郑源, 陈宇杰, 毛秀丽, 王惠芝, 施伟, 阚阚, 张玉全. 混流泵压力脉动特性及其对流动诱导噪声的影响[J]. 农业工程学报, 2015, 31(23): 67-73. DOI: 10.11975/j.issn.1002-6819.2015.23.009
    引用本文: 郑源, 陈宇杰, 毛秀丽, 王惠芝, 施伟, 阚阚, 张玉全. 混流泵压力脉动特性及其对流动诱导噪声的影响[J]. 农业工程学报, 2015, 31(23): 67-73. DOI: 10.11975/j.issn.1002-6819.2015.23.009
    Zheng Yuan, Chen Yujie, Mao Xiuli, Wang Huizhi, Shi Wei, Kan Kan, Zhang Yuquan. Pressure pulsation characteristics and its impact on flow-induced noise in mixed-flow pump[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2015, 31(23): 67-73. DOI: 10.11975/j.issn.1002-6819.2015.23.009
    Citation: Zheng Yuan, Chen Yujie, Mao Xiuli, Wang Huizhi, Shi Wei, Kan Kan, Zhang Yuquan. Pressure pulsation characteristics and its impact on flow-induced noise in mixed-flow pump[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2015, 31(23): 67-73. DOI: 10.11975/j.issn.1002-6819.2015.23.009

    混流泵压力脉动特性及其对流动诱导噪声的影响

    Pressure pulsation characteristics and its impact on flow-induced noise in mixed-flow pump

    • 摘要: 为了研究不同工况下混流泵内部压力脉动特性及其对流动诱导噪声的影响,基于RANS方程和SST k-ω湍流模型,对混流泵进行非定常数值计算,在此基础上取叶片表面非定常压力脉动作为声源,采用间接边界元法对由叶片旋转偶极子源所引起的外场噪声进行数值计算。结果表明:混流泵叶轮进出口处的压力脉动幅值均是沿着轮缘到轮毂逐渐减小,叶轮进口处压力系数的最大值是出口处的2倍;沿着蜗壳周向,隔舌部位处压力脉动最为剧烈,随着监测点的位置远离隔舌,其压力脉动情况逐步改善;不同工况下,混流泵内各处的压力脉动主频均保持叶片通过频率不变;混流泵叶轮和蜗壳之间的动静干涉作用是引发流动诱导噪声的主要原因;流动诱导噪声的主频是由压力脉动主频以及泵体结构的固有频率综合决定的;不同工况下,混流泵内部压力脉动程度越强,该工况对应的流动诱导噪声辐射水平越强。该文对混流泵机组的稳定运行以及流动诱导噪声的控制提供了参考。

       

      Abstract: Abstract: As a kind of pump with low head and large capacity, the mixed-flow pump is widely used in large quantities of fields including water conservancy and sewage system of municipal works and so on. The pressure pulsation and flow-induced noise of pump have become two of the most important issues which have negative effect on reliability. The pressure pulsation is the interior performance of the unsteady flow in the pump and the flow-induced noise and vibration are the exterior performance of the unsteady flow in the pump. In order to study the rules of pressure pulsation and flow-induced noise change under different flow rate conditions in a mixed-flow pump and to find the relationship between pressure pulsation and flow-induced noise, the flow field and sound field were numerical simulated. This paper used the PRO/E software to build the pump model and to use the ICEM CFD to conduct the mesh division of the calculated domain. The mixed-flow pump mainly consisted of inlet pipe, impeller, volute and discharge pipe. The unsteady flow was numerical simulated based on RANS solver and SST turbulence model. During the unsteady simulation, the mixed-flow pump rotated for 18 cycles so as to improve the simulation stability. The simulation results of the last 2 periods were used to analyze the time domain characteristics and frequency domain characteristics of pressure pulsation in the pump. And by using the pressure pulsation on the blade as noise source, acoustic Boundary Element Method (BEM) was applied to simulate the flow-induced noise of the mixed-flow pump. The simulation results show that the pressure pulsation amplitude decreases from shroud to hub both at the inlet and outlet of the impeller, and the maximum pressure pulsation appears at the inlet of impeller. So it is crucial to conduct some optimal design for the shroud location in order to weaken the pressure pulsation. Along the circumferential direction in the volute, the pressure pulsation amplitude appears to be the largest near the tongue, the pressure pulsation decreases with the increase of circular angles. And at the outlet of volute, the pressure pulsation appears approximately to be nothing which indicates the flow at this location is steady. The dominant frequency of pressure pulsation in each monitoring point of the mixed-flow pump is always the blade passing frequency under different flow rate conditions. The rotor-stator interaction between the rotating blades and the stationary volute may be the major source of flow-induced noise in the mixed-flow pump. The dominant frequency of flow-induced noise is integral effected by the pressure pulsation and the structure mode of the pump. It is easy to occur resonate between fluid domain and structure domain when the domain frequency of pressure pulsation is closely equal to the domain frequency of the structure mode. The stronger the pressure pulsation is, the more intense the radiation level of corresponding flow-induced noise will produce under the same condition. Weakening the pressure pulsation in the mixed-flow pump is an effective way to reduce the flow-induced noise. This paper has reference value for study on pressure pulsation and flow-induced noise in fluid machinery.

       

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