湍流燃烧模拟中化学反应的加速算法研究进展

Zaigang Liu; Wenjun Kong

doi:10.11729/syltlx20180123

湍流燃烧模拟中化学反应的加速算法研究进展

Zaigang Liu
, Wenjun Kong^*

^*此作品的通讯作者

宇航学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

To investigate the methods of accelerating the computation of chemical kinetics in turbulent combustion, the application of Dynamic Adaptive Chemistry (DAC) and exponential integrator with Krylov subspace approximation is discussed. In the large eddy simulation of a turbulent flame, using DAC can accelerate the computation of chemical kinetics. However, in the context of parallel combustion simulation, the loads on the different processors are extremely imbalanced, which limits its performance. For the exponential integrator with Krylov subspace approximation, the acceleration effect acts on each processor, which is beneficial to improve the global computational efficiency. Compared to that of the implicit scheme coupled with DAC and MTS, the accelerating performance of the exponential integrator with Krylov subspace approxi-mation under the same level of accuracy is more obvious.

投稿的翻译标题	Progress on acceleration algorithm of the computation for chemical reactions in turbulent combustion simulation
源语言	繁体中文
页（从-至）	1-10
页数	10
期刊	Shiyan Liuti Lixue/Journal of Experiments in Fluid Mechanics
卷	33
期	4
DOI	https://doi.org/10.11729/syltlx20180123
出版状态	已出版 - 1 8月 2019

关键词

Acceleration of the computation for chemical reactions
Dynamic Adaptive Chemistry
Exponential integration
Krylov subspace approximation
Turbulent combustion simulation

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10.11729/syltlx20180123

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链接到 Scopus 的出版物

引用此

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title = "湍流燃烧模拟中化学反应的加速算法研究进展",

abstract = "To investigate the methods of accelerating the computation of chemical kinetics in turbulent combustion, the application of Dynamic Adaptive Chemistry (DAC) and exponential integrator with Krylov subspace approximation is discussed. In the large eddy simulation of a turbulent flame, using DAC can accelerate the computation of chemical kinetics. However, in the context of parallel combustion simulation, the loads on the different processors are extremely imbalanced, which limits its performance. For the exponential integrator with Krylov subspace approximation, the acceleration effect acts on each processor, which is beneficial to improve the global computational efficiency. Compared to that of the implicit scheme coupled with DAC and MTS, the accelerating performance of the exponential integrator with Krylov subspace approxi-mation under the same level of accuracy is more obvious.",

keywords = "Acceleration of the computation for chemical reactions, Dynamic Adaptive Chemistry, Exponential integration, Krylov subspace approximation, Turbulent combustion simulation",

author = "Zaigang Liu and Wenjun Kong",

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Y1 - 2019/8/1

N2 - To investigate the methods of accelerating the computation of chemical kinetics in turbulent combustion, the application of Dynamic Adaptive Chemistry (DAC) and exponential integrator with Krylov subspace approximation is discussed. In the large eddy simulation of a turbulent flame, using DAC can accelerate the computation of chemical kinetics. However, in the context of parallel combustion simulation, the loads on the different processors are extremely imbalanced, which limits its performance. For the exponential integrator with Krylov subspace approximation, the acceleration effect acts on each processor, which is beneficial to improve the global computational efficiency. Compared to that of the implicit scheme coupled with DAC and MTS, the accelerating performance of the exponential integrator with Krylov subspace approxi-mation under the same level of accuracy is more obvious.

AB - To investigate the methods of accelerating the computation of chemical kinetics in turbulent combustion, the application of Dynamic Adaptive Chemistry (DAC) and exponential integrator with Krylov subspace approximation is discussed. In the large eddy simulation of a turbulent flame, using DAC can accelerate the computation of chemical kinetics. However, in the context of parallel combustion simulation, the loads on the different processors are extremely imbalanced, which limits its performance. For the exponential integrator with Krylov subspace approximation, the acceleration effect acts on each processor, which is beneficial to improve the global computational efficiency. Compared to that of the implicit scheme coupled with DAC and MTS, the accelerating performance of the exponential integrator with Krylov subspace approxi-mation under the same level of accuracy is more obvious.

KW - Acceleration of the computation for chemical reactions

KW - Dynamic Adaptive Chemistry

KW - Exponential integration

KW - Krylov subspace approximation

KW - Turbulent combustion simulation

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DO - 10.11729/syltlx20180123

M3 - 文章

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ER -

湍流燃烧模拟中化学反应的加速算法研究进展

摘要

关键词

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指纹

引用此