两相流润滑对高速低温条件下螺旋槽机械密封密封性能的影响

Jianlei Wang, Longsheng Lei, Jianke Li, Chenyang Liu, Qian Jia, Xingyu Fan, Yahui Cui
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引用次数: 0

摘要

液体火箭发动机中的涡轮泵轴由于工作在温度极低、速度极快和压力极高的环境中,其功能变得异常复杂。考虑到这些运行条件,在机械密封端面的液膜内形成两相流是非常有可能的。这种液气混合物会显著改变整个端面的流体润滑模式,并对整体密封稳定性产生影响。本研究基于层流和混合物多相流模型,研究了螺旋槽机械密封中密封间隙中流体的相变特性。研究了液氮介质在极端温度、转速和压力下的两相流动特性和相变行为。密封性能通过泄漏率、开启力和内部气相体积比等指标进行量化。研究结果为了解操作条件对液膜相变的影响提供了宝贵的见解。此外,我们还发现并阐述了泄漏率、开启力和液膜相变行为之间错综复杂的相互联系。
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Effect of two-phase flow lubrication on sealing performance of spiral groove mechanical seal under high speed and low temperature conditions
The function of the turbo-pump shaft within the liquid rocket engine is rendered exceedingly complex due to the operation in an environment characterized by drastically low temperatures, elevated velocities, and high pressures. Given these operational conditions, it is highly plausible that a two-phase flow might form within the liquid film located on the terminal face of the mechanical seal. This liquid-vapor mixture significantly modifies the fluid lubrication pattern across the end faces and poses consequential implications on the overall sealing stability. In this study, the phase change characteristics of the fluid in the seal clearance were investigated based on the Laminar and Mixture multi-phase flow models in a spiral groove mechanical seal. The behaviors of two-phase flow characteristics and phase transition under extreme temperature, rotational speed and pressure with liquid nitrogen media were studied. The sealing performance was quantified through metrics including the leakage rate, opening force, and internal gas phase volume ratio. The findings offered valuable insights into the role of operational conditions in influencing the phase change of the liquid film. Moreover, we discerned and explicated the intricate interconnections between the leakage rate, the opening force, and the phase change behavior of the liquid film.
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