Abstract

The design of a wave rotor requires an understanding of the pressure wave dynamics in the cells (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 the visualization and direct measurements; this arrangement is opposite to the conventional setup. Next, experimental and numerical results were compared to verify the simulation modeling, particularly with regard to the propagation velocity of pressure waves in the cells. Last, the effects of gradually opening the cell to the ports and leakage through the clearance, which are considered to be dominant factors in the 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 leakage mostly influences the 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 cells.

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