具有耦合功率输出的简化预冷发动机循环的热力学性能研究

IF 1.1 Q4 ENGINEERING, MECHANICAL Journal of the Global Power and Propulsion Society Pub Date : 2024-07-30 DOI:10.33737/jgpps/187745
Yifan Wang, Dechen Liu, Pengcheng Xu, Pengcheng Du, Zhengping Zou
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引用次数: 0

摘要

水平起降、可重复使用的高超音速飞行器因其在各种工作条件下的高性能而成为航空领域的热点之一。在飞行包线内具有高性能动力输出能力的推进系统是执行各种任务的关键。为了满足飞行器系统的动力需求,建立了基于封闭循环超临界氦气的耦合动力输出适度预冷循环发动机热力循环。分析了推进系统参数的敏感性和热力循环设计点的整体性能。比较分析了超临界氦气闭式循环高压预燃气体放气和膨胀功率对功率提取参数的影响规律。根据上述结果,构建了基于超临界氦气闭式循环功率提取的中度预冷发动机。结果表明,该方案可在 25.8 千米、Ma5.0 条件下实现 109.6 千牛推力和 1 645 秒比冲,功率提取为 2 兆瓦,为带功率输出的预冷发动机方案提供了新思路。
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Thermodynamic performance study of simplified precooled engine cycle with coupling power output
Horizontal takeoff and landing, reusable hypersonic vehicles have become one of hot spots of aviation field due to their high performance over all operating conditions. The propulsion system with high performance power output capability inside flight envelope is the key to conduct various missions. In order to meet the power demand of the vehicle systems, a coupled power output moderate pre-cooled cycle engine thermodynamic cycle based on closed-cycle supercritical helium was established. The sensitivity of propulsion system parameters and the overall performance of the design point of the thermodynamic cycle were analyzed. The influence law of the power extraction parameters was comparatively analyzed between the bleeding of high-pressure pre-combustion gas and expansion power from supercritical helium closed-cycle. According to the above results, a moderate precooled engine based on supercritical helium closed-cycle with power extraction was constructed. The results show that the scheme can achieve the performance of 109.6 kN thrust and 1,645 s specific impulse with 2 MW power extraction at 25.8 km, Ma5.0, which could provide a new idea for precooled engine scheme with power output.
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来源期刊
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
期刊最新文献
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