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Combustion Science and Technology Volume 191, 2019 - Issue 8
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Articles

Numerical Study on the Propagation of Premixed Flames in Confined Narrow Disc-Shape Chambers

Jiepeng HuoKey Laboratory of Renewable Energy, Chinese Academy of Sciences, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, GuangzhouChina;University of Chinese Academy of Sciences, BeijingChinaORCID Iconhttp://orcid.org/0000-0002-3713-3136View further author information
ORCID Icon,
Hang SuKey Laboratory of Renewable Energy, Chinese Academy of Sciences, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, GuangzhouChina;University of Chinese Academy of Sciences, BeijingChinaView further author information
,
Liqiao JiangKey Laboratory of Renewable Energy, Chinese Academy of Sciences, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, GuangzhouChinaView further author information
,
Daiqing ZhaoKey Laboratory of Renewable Energy, Chinese Academy of Sciences, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, GuangzhouChinaCorrespondence[email protected] [email protected]
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&
Xiaohan WangKey Laboratory of Renewable Energy, Chinese Academy of Sciences, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, GuangzhouChinaCorrespondence[email protected] [email protected]
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Pages 1380-1404 | Received 17 May 2018, Accepted 20 Sep 2018, Published online: 19 Oct 2018
 
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ABSTRACT

The laminar flame propagation in narrow confined disc-shape chambers of millimeter scale is investigated, concerning the flame front displacement speed and the influences from the changes of the gap width and radius. An asymptotic analysis treating the flame front as a discontinuity successfully predicts the velocity profiles of the flame front and illustrates the importance of heat release parameter and laminar flame speed of the fuel. The unsteady flame propagation process is simulated by a full numerical computation which employs the n-butane/air mixture as the reactant. The numerical simulation emphasizes the sensitivity of spatial scale to the flame propagation in narrow spaces, indicating that the acceleration rate and the maximum speed of the flame have a non-monotonic relation with the gap width, of which the optimal value is about 0.8 mm. Faster flame propagation is favored for larger gap radius due to stronger flame straining, but it is restricted by the gap width.

Additional information

Funding

This work was supported by the National Natural Science Foundation of China [51336010];National Basic Research Program of China[2014CB239601].

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