The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition

V. Bykov; John F. Griffiths; Renzo Piazzesi; Sergei Sazhin; Elena Sazhina

doi:10.1016/j.amc.2012.12.042

The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition

V. Bykov, John F. Griffiths, Renzo Piazzesi, Sergei Sazhin, Elena Sazhina

University of Brighton

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

Abstract

The paper is focused on the application of the recently developed Global-Quasi-Linearization (GQL) method to a specific problem of the cyclohexane/air autoignition in a rapid compression machine environment. A simplified autoignition mechanism including 50 species has been used in the analysis based on the customised computational fluid dynamics (CFD) package FLUENT and the new GQL method. The results predicted by FLUENT are shown to be very close to the results predicted by the zero dimensional code SPRINT, developed at the University of Leeds. The application of the GQL method shows that further substantial reduction of the mechanism is possible without significant loss of accuracy. The method is shown to be an efficient tool for identification and approximations of low-dimensional invariant system manifolds.

Original language	English
Pages (from-to)	7338-7347
Number of pages	10
Journal	Applied Mathematics and Computation
Volume	219
Issue number	14
DOIs	https://doi.org/10.1016/j.amc.2012.12.042
Publication status	Published - 15 Mar 2013

Keywords

Autoignition
Cyclohexane
Chemical kinetics
Model reduction
Reduced mechanism

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title = "The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition",

abstract = "The paper is focused on the application of the recently developed Global-Quasi-Linearization (GQL) method to a specific problem of the cyclohexane/air autoignition in a rapid compression machine environment. A simplified autoignition mechanism including 50 species has been used in the analysis based on the customised computational fluid dynamics (CFD) package FLUENT and the new GQL method. The results predicted by FLUENT are shown to be very close to the results predicted by the zero dimensional code SPRINT, developed at the University of Leeds. The application of the GQL method shows that further substantial reduction of the mechanism is possible without significant loss of accuracy. The method is shown to be an efficient tool for identification and approximations of low-dimensional invariant system manifolds.",

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author = "V. Bykov and Griffiths, {John F.} and Renzo Piazzesi and Sergei Sazhin and Elena Sazhina",

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T1 - The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition

AU - Bykov, V.

AU - Griffiths, John F.

AU - Piazzesi, Renzo

AU - Sazhin, Sergei

AU - Sazhina, Elena

PY - 2013/3/15

Y1 - 2013/3/15

N2 - The paper is focused on the application of the recently developed Global-Quasi-Linearization (GQL) method to a specific problem of the cyclohexane/air autoignition in a rapid compression machine environment. A simplified autoignition mechanism including 50 species has been used in the analysis based on the customised computational fluid dynamics (CFD) package FLUENT and the new GQL method. The results predicted by FLUENT are shown to be very close to the results predicted by the zero dimensional code SPRINT, developed at the University of Leeds. The application of the GQL method shows that further substantial reduction of the mechanism is possible without significant loss of accuracy. The method is shown to be an efficient tool for identification and approximations of low-dimensional invariant system manifolds.

AB - The paper is focused on the application of the recently developed Global-Quasi-Linearization (GQL) method to a specific problem of the cyclohexane/air autoignition in a rapid compression machine environment. A simplified autoignition mechanism including 50 species has been used in the analysis based on the customised computational fluid dynamics (CFD) package FLUENT and the new GQL method. The results predicted by FLUENT are shown to be very close to the results predicted by the zero dimensional code SPRINT, developed at the University of Leeds. The application of the GQL method shows that further substantial reduction of the mechanism is possible without significant loss of accuracy. The method is shown to be an efficient tool for identification and approximations of low-dimensional invariant system manifolds.

KW - Autoignition

KW - Cyclohexane

KW - Chemical kinetics

KW - Model reduction

KW - Reduced mechanism

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DO - 10.1016/j.amc.2012.12.042

M3 - Article

SN - 0096-3003

VL - 219

SP - 7338

EP - 7347

JO - Applied Mathematics and Computation

JF - Applied Mathematics and Computation

IS - 14

ER -

The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition

Abstract

Keywords

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