Visualization of Wave Rotor Inner Flow Dynamics

Journal of The Japan Society for Aeronautical and Space Sciences Pub Date : 2007-03-01 DOI:10.2322/JJSASS.54.345

K. Okamoto, T. Nagashima, K. Yamaguchi

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引用次数: 28

Abstract

The design of a wave rotor requires an understanding of the pressure wave dynamics in the rotor passages. The present paper describes a two-dimensional numerical simulation and an experimental visualization of the wave rotor compression process. First, a unique experimental apparatus with fixed cells and rotating ports was constructed for visualization and direct measurements; this arrangement is opposite to the conventional setup. Next, experimental and numerical results were compared to verify the simulation modelling, particularly with regard to the propagation velocity of pressure waves in the passages. Lastly, the effects of gradually opening the passage to the ports and leakage through the clearance, which are considered to be dominant factors in wave rotor operation, on the pressure wave dynamics were carefully investigated. The results showed that the gradual passage opening greatly influences the primary shock wave, whereas the leakage mostly influences the secondary (reflected) shock wave. Moreover, it was revealed that the leakage generates an extra pressure wave during the compression process due to the interaction between adjacent passages.

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波浪转子内部流动动力学的可视化

波浪转子的设计需要了解转子通道内的压力波动力学。本文描述了波转子压缩过程的二维数值模拟和实验可视化。首先，构建了一种独特的实验装置，具有固定的细胞和旋转的端口，用于可视化和直接测量;这种安排与传统的设置相反。接下来，将实验结果与数值结果进行比较，以验证仿真模型，特别是关于压力波在通道中的传播速度。最后，研究了在波转子运行中占主导地位的渐开通道和间隙泄漏对压力波动力学的影响。结果表明，渐进式通道开度对一次激波的影响较大，而泄漏对二次(反射)激波的影响较大。此外，由于相邻通道之间的相互作用，泄漏在压缩过程中产生了额外的压力波。

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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Journal of The Japan Society for Aeronautical and Space Sciences

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