斜叶片切割对低比转速径向泵叶轮叶片交变应力影响的流固耦合模拟

Rajavamsi Gangipamula, A. Prajapati, Ravindra S. Birajdar, S. Shukla
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引用次数: 1

摘要

对径向蜗壳泵在高扬程工况下产生的压力脉动、液压激振力和交变应力进行了数值研究。采用单向流固耦合的方法,从叶轮压力侧和吸力侧交替应力的角度,评估了动静相互作用对激励力的影响。首先,使用稳态计算流体动力学(CFD)模拟预测泵的性能参数,并与现有的测试数据进行比较。由于压力脉动的瞬态特性,采用RANS模型进行了瞬态CFD模拟,预测了叶轮叶片出口和舌部位置的压力脉动及其随时间的特性。将这些非定常压力分布与叶轮的有限元模型耦合,求解和监测由瞬态水力加载引起的应力。为了衰减由于RSI产生的交变应力,叶片的几何形状通过在叶片出口提供30°的斜切来修改。当叶片后缘斜切30°时,压力脉动幅度和应力分别减小10%和10%。
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Impact of Skew Vane Cut on Alternating Stress in a Low Specific Speed Radial Pump Impeller Vane Using Fluid-Structure Interaction (FSI) Simulations
Numerical studies are presented on the pressure pulsations, hydraulic excitation forces and alternative stresses produced in a radial volute pump with high head application. The effect of excitation forces due to Rotor-Stator Interaction (RSI) are evaluated using One-way fluid structure Interaction in terms of alternative stresses on impeller pressure side and suction side. Initially, the pump performance parameters are predicted using steady state Computational Fluid Dynamics (CFD) simulations and compared with the available test data. Due to the transient behavior of pressure pulsations, a transient CFD simulation has been conducted using RANS models to predict the pressure pulsations and its behavior with time on impeller vane outlet and tongue locations. These unsteady pressure distributions are further coupled with the Finite element (FE) model of the impeller to solve and monitor for the stresses induced due to the transient hydraulic loading. To attenuate the alternating stresses produced due to RSI, the geometry of the vane is modified by providing a skew cut with 30° at vane outlet. The pressure pulsation amplitude and stresses are reduced by 10% and 10% respectively for a skew cut of 30° at vane trailing edge.
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