Effects of real gas models on the wave dynamics and refrigeration of gas wave rotor

Yihui Zhou, Feng Gao, Zhijun Liu, Dapeng Hu
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Abstract

The gas wave rotor was usually designed and performed on the ideal gas model. However, the real gas effect could not be ignored anymore under high-pressure ratio conditions. In this study, for the first time, a two-dimensional computational model of a double-opening gas wave refrigerator (GWR) using a multi-parameter Benedict–Webb–Rubin equation of state is established and the influence of the real gas effect on gas wave dynamics and energy transfer processes in the GWR with discontinuous boundary conditions is thoroughly investigated. The numerical results show that the wave dynamics of the ideal gas and the real gas are similar under different operating conditions, but compression waves and expansion waves in real gas obviously lag behind the ideal gas. In addition, the low-temperature real gas is completely discharged earlier than the ideal gas and the difference between them gradually increases as the pressure ratio gets higher, which benefits the GWR compact structure design and cost reduction. At the same time, the temperature of the real gas being discharged is lower than that of the ideal gas. Therefore, the refrigeration efficiency of the isentropic expansion of the real gas will be improved compared with the operation in ideal gas. The research results on the real gas effect reveal the mechanism of wave dynamics and energy transfer, providing support for the optimization design of GWR.
真实气体模型对气浪转子波动力学和制冷的影响
气波转子通常是根据理想气体模型设计和制造的。然而,在高压比条件下,实际气体效应已不容忽视。本研究首次利用多参数 Benedict-Webb-Rubin 状态方程建立了双开门气波制冷器(GWR)的二维计算模型,并深入研究了真实气体效应对不连续边界条件下 GWR 中气波动力学和能量传递过程的影响。数值结果表明,在不同工况下,理想气体和实际气体的波动力学相似,但实际气体的压缩波和膨胀波明显落后于理想气体。此外,低温真实气体比理想气体更早完全排出,且随着压比的增大,两者之间的差异逐渐增大,这有利于 GWR 结构的紧凑设计和成本的降低。同时,排出的真实气体温度低于理想气体。因此,与理想气体运行相比,真实气体等熵膨胀的制冷效率将得到提高。有关真实气体效应的研究成果揭示了波动力学和能量传递的机理,为 GWR 的优化设计提供了支持。
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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