	91
Issue number	6
DOIs	https://doi.org/10.1080/00036811.2011.625016
Publication status	Published - 2012

Keywords

corrector estimates
homogenization
periodic unfolding
reaction-diffusion systems
sulphate corrosion of concrete

ASJC Scopus subject areas

Analysis
Applied Mathematics

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10.1080/00036811.2011.625016

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title = "Unfolding-based corrector estimates for a reaction-diffusion system predicting concrete corrosion",

abstract = "We use the periodic unfolding technique to derive corrector estimates for a reaction-diffusion system describing concrete corrosion penetration in the sewer pipes. The system, defined in a periodically perforated domain, is semi-linear, partially dissipative and coupled to a nonlinear ordinary differential equation posed on the solid-water interface at the pore level. After discussing the solvability of the pore scale model, we apply the periodic unfolding techniques (adapted to treat the presence of perforations) not only to derive macroscopic (upscaled) model equations, but also to prepare a proper framework for obtaining a convergence rate (corrector estimates) of the averaging procedure.",

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AU - Fatima, Tasnim

AU - Muntean, Adrian

AU - Ptashnyk, Mariya

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N2 - We use the periodic unfolding technique to derive corrector estimates for a reaction-diffusion system describing concrete corrosion penetration in the sewer pipes. The system, defined in a periodically perforated domain, is semi-linear, partially dissipative and coupled to a nonlinear ordinary differential equation posed on the solid-water interface at the pore level. After discussing the solvability of the pore scale model, we apply the periodic unfolding techniques (adapted to treat the presence of perforations) not only to derive macroscopic (upscaled) model equations, but also to prepare a proper framework for obtaining a convergence rate (corrector estimates) of the averaging procedure.

AB - We use the periodic unfolding technique to derive corrector estimates for a reaction-diffusion system describing concrete corrosion penetration in the sewer pipes. The system, defined in a periodically perforated domain, is semi-linear, partially dissipative and coupled to a nonlinear ordinary differential equation posed on the solid-water interface at the pore level. After discussing the solvability of the pore scale model, we apply the periodic unfolding techniques (adapted to treat the presence of perforations) not only to derive macroscopic (upscaled) model equations, but also to prepare a proper framework for obtaining a convergence rate (corrector estimates) of the averaging procedure.

KW - corrector estimates

KW - homogenization

KW - periodic unfolding

KW - reaction-diffusion systems

KW - sulphate corrosion of concrete

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IS - 6

ER -

Unfolding-based corrector estimates for a reaction-diffusion system predicting concrete corrosion

Abstract

Keywords

ASJC Scopus subject areas

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