Analysis of pressure fluctuation characteristics of the flow field in the cycloid rotor oil pump

Authors

WANG Wen, Hunan Province Key Laboratory of Safety Design and Reliability Technology for Engineering Vehicle, Changsha University of Science and Technology, Changsha, Hunan 410114, China
LI Wenke, Henan Pinggao Electric Co., Ltd., Pingdingshan, Henan 467000, China
HE Shanghong, Hunan Province Key Laboratory of Safety Design and Reliability Technology for Engineering Vehicle, Changsha University of Science and Technology, Changsha, Hunan 410114, China
LIU Guangming, Hunan Oil Pump Co., Ltd., Hengyang, Hunan 421400, China

Abstract

In order to investigate the characteristics of pressure fluctuation in cycloid rotor oil pump, based on RNG k-ε turbulence model and moving mesh, the transient flows for different operating conditions in cycloid rotor pump were investigated numerically and the computational results of flow and efficiency were obtained. The pressure fluctuation at different monitoring points were measured and analyzed in time and frequency domains. The results show that the pressure fluctuation of the flow field in the cycloid rotor oil pump is periodical obviously, the amplitude of pressure fluctuation is smaller in the oil inlet chamber and decreases gradually along the oil pipeline of the outlet, the dominant pressure fluctuation frequencies of different monitoring points are fundamental frequency and the second harmonic under corresponding working conditions, the amplitude of pressure fluctuation increases gradually with the increasing of rotational speed. The pressure pulsation test is performed on the outlet of the rotor oil pump and the results shows a good agreement with the simulation results, which verifies the reliability of simulation results.

Publication Date

6-28-2018

First Page

81

Last Page

85,120

DOI

10.13652/j.issn.1003-5788.2018.06.017

Recommended Citation

Wen, WANG; Wenke, LI; Shanghong, HE; and Guangming, LIU (2018) "Analysis of pressure fluctuation characteristics of the flow field in the cycloid rotor oil pump," Food and Machinery: Vol. 34: Iss. 6, Article 17.
DOI: 10.13652/j.issn.1003-5788.2018.06.017
Available at: https://www.ifoodmm.cn/journal/vol34/iss6/17

References

[1] 吴伟蔚, 马富银. 汽车发动机机油泵的综合性能评价[J]. 中国公路学报, 2012, 25(2): 134-141.
[2] 王福军, 张玲, 张志民. 轴流泵不稳定流场的压力脉动特性研究[J]. 水利学报, 2007, 38(8): 1 003-1 009.
[3] GUO Shi-jie, YOSHIYUKI Maruta. Experimental investigations on pressure fluctuations and vibration of the impeller in a centrifugal pump with vaned diffusers[J]. JSME International Journal, 2005, 48(1): 136-143.
[4] 朱荣生, 苏保稳, 杨爱玲, 等. 离心泵压力脉动特性分析[J]. 农业机械学报, 2010, 41(11): 43-47.
[5] 王肖祎, 仲兆平, 王泽宇, 等. 流化床内生物质石英砂混合流动压力脉动频谱特性[J]. 中南大学学报: 自然科学版, 2016, 47(1): 279-285.
[6] 王春林, 杨晓勇, 李长军, 等. 混流式主泵模型泵内部流场压力脉动特性研究[J]. 核动力工程, 2013, 34(4): 47-52.
[7] 牟介刚, 刘剑, 郑水华, 等. 隔舌对离心泵压力脉动特性及内部流场的影响[J]. 中南大学学报: 自然科学版, 2016, 47(12): 4 090-4 098.
[8] 高强, 吴伟蔚, 李金国. 摆线转子式机油泵的流体特性分析[J]. 机床与液压, 2011, 39(13): 29-32.
[9] 袁寿其, 薛菲, 袁建平, 等. 离心泵压力脉动对流动噪声影响的试验研究[J]. 排灌机械, 2009, 27(5): 287-290.
[10] 代翠, 孔繁余, 董亮, 等. 泵作透平尾水管压力脉动特性分析与试验[J]. 中南大学学报: 自然科学版, 2015, 46(8): 3 131-3 137.
[11] 张德胜, 耿琳琳, 施卫东, 等. 轴流泵水力模型压力脉动和振动特性的试验研究[J]. 农业机械学报, 2015, 46(6）: 66-72.
[12] 王松林, 谭磊, 王玉川. 离心泵瞬态空化流动及压力脉动特性[J]. 振动与冲击, 2013, 32(22): 168-173.
[13] 施卫东, 姚捷, 张德胜, 等. 不同转速下轴流泵压力脉动试验[J]. 农业机械学报, 2014, 45(3): 66-71.
[14] 马富银, 黄新良, 吴伟蔚, 等. 齿轮机油泵性能测试试验方案设计[J]. 噪声与振动控制, 2012(3): 212-216.
[15] 叶宪枝. 圆弧—摆线转子泵结构设计及流场特性仿真分析[D]. 重庆: 重庆大学, 2012: 16-20.
[16] 王玉川, 谭磊, 曹树良, 等. 离心泵叶轮区瞬态流动及其压力脉动特性[J]. 机械工程学报, 2014, 50(10): 163-169.
[17] LIU Shu-hong, LI Sheng-cai, WU Yu-lin. Pressure fluctuation prediction of a model Kaplan turbine by unsteady turbulent flow simulation[J]. Journal of fluids Engineering, 2009, 297(5 866): 495-496.
[18] 刘厚林, 周孝华, 王凯, 等. 多级离心泵径向导叶内压力的脉动特性[J]. 中南大学学报: 自然科学版, 2014, 45(9): 3 295-3 300.
[19] 张方晓. 内啮合齿轮泵流量特性的研究[D]. 济南: 济南大学, 2006: 33-35.
[20] 施卫东, 姚捷, 张德胜, 等. 采样频率和时间对轴流泵压力脉动特性的影响[J]. 排灌机械工程学报, 2013, 31(3): 190-194.