西南石油大学学报(自然科学版)

• 石油机械工程及其他 • 上一篇    下一篇

电潜泵叶轮冲蚀磨损的数值模拟及验证

王尊策,梅思杰,陈思,吕凤霞,闫月娟   

  1. 东北石油大学机械科学与工程学院,黑龙江大庆163318
  • 出版日期:2014-08-01 发布日期:2014-08-01
  • 基金资助:

    国家自然科学基金(11172061);国家科技支撑计划(2012BAH28F03)。

Numerical Simulation and Verification of Particle Impact Erosion Within Electric Submersible Pump

Wang Zunce, Mei Sijie, Chen Si, LÜ Fengxia, Yan Yuejuan   

  1. College of Mechanical Science and Engineering,Northeast Petroleum University,Daqing,Heilongjiang 163318,China
  • Online:2014-08-01 Published:2014-08-01

摘要:

针对同井采注水中电潜泵叶轮出现的冲蚀磨损问题,采用RNG k − e湍流模型和离散相模型,实现对冲蚀磨损的数值模拟。通过对不同粒径和转速条件下叶轮的冲蚀磨损进行分析,得到了冲蚀磨损规律和磨损机理。研究结果表明,叶片凹面中心是最严重的冲蚀磨损区域;转速和砂粒粒径增大都会加剧冲蚀磨损,逐步使冲蚀磨损较严重的区域由凹面中部的一点逐步扩展到整个凹面;0.07 mm 是冲蚀磨损迅速增强的临界点;数值模拟结果与验证结果吻合较好。因此,利用CFD 预测潜油电泵叶轮的冲蚀磨损是可行的。

关键词: 电潜泵, 冲蚀磨损, 离散相, CFD, 数值模拟

Abstract:

Based on RNG k − e turbulence model and discrete phase model,and to realize the numerical simulation for the impact erosion in the electrical submersible pump impeller,we studied the impact erosion process with CFD software. Through the impact erosion analysis of the electrical submersible pump impeller according to the different particle sizes and impeller speed,we obtained the law and mechanism of the impact erosion. The results show that the main position of erosion is the center of the concave leaf blade. The impact erosion will be worse with the increasing in the sand particle size and increasing impeller speed. 0.07 mm is the critical diameter of the erosion′s intensify. The numerical simulation result was verified by a comparison test,which proves that CFD is applicable to the prediction of the particle impact erosion within electric submersible sump.

Key words: electric submersible pump, erosion, discrete phase model, CFD, numerical simulation