Numerical study on the reactive euler equation based on semi-implicit methods

Hui Zhao; Jian Li; Jian Guo Ning

doi:10.11858/gywlxb.2014.05.005

Numerical study on the reactive euler equation based on semi-implicit methods

Hui Zhao, Jian Li, Jian Guo Ning^*

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

Abstract

This paper introduces an IMEX (implicit-explicit) Additive Runge-Kutta method, which was applied to resolve the stiff source term into the stiff part and non-stiff part, and the stiff part was solved implicitly while the non-stiff part was handled explicitly. The numerical calculation of the gas-phase detonation show that the method can deal with the stiff problems caused by the source term, accurate capture the discontinuity and description of the structure of the Mach reflection, meanwhile the features of cellular pattern agree well with the experimental results.

Original language	English
Pages (from-to)	539-544
Number of pages	6
Journal	Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics
Volume	28
Issue number	5
DOIs	https://doi.org/10.11858/gywlxb.2014.05.005
Publication status	Published - 15 Oct 2014

Keywords

Cellular pattern
Gaseous detonation
Mach reflection
Semi-implicit methods
Stiffness

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10.11858/gywlxb.2014.05.005

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abstract = "This paper introduces an IMEX (implicit-explicit) Additive Runge-Kutta method, which was applied to resolve the stiff source term into the stiff part and non-stiff part, and the stiff part was solved implicitly while the non-stiff part was handled explicitly. The numerical calculation of the gas-phase detonation show that the method can deal with the stiff problems caused by the source term, accurate capture the discontinuity and description of the structure of the Mach reflection, meanwhile the features of cellular pattern agree well with the experimental results.",

keywords = "Cellular pattern, Gaseous detonation, Mach reflection, Semi-implicit methods, Stiffness",

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AU - Zhao, Hui

AU - Li, Jian

AU - Ning, Jian Guo

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Y1 - 2014/10/15

N2 - This paper introduces an IMEX (implicit-explicit) Additive Runge-Kutta method, which was applied to resolve the stiff source term into the stiff part and non-stiff part, and the stiff part was solved implicitly while the non-stiff part was handled explicitly. The numerical calculation of the gas-phase detonation show that the method can deal with the stiff problems caused by the source term, accurate capture the discontinuity and description of the structure of the Mach reflection, meanwhile the features of cellular pattern agree well with the experimental results.

AB - This paper introduces an IMEX (implicit-explicit) Additive Runge-Kutta method, which was applied to resolve the stiff source term into the stiff part and non-stiff part, and the stiff part was solved implicitly while the non-stiff part was handled explicitly. The numerical calculation of the gas-phase detonation show that the method can deal with the stiff problems caused by the source term, accurate capture the discontinuity and description of the structure of the Mach reflection, meanwhile the features of cellular pattern agree well with the experimental results.

KW - Cellular pattern

KW - Gaseous detonation

KW - Mach reflection

KW - Semi-implicit methods

KW - Stiffness

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JO - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

JF - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

IS - 5

ER -

Numerical study on the reactive euler equation based on semi-implicit methods

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Keywords

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