液膜润滑机械端面密封流体动压沟槽侧壁效应研究  被引量：7

作　　者：于晓康 孟祥铠 梁杨杨 彭旭东 YU Xiaokang;MENG Xiangkai;LIANG Yangyang;PENG Xudong(Institute of Chemical Process Machinery Design,Zhejiang University of Technology,Zhejiang Hangzhou 310032,China)

机构地区：[1]浙江工业大学化工机械设计研究所,浙江杭州310032

出　　处：《摩擦学学报》2022年第2期347-357,共11页Tribology

基　　金：国家自然科学基金项目(51775505)资助。

摘　　要：针对非接触机械密封端面开槽后所出现的膜厚不连续处存在的侧壁效应,在沟槽边界处将广义伯努利方程引入传统润滑方程,建立了考虑动压沟槽侧壁效应的液膜润滑螺旋槽端面机械密封数值分析模型.采用有限单元法结合拉格朗日乘子法求解润滑方程,研究了不同螺旋槽几何参数和工况条件下沟槽侧壁效应对密封性能的影响.结果表明:数值模型可方便捕捉沟槽边界处的压力跃变,侧壁效应在不同螺旋槽深度下表现出截然不同的影响规律,高转速、大螺旋角和小密封间隙下动压沟槽的侧壁效应较为显著.理论模型和计算方法可为超高速工况螺旋槽机械密封的设计和局部惯性效应的研究提供指导.In order to improve the performance of the mechanical face seals,the hydrodynamic grooves are often etched on the face of one seal ring,which will produce the hydrodynamic effect and make the seal faces run in non-contacting states.By this,the wear of the seal faces can be probably avoided.The existence of these grooves leads to the sudden variation of the flow channel,which has influences the pressure distribution of the lubricant film and the sealing performance of the mechanical seal,especially under the high speed conditions.This is called“the sidewall effect”.In this paper,aiming at the sidewall effect due to the film thickness discontinuity at the hydrodynamic grooves boundaries on the non-contacting spiral-grooved mechanical seal face,a numerical analysis model of the spiral-grooved mechanical seal lubricated with the liquid film was established.The generalized Bernoulli equations was introduced and coupled with the Reynolds equations.The computational domain of grooved and non-grooved zone fluid film between seal faces was meshed into triangular grids.The domain decomposition finite element method was used to solve the control equations and the Lagrange multiplier method was applied to deal with the pressure constraints at the groove boundaries introduced by the Bernoulli equations.The numerical method was validated by comparing the present results with the theoretical results and literature data.Then the model was used to analyze the influence of groove sidewall effect on the lubrication film pressure between the seal faces and sealing performance under the different spiral groove geometrical parameters and operating conditions.The results showed that the proposed theoretical model and numerical method can effectively capture the sudden film pressure rise in the divergent region of the liquid film and the sudden pressure drop at the convergent boundary of the liquid film caused by groove sidewall effect.With the proposed model,the local fluid film pressure distribution at the groove boundaries can be

关 键 词：非接触机械密封 侧壁效应 有限单元法 螺旋槽 密封性能 

分 类 号：TH117.2[机械工程—机械设计及理论]