Control strategies for tip leakage vortex using inclined squealer rim in axial turbines

泄漏(经济) 涡流 后缘 机械 叶尖间隙 前沿 空气动力学 涡轮机 物理 流量控制(数据) 流动分离 材料科学 湍流 工程类 热力学 电信 经济 宏观经济学
作者
Yufan Wang,Weihao Zhang,Dongming Huang,Shoumin Jiang,Yun Chen,Guangjian Ma
出处
期刊:Physics of Fluids [American Institute of Physics]
卷期号:34 (3) 被引量:23
标识
DOI:10.1063/5.0082196
摘要

In a typical gas turbine, due to its complicated blade geometry, complex vortex structures appear and cause significant aerodynamic loss. Vortex systems dominated by a tip leakage vortex near the tip region are the primary source of this loss. In this paper, to improve the aerodynamic performance of the turbine, two novel control strategies for tip leakage vortex and the tip leakage flow of the cavity tip are proposed, and their coupling control effects are numerically investigated. The first control strategy is intended to control the loss caused by the breakdown of tip leakage vortex. By inclining the external wall of the suction side rim toward the passage, the emergence of a trailing edge pressure spike is delayed. This significantly reduces the adverse pressure gradient, suppressing the breakdown of tip leakage vortex and reducing tip leakage loss. The second control strategy controls tip leakage flow using the inclined inner wall of the suction side rim, which enhances the separation bubble on the top of the rim of the suction side and reduces the leakage rate by 7.7%. In this way, the formation and development of tip leakage vortex are indirectly manipulated, inhibiting the tip leakage loss. The coupling of the two strategies reduces the blocking effect on tip leakage flow slightly compared to the second strategy. However, the stage efficiency of the turbine is still improved by 0.24% because of the effective suppression of tip leakage vortex breakdown.

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