Three-dimensional simulation of detonation initiation and propagation in supersonic combustible mixtures
Three-dimensional simulation of detonation initiation and propagation in supersonic combustible mixtures
Detonation initiation and propagation in supersonic combustible mixtures using a hot jet have been investigated in three-dimensional numerical simulations with the detailed reaction model on Tianhe-2 system. Results indicate that the side walls can help realize the triple lines collisions and triple lines reflections, which play an important role in the detonation initiation. There should exists a critical width between the front and back sides of the three-dimensional channel for the successful initiation, which is totally different from that of two-dimensional cases. When the width exceeds the critical value, there will be not the effective reflections of the bow shock surface on the side walls, hence resulting in the failure of detonation initiation. For the detonation propagation, none of the standard detonation modes(rectangular mode, diagonal mode and spinning mode) is observed in the three-dimensional case. The initiated detonation is actually in an overdriven state because of the presence of the hot jet in the supersonic flow field, thus resulting in more complex detonation fronts than that in the CJ detonation. Because of both directions of three-dimensional detonation development than that of the two-dimensional case where the transverse waves propagation and the collisions of triple points can be realized only in one direction, the detonation fronts in three-dimensional simulation shows significantly larger irregularities and variations.
detonation initiation and propagation, three-dimensional simulation, supersonic combustible mixtures, hot jet
Cai, Xiaodong
293bf621-f0e1-48ba-abaa-b41da81ea244
Liang, Jianhan
fd8229b7-c7f4-4a1b-b94f-abce393f9e9a
Che, Yonggang
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Deiterding, Ralf
ce02244b-6651-47e3-8325-2c0a0c9c6314
Lin, Zhiyong
ca704069-5f56-4689-8fde-4edb13622723
Zhuang, Fengchen
38c02699-f95c-4457-a4d2-92c9497e0b73
September 2014
Cai, Xiaodong
293bf621-f0e1-48ba-abaa-b41da81ea244
Liang, Jianhan
fd8229b7-c7f4-4a1b-b94f-abce393f9e9a
Che, Yonggang
2b2494f1-abab-4e3c-89af-63a85171be91
Deiterding, Ralf
ce02244b-6651-47e3-8325-2c0a0c9c6314
Lin, Zhiyong
ca704069-5f56-4689-8fde-4edb13622723
Zhuang, Fengchen
38c02699-f95c-4457-a4d2-92c9497e0b73
Cai, Xiaodong, Liang, Jianhan, Che, Yonggang, Deiterding, Ralf, Lin, Zhiyong and Zhuang, Fengchen
(2014)
Three-dimensional simulation of detonation initiation and propagation in supersonic combustible mixtures.
Eighth International Conference on Computational Fluid Dynamics (ICCFD8), Chengdu, China.
14 - 18 Jul 2014.
15 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Detonation initiation and propagation in supersonic combustible mixtures using a hot jet have been investigated in three-dimensional numerical simulations with the detailed reaction model on Tianhe-2 system. Results indicate that the side walls can help realize the triple lines collisions and triple lines reflections, which play an important role in the detonation initiation. There should exists a critical width between the front and back sides of the three-dimensional channel for the successful initiation, which is totally different from that of two-dimensional cases. When the width exceeds the critical value, there will be not the effective reflections of the bow shock surface on the side walls, hence resulting in the failure of detonation initiation. For the detonation propagation, none of the standard detonation modes(rectangular mode, diagonal mode and spinning mode) is observed in the three-dimensional case. The initiated detonation is actually in an overdriven state because of the presence of the hot jet in the supersonic flow field, thus resulting in more complex detonation fronts than that in the CJ detonation. Because of both directions of three-dimensional detonation development than that of the two-dimensional case where the transverse waves propagation and the collisions of triple points can be realized only in one direction, the detonation fronts in three-dimensional simulation shows significantly larger irregularities and variations.
Text
ICCFD8-2014-0116-fullpaper.pdf
- Accepted Manuscript
More information
Accepted/In Press date: July 2014
Published date: September 2014
Venue - Dates:
Eighth International Conference on Computational Fluid Dynamics (ICCFD8), Chengdu, China, 2014-07-14 - 2014-07-18
Keywords:
detonation initiation and propagation, three-dimensional simulation, supersonic combustible mixtures, hot jet
Organisations:
Aerodynamics & Flight Mechanics Group
Identifiers
Local EPrints ID: 381314
URI: http://eprints.soton.ac.uk/id/eprint/381314
PURE UUID: 9dd1a371-759c-422f-a819-4fbd47ba5fae
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Date deposited: 08 Sep 2015 15:50
Last modified: 15 Mar 2024 03:52
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Contributors
Author:
Xiaodong Cai
Author:
Jianhan Liang
Author:
Yonggang Che
Author:
Zhiyong Lin
Author:
Fengchen Zhuang
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