The extension of the ILDM concept to reaction-diffusion manifolds

V. Bykov; U. Maas

doi:10.1080/13647830701242531

The extension of the ILDM concept to reaction-diffusion manifolds

V. Bykov
, U. Maas

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

196 Scopus citations

Abstract

In the present work, the method of simplifying chemical kinetics based on Intrinsic Low-Dimensional Manifolds (ILDMs) is modified to deal with the coupling of reaction and diffusion processes. Several problems of the ILDM method are overcome by a relaxation to an invariant system manifold (Reaction-Diffusion Manifold - REDIM). This relaxation process is governed by a multidimensional parabolic partial differential equation system, where, as an initial solution, an extended ILDM is used. Furthermore, a method for the solution and tabulation of the manifold is proposed in terms of generalized coordinates, with a subsequent procedure for the integration of the reduced system on the found manifold. This modification of the ILDM significantly improves the performance of the concept and allows us to extend its area of applicability. Illustrative comparative calculations of detailed and reduced models of flat laminar flames verify the approach.

Original language	English
Pages (from-to)	839-862
Number of pages	24
Journal	Combustion Theory and Modelling
Volume	11
Issue number	6
DOIs	https://doi.org/10.1080/13647830701242531
State	Published - 1 Dec 2007
Externally published	Yes

Keywords

Chemical kinetics
Dimension reduction
ILDM
Invariant manifolds
Laminar flame

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
Modeling and Simulation
Fuel Technology
Energy Engineering and Power Technology
General Physics and Astronomy

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10.1080/13647830701242531

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AU - Maas, U.

PY - 2007/12/1

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N2 - In the present work, the method of simplifying chemical kinetics based on Intrinsic Low-Dimensional Manifolds (ILDMs) is modified to deal with the coupling of reaction and diffusion processes. Several problems of the ILDM method are overcome by a relaxation to an invariant system manifold (Reaction-Diffusion Manifold - REDIM). This relaxation process is governed by a multidimensional parabolic partial differential equation system, where, as an initial solution, an extended ILDM is used. Furthermore, a method for the solution and tabulation of the manifold is proposed in terms of generalized coordinates, with a subsequent procedure for the integration of the reduced system on the found manifold. This modification of the ILDM significantly improves the performance of the concept and allows us to extend its area of applicability. Illustrative comparative calculations of detailed and reduced models of flat laminar flames verify the approach.

AB - In the present work, the method of simplifying chemical kinetics based on Intrinsic Low-Dimensional Manifolds (ILDMs) is modified to deal with the coupling of reaction and diffusion processes. Several problems of the ILDM method are overcome by a relaxation to an invariant system manifold (Reaction-Diffusion Manifold - REDIM). This relaxation process is governed by a multidimensional parabolic partial differential equation system, where, as an initial solution, an extended ILDM is used. Furthermore, a method for the solution and tabulation of the manifold is proposed in terms of generalized coordinates, with a subsequent procedure for the integration of the reduced system on the found manifold. This modification of the ILDM significantly improves the performance of the concept and allows us to extend its area of applicability. Illustrative comparative calculations of detailed and reduced models of flat laminar flames verify the approach.

KW - Chemical kinetics

KW - Dimension reduction

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KW - Invariant manifolds

KW - Laminar flame

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AN - SCOPUS:36549036793

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JO - Combustion Theory and Modelling

JF - Combustion Theory and Modelling

IS - 6

ER -

The extension of the ILDM concept to reaction-diffusion manifolds

Abstract

Keywords

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