关键词: 向心涡轮;轮盘轻量化;叶背间隙流;盘腔冷气;数值模拟

Abstract: The numerical simulation method is used to study the radial turbine of a gas turbine with the cooling air seal. The overall aerodynamic parameters of the different scalloped radial turbines and the dynamics mechanism of internal complex secondary flow are analyzed in detail. The research shows that the efficiency of scalloped and deeply scalloped radial turbines decreases by 1.7% and 3.5%, and the mass flow of cooling air decreases by 12.2% and 16.3% compared with unscalloped radial turbine. The mass flow of cooling air is mainly determined by the ‘pump effect’ of the high-speed rotating disk. The backface leakage flow is subjected to centrifugal force and Coriolis force in the same direction at the entrance to the passage, which moves forward the tip. However, the centrifugal force of the cooling air is opposite to the Coriolis force at the entrance to the passage and the Coriolis force is the dominant force, which makes the cooling air move along the wall of hub and blade. After mixing with the main stream, the above two fluids are mainly subjected to centrifugal force and moves to the tip. In the deeply scalloped radial turbine, the cooling air and backface clearance flow are mixed to form a large-scale vortex at the middle of the passage, which is the main reason for the significant efficiency decline.

Key words: Radial turbine;Wheel lightening;Backface clearance flow;Cooling air;Numerical simulation