Testing of the N2O/HDPE Vortex Flow Pancake Hybrid Rocket Engine with Augmented Spark Igniter

IF 0.1 4区 工程技术 Q4 ENGINEERING, AEROSPACE Aerospace America Pub Date : 2023-08-20 DOI:10.3390/aerospace10080727
Tomasz Palacz, J. Cieślik
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Abstract

The paper is part of the research aimed at determining if the vortex flow pancake (VFP) hybrid rocket engine is feasible as green in-space chemical propulsion. The objective of this study is to test an N2O/HDPE VFP hybrid ignited with N2O/C3H8 torch igniter. The N2O is used in self-pressurizing mode, which results in two-phase flow and varying inlet conditions, thus better simulating real in-space behavior. The study begins with characterizing the torch igniter, followed by hot-fire ignition tests of the VFP. The results allow for the improved design of the torch igniter and VFP hybrid. The axial regression rate ballistic coefficients are reported for the N2O/HDPE propellants in the VFP configuration.
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增强型火花点火器N2O/HDPE涡流煎饼混合火箭发动机试验
本文是确定涡流煎饼(VFP)混合火箭发动机作为绿色空间化学推进是否可行的研究的一部分。本研究的目的是测试用N2O/C3H8火炬点火器点燃的N2O/HDPE VFP混合材料。N2O采用自加压模式,导致两相流动和不同的进口条件,从而更好地模拟真实的空间行为。该研究从表征火炬点火器开始,随后进行了VFP的热火点火试验。研究结果为火炬点火器和VFP混合式点火器的改进设计提供了依据。报道了N2O/HDPE推进剂在VFP构型下的轴向回归率弹道系数。
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来源期刊
Aerospace America
Aerospace America 工程技术-工程:宇航
自引率
0.00%
发文量
9
审稿时长
4-8 weeks
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