离心泵流场及径向力不对称分布的数值分析

J. Pei, S. Yuan, Jianping Yuan, Yin Luo
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引用次数: 1

摘要

离心泵是一种重要的能量转换装置,广泛应用于几乎所有的工业领域。提高泵的运行性能对节能、安全生产具有重要意义。利用CFX程序对不同流量下的三维湍流流场进行了稳态模拟,分析了流场和径向力分布的不对称会引起流激振动,降低离心泵运行的稳定性和可靠性。采用基于近壁海温公式的k-omega湍流模型。结果表明:流场,特别是叶轮流道内的速度和叶轮出口静压是不对称的,在小流量时这种不对称更为明显;径向力随流量的变化而变化,在设计工况下径向力的幅值最小。该研究为离心泵的振动分析和可靠性提高提供了重要依据。
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Numerical Analysis on Asymmetrical Distribution of Flow Field and Radial Force for a Centrifugal Pump
Centrifugal pump is one of the most important energy conversion device widely used in almost all industrial fields. Improving operating performance of pump is of great significance for energy saving and safety in production. The asymmetrical distribution of flow field and radial force that will cause flow-induced vibrations which reduce operating stability and reliability of centrifugal pump were analyzed by steady simulation of 3-D turbulent flow for different flow rates using CFX code. The k-omega turbulence model based on SST near wall formulation was applied. The results indicate that, flow field, especially velocity within passages of impeller and static pressure at the impeller outlet, are asymmetric and the asymmetry is more obvious for low flow rate; the radial force changes versus different flow rates, and the amplitude of radial force reaches a minimum under design condition. The study supplied important foundation for vibration analysis and reliability improving of centrifugal pumps.
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