Effect of Cellular Instability on the Initiation of Cylindrical Detonations

Wen Hu Han; Jin Huang; Ning Du; Zai Gang Liu; Wen Jun Kong; Cheng Wang

doi:10.1088/0256-307X/34/5/054701

Effect of Cellular Instability on the Initiation of Cylindrical Detonations

Wen Hu Han, Jin Huang^*, Ning Du, Zai Gang Liu, Wen Jun Kong, Cheng Wang

^*Corresponding author for this work

School of Mechatronical Engineering

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

7 Citations (Scopus)

Abstract

The direct initiation of detonations in one-dimensional (1D) and two-dimensional (2D) cylindrical geometries is investigated through numerical simulations. In comparison of 1D and 2D simulations, it is found that cellular instability has a negative effect on the 2D initiation and makes it more difficult to initiate a sustaining 2D cylindrical detonation. This effect associates closely with the activation energy. For the lower activation energy, the 2D initiation of cylindrical detonations can be achieved through a subcritical initiation way. With increasing the activation energy, the 2D cylindrical detonation has increased difficulty in its initiation due to the presence of unreacted pockets behind the detonation front and usually requires rather larger source energy.

Original language	English
Article number	054701
Journal	Chinese Physics Letters
Volume	34
Issue number	5
DOIs	https://doi.org/10.1088/0256-307X/34/5/054701
Publication status	Published - May 2017

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Han, W. H., Huang, J., Du, N., Liu, Z. G., Kong, W. J., & Wang, C. (2017). Effect of Cellular Instability on the Initiation of Cylindrical Detonations. Chinese Physics Letters, 34(5), Article 054701. https://doi.org/10.1088/0256-307X/34/5/054701

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title = "Effect of Cellular Instability on the Initiation of Cylindrical Detonations",

abstract = "The direct initiation of detonations in one-dimensional (1D) and two-dimensional (2D) cylindrical geometries is investigated through numerical simulations. In comparison of 1D and 2D simulations, it is found that cellular instability has a negative effect on the 2D initiation and makes it more difficult to initiate a sustaining 2D cylindrical detonation. This effect associates closely with the activation energy. For the lower activation energy, the 2D initiation of cylindrical detonations can be achieved through a subcritical initiation way. With increasing the activation energy, the 2D cylindrical detonation has increased difficulty in its initiation due to the presence of unreacted pockets behind the detonation front and usually requires rather larger source energy.",

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AU - Kong, Wen Jun

AU - Wang, Cheng

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N2 - The direct initiation of detonations in one-dimensional (1D) and two-dimensional (2D) cylindrical geometries is investigated through numerical simulations. In comparison of 1D and 2D simulations, it is found that cellular instability has a negative effect on the 2D initiation and makes it more difficult to initiate a sustaining 2D cylindrical detonation. This effect associates closely with the activation energy. For the lower activation energy, the 2D initiation of cylindrical detonations can be achieved through a subcritical initiation way. With increasing the activation energy, the 2D cylindrical detonation has increased difficulty in its initiation due to the presence of unreacted pockets behind the detonation front and usually requires rather larger source energy.

AB - The direct initiation of detonations in one-dimensional (1D) and two-dimensional (2D) cylindrical geometries is investigated through numerical simulations. In comparison of 1D and 2D simulations, it is found that cellular instability has a negative effect on the 2D initiation and makes it more difficult to initiate a sustaining 2D cylindrical detonation. This effect associates closely with the activation energy. For the lower activation energy, the 2D initiation of cylindrical detonations can be achieved through a subcritical initiation way. With increasing the activation energy, the 2D cylindrical detonation has increased difficulty in its initiation due to the presence of unreacted pockets behind the detonation front and usually requires rather larger source energy.

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VL - 34

JO - Chinese Physics Letters

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Effect of Cellular Instability on the Initiation of Cylindrical Detonations

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