Difference of self-ignition performance in solid fuel scramjet with step or cavity

Hong Wei Chi; Zhi Jun Wei; Biao Li; Ning Fei Wang

doi:10.7673/j.issn.1006-2793.2014.05.008

Difference of self-ignition performance in solid fuel scramjet with step or cavity

Hong Wei Chi, Zhi Jun Wei^*, Biao Li, Ning Fei Wang

^*Corresponding author for this work

School of Aerospace Engineering

Beijing Institute of Technology

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

2 Citations (Scopus)

Abstract

The self-ignition process of poly-methyl-methacrylate and the effect of combustor shape with step or cavity on self-ignition in solid fuel scramjet were simulated numerically. An unsteady, two-dimensional, axisymmetric, turbulent (SST model), reaction (finite-rate/eddy dissipation reaction model), one dimensional heat conduction between the gas and solid fuel grain model was solved numerically. Main conclusions are as follows. Both of step and cavity could establish self-ignition. The self-ignition processes of these two flame-holders are consistent. Self-ignition could be established under a relatively wide range of inlet conditions for cavity compared with step. A cavity with appropriate length enhances not only the self-ignition performance but also the overall performance. Cavity is the advanced flame-holder which can be used for self-ignition in SFSCRJ combustor.

Original language	English
Pages (from-to)	628-633 and 639
Journal	Guti Huojian Jishu/Journal of Solid Rocket Technology
Volume	37
Issue number	5
DOIs	https://doi.org/10.7673/j.issn.1006-2793.2014.05.008
Publication status	Published - 1 Oct 2014

Keywords

Numerical simulation
Self-ignition
Solid fuel
Supersonic

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Cite this

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title = "Difference of self-ignition performance in solid fuel scramjet with step or cavity",

abstract = "The self-ignition process of poly-methyl-methacrylate and the effect of combustor shape with step or cavity on self-ignition in solid fuel scramjet were simulated numerically. An unsteady, two-dimensional, axisymmetric, turbulent (SST model), reaction (finite-rate/eddy dissipation reaction model), one dimensional heat conduction between the gas and solid fuel grain model was solved numerically. Main conclusions are as follows. Both of step and cavity could establish self-ignition. The self-ignition processes of these two flame-holders are consistent. Self-ignition could be established under a relatively wide range of inlet conditions for cavity compared with step. A cavity with appropriate length enhances not only the self-ignition performance but also the overall performance. Cavity is the advanced flame-holder which can be used for self-ignition in SFSCRJ combustor.",

keywords = "Numerical simulation, Self-ignition, Solid fuel, Supersonic",

author = "Chi, {Hong Wei} and Wei, {Zhi Jun} and Biao Li and Wang, {Ning Fei}",

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AU - Chi, Hong Wei

AU - Wei, Zhi Jun

AU - Li, Biao

AU - Wang, Ning Fei

PY - 2014/10/1

Y1 - 2014/10/1

N2 - The self-ignition process of poly-methyl-methacrylate and the effect of combustor shape with step or cavity on self-ignition in solid fuel scramjet were simulated numerically. An unsteady, two-dimensional, axisymmetric, turbulent (SST model), reaction (finite-rate/eddy dissipation reaction model), one dimensional heat conduction between the gas and solid fuel grain model was solved numerically. Main conclusions are as follows. Both of step and cavity could establish self-ignition. The self-ignition processes of these two flame-holders are consistent. Self-ignition could be established under a relatively wide range of inlet conditions for cavity compared with step. A cavity with appropriate length enhances not only the self-ignition performance but also the overall performance. Cavity is the advanced flame-holder which can be used for self-ignition in SFSCRJ combustor.

AB - The self-ignition process of poly-methyl-methacrylate and the effect of combustor shape with step or cavity on self-ignition in solid fuel scramjet were simulated numerically. An unsteady, two-dimensional, axisymmetric, turbulent (SST model), reaction (finite-rate/eddy dissipation reaction model), one dimensional heat conduction between the gas and solid fuel grain model was solved numerically. Main conclusions are as follows. Both of step and cavity could establish self-ignition. The self-ignition processes of these two flame-holders are consistent. Self-ignition could be established under a relatively wide range of inlet conditions for cavity compared with step. A cavity with appropriate length enhances not only the self-ignition performance but also the overall performance. Cavity is the advanced flame-holder which can be used for self-ignition in SFSCRJ combustor.

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Difference of self-ignition performance in solid fuel scramjet with step or cavity

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Keywords

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