环下润滑结构对径向收油环收油效率影响的数值计算研究

Le Jiang, Zhen Xia Liu, Ya Guo Lyu

科研成果: 期刊稿件文章同行评审

9 引用 (Scopus)

摘要

In order to study the flow process in the under-race lubrication system and the influencing factors of the oil capture efficiency of the oil scoop, based on the VOF (Volume of Fluid) two-phase flow model and the numerical calculation method of the slide mesh model, the calculation model of the internal flow field of the under-race lubrication is established. Through the numerical calculation, the oil capture efficiency of the oil scoop was obtained and the validity of the numerical calculation results was verified. The effects of different structural parameters on the oil capture efficiency were analyzed and discussed. The calculation results show that the oil capture efficiency and flow phenomenon obtained by this paper numerical method are consistent with the existing experimental and numerical calculation results. The angle of the oil jet nozzle and the radius of the oil scoop mainly affect the splash volume of the oil jet impinging oil scoop blade and the amount of oil that is cut by oil scoop blade. The oil capture efficiency depends on the relative values of the above two reasons. θ=0°, θ=9° and r_0=2mm, r_0=6mm, the oil capture efficiency has reached a maximum value. The number of oil scoop blades and the distance between the oil jet nozzle and the tip of the oil blade affect the time interval of the oil scoop blade cutting oil jet and the flow of oil jet before it reaches the oil scoop blade, respectively. This does not affect the splashing amount of the oil jet impinging the oil scoop blade and the cutting oil jet by the oil scoop blade, which has little effect on the oil capture efficiency.

投稿的翻译标题Numerical Investigation for Effects of under-Race Lubrication Structure on Oil Capture Efficiency of Radial Oil Scoop
源语言繁体中文
页(从-至)1387-1395
页数9
期刊Tuijin Jishu/Journal of Propulsion Technology
41
6
DOI
出版状态已出版 - 1 6月 2020

关键词

  • Computational fluid dynamics
  • Flow distribution
  • Lubrication system
  • Oil capture efficiency
  • Two-phase flow

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