Influence of the Droplet Diameter on Compressor Rotor Performance under Constant Humidification.

Zhang, Jinya; Xue, Zhicheng; Jia, Shantao; Wang, Ke; Zhang, Yongxue

Aiming at the near-clogging boundary condition of a certain type of transonic compressor rotor, a numerical simulation method is used to systematically study the influence of different droplet diameters on its performance under the condition of moisture content of 3%. The results show that humidifying the intake air of the transonic compressor near the blockage boundary can reduce the exhaust temperature, the mass flow rate, and the total pressure ratio. In the axial direction, the mass fraction of water vapor increases slowly and linearly under the large droplet condition, while the mass fraction of water vapor under the medium and the small droplet conditions presents a two-stage parabolic growth. The mass fraction of water vapor under the three conditions increases by 0.002, 0.0055, and 0.0072 from inlet to outlet, respectively. On the radial section with the axial span = 0.7, the difference in water vapor mass fraction between the shroud and the hub under the small droplet condition is 0.00329, and that under the medium and the large droplet condition are 46.81% and 27.96% of the small droplet condition. The research results can provide theoretical guidance for the analysis of droplet evaporation at different positions in compressor near-plugging conditions.

WATER vapor; WATER masses; COMPRESSOR performance; AIR compressors; HUMIDITY control

Heat Transfer Engineering, 2024, Vol 45, Issue 20/21, p1884

0145-7632

Academic Journal

10.1080/01457632.2023.2282756