液态水雾化对铝基水上冲压喷气发动机流场和性能影响的数值模拟研究

IF 2 Q2 ENGINEERING, MECHANICAL Frontiers in Mechanical Engineering Pub Date : 2023-11-23 DOI:10.3389/fmech.2023.1194217
Yuntian Zhang, Yunkai Wu, Xiwei Cao, Yuanshu Liu, Yongqiang Sun, Jing Yang, Liu Junli
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引用次数: 0

摘要

为了研究不同进水口水滴直径对铝基水冲压喷气发动机性能的影响,通过数值模拟分析了发动机的内部流场。结果表明,通过选择合适的进水口水滴直径,控制水滴蒸发吸热所需的时间,可以扩大铝水燃烧反应的工作范围,提高发动机的比冲。在发动机设计和实际应用中,发动机上游喷水口的设计至关重要,进水口的水滴直径应控制在合适的范围内。直径过大会降低蒸发效率,阻碍燃烧反应的进一步扩散。过小的水滴会迅速蒸发,导致流场温度急剧下降,导致燃烧室主反应区出现大范围的低温区,从而降低发动机的整体铝水反应速率。此外,下游水雾化喷嘴中水滴直径的变化对主燃烧区的铝水反应影响不大。但是,减小水滴直径可以促进燃烧反应的下游扩散,进一步扩大燃烧范围,提高比冲。此外,它还能降低靠近壁面的温度,有利于降低发动机的整体热保护要求。
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Numerical simulation study on the effects of liquid water atomization on the flow field and performance of aluminum-based water ramjet engines
In order to investigate the effects of different water inlet droplet diameters on the performance of aluminum-based water ramjet engines, the internal flow field of the engine was analyzed through numerical simulation. The results showed that by selecting a suitable water droplet diameter at the water inlet and controlling the time required for water droplet evaporation and heat absorption, the working range of aluminum-water combustion reaction can be expanded and the specific impulse of the engine can be increased. In engine design and practical application, the design of the water injection nozzle upstream of the engine is critical, and the droplet diameter at the water inlet should be controlled within a suitable range. A diameter that is too large will reduce the evaporation efficiency and hinder the further diffusion of combustion reaction. Droplet sizes that are too small will rapidly evaporate, causing the temperature in the flow field to decrease rapidly, leading to a large range of low-temperature regions in the main reaction zone of the combustion chamber, thereby reducing the overall aluminum-water reaction rate of the engine. In addition, the variation of droplet diameter in the downstream water atomization nozzle has little effect on the aluminum-water reaction in the main combustion zone. However, reducing the droplet diameter can facilitate the downstream diffusion of the combustion reaction, further expanding the combustion range and increasing the specific impulse. Furthermore, it can also reduce the temperature near the wall, which is beneficial for reducing the overall thermal protection requirements of the engine.
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来源期刊
Frontiers in Mechanical Engineering
Frontiers in Mechanical Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
4.40
自引率
0.00%
发文量
115
审稿时长
14 weeks
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