Study on Integrated Aeroramp Injector/Gas-Pilot Flame in a Supersonic Combustor

Experimental and numerical study of a novel integrated flush-wall aeroramp injector/gas-pilot flame has been conducted in a scramjet combustor. The aeroramp injector consisted of four flush-wall holes. Downstream of it, the gas-pilot flame as located as igniter and flame holder. The experiment'...

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Veröffentlicht in:	Journal of propulsion and power 2012-05, Vol.28 (3), p.486-495
Hauptverfasser:	Baoxi, Wei, Xu, Xu, Minglei, Yan, Xinxing, Shi, Yang, Yang
Format:	Artikel
Sprache:	eng
Schlagworte:	Assessments Ethylene Flushing Igniters Injectors Mathematical models Supersonic aircraft Supersonic combustion
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container_title	Journal of propulsion and power
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creator	Baoxi, Wei Xu, Xu Minglei, Yan Xinxing, Shi Yang, Yang
description	Experimental and numerical study of a novel integrated flush-wall aeroramp injector/gas-pilot flame has been conducted in a scramjet combustor. The aeroramp injector consisted of four flush-wall holes. Downstream of it, the gas-pilot flame as located as igniter and flame holder. The experiment's facilities can deliver a continuous supersonic flow of Mach number 2.0 with a total temperature of 1200 K. In the cold flow tests, schlieren and surface oil-flow visualization pictures in the vicinity of injectors were taken to obtain a qualitative assessment of the injectors flowfields. The detailed characteristics of cold flowfields were numerically simulated, which agreed well with the experimental results. Some important parameters, such as mixing efficiency, penetration depth, and maximum concentration decay, were investigated to analyze the mixing performance. In the hot flow tests, ethylene was injected into the mainstream at jet-to-freestream momentum flux ratios qq between 1.2 and 3.9. One-dimensional performance analysis of the test data indicates combustion efficiencies as high as 90% in all cases. This was the first time that the integration of an aeroramp injector/gas-pilot flame for supersonic combustion was studied. The results show that this novel injection and flame holding configuration for supersonic combustion is feasible. [PUBLISHER ABSTRACT]
doi_str_mv	10.2514/1.B34305
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The aeroramp injector consisted of four flush-wall holes. Downstream of it, the gas-pilot flame as located as igniter and flame holder. The experiment's facilities can deliver a continuous supersonic flow of Mach number 2.0 with a total temperature of 1200 K. In the cold flow tests, schlieren and surface oil-flow visualization pictures in the vicinity of injectors were taken to obtain a qualitative assessment of the injectors flowfields. The detailed characteristics of cold flowfields were numerically simulated, which agreed well with the experimental results. Some important parameters, such as mixing efficiency, penetration depth, and maximum concentration decay, were investigated to analyze the mixing performance. In the hot flow tests, ethylene was injected into the mainstream at jet-to-freestream momentum flux ratios qq between 1.2 and 3.9. One-dimensional performance analysis of the test data indicates combustion efficiencies as high as 90% in all cases. This was the first time that the integration of an aeroramp injector/gas-pilot flame for supersonic combustion was studied. The results show that this novel injection and flame holding configuration for supersonic combustion is feasible. 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subjects	Assessments Ethylene Flushing Igniters Injectors Mathematical models Supersonic aircraft Supersonic combustion
title	Study on Integrated Aeroramp Injector/Gas-Pilot Flame in a Supersonic Combustor
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