Abstract: In this paper, a dual-throat supersonic separation device with porous wall has been proposed to solve the starting problem of supersonic separator, and the feasibility of the proposed device has been tested numerically and experimentally. Its flow characteristics have been investigated and the effect of some important parameters including nozzle pressure ratio (R_NP), inlet temperature and swirl intensity were examined. In the device, the supersonic flow state and strong centrifugal acceleration of 240000g can be obtained, which are necessary for the condensation and separation of water vapor. The supersonic region in the device enlarged and the shock wave shifted downstream along with the increasing R_NP. The separation performance was improved with the increasing R_NP and the inlet temperature. The best separation performance in this study was obtained with ΔT_d=28 K.

Key words: supersonic separation, cyclone gas/liquid separation, porous wall, dual-throat

摘要： In this paper, a dual-throat supersonic separation device with porous wall has been proposed to solve the starting problem of supersonic separator, and the feasibility of the proposed device has been tested numerically and experimentally. Its flow characteristics have been investigated and the effect of some important parameters including nozzle pressure ratio (R_NP), inlet temperature and swirl intensity were examined. In the device, the supersonic flow state and strong centrifugal acceleration of 240000g can be obtained, which are necessary for the condensation and separation of water vapor. The supersonic region in the device enlarged and the shock wave shifted downstream along with the increasing R_NP. The separation performance was improved with the increasing R_NP and the inlet temperature. The best separation performance in this study was obtained with ΔT_d=28 K.

关键词: supersonic separation, cyclone gas/liquid separation, porous wall, dual-throat