用于高超音速飞行的倒置布雷顿循环发动机优化

Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering Pub Date : 2023-12-17 DOI:10.18038/estubtda.1270986

Mustafa Karabacak, O. Turan

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引用次数: 0

摘要

本研究采用粒子群优化法对倒置布雷顿循环发动机进行了优化。在优化约束条件下，达到了最佳比推力值。在对冷却部分的总温度进行检查时，可以发现温度高于空气的凝固温度。经过优化，在高超音速飞行马赫数（5 马赫）下获得了非常高的比推力值 451 N.s/kg。温度随着高度的增加而降低，对性能产生了显著的积极影响。就性能而言，低的前燃烧器出口总温度和涡轮总压力比值以及高的后燃烧器出口总温度值是理想的，但冷却段的总温度值对性能的影响恰恰相反，会影响比推力和比耗油量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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INVERTED BRAYTON CYCLE ENGINE OPTIMIZATION FOR HYPERSONIC FLIGHT

Optimization of inverted Brayton cycle engine is made by particle swarm optimization method in this study. The optimum specific thrust value is reached by staying within the optimization constraints. When the total temperature of the cooling section is examined, it is seen that a temperature above the freezing temperature of the air is obtained. A very high specific thrust value, 451 N.s/kg is obtained at the hypersonic flight Mach Number (5 Mach) as a result of optimization. Temperature decrease with increasing altitude effect performance dramatically as positive. Low preburner exit total temperature and turbine total pressure ratio values and high afterburner exit total temperature values are desirable in terms of performance but values of total temperature at cooling section effect performance conversely in terms of specific thrust and specific fuel consumption

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Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering

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