Experimental and CFD analysis of a gas-lubricated foil thrust bearing for various foil configurations

IF 1.2 Q3 ENGINEERING, MECHANICAL
R.N. Ravikumar, K.J. Rathanraj, Kumar Arun, S. Supreeth
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引用次数: 0

Abstract

Thrust foil bearings operating at hydrodynamic conditions are self-acting (aerodynamic) bearings that support high-speed shafts at mild loading conditions with air as a lubricant and are generally used in low-power gas turbines. This paper presents an experimental study and a detailed computational analysis of dynamic characteristics of the foil thrust bearing (FTB) in terms of load-carrying capabilities as a function of thrust runner speed and gap between the bearing assembly and the runner by considering the effect of bearing parameters such as number of foils, shape of the foils, and assembly of foils on the bearing pad. The parametric study was conducted on a newly conceptualized bearing test rig capable of rotating up to 45,000 rpm speeds that measured the axial loads of the air foil thrust bearings (AFTB). The computational model of the foil thrust bearings for various configurations with top foils is simulated using multiphysics software for foil deflections and pressure distributions on the foil surface. The numerical results were compared with the experimental values, while the air foil thrust bearings with multilayered foils called cascaded foils (patented) had higher load capability in comparison to other conventional bearing models.
不同叶型的气体润滑叶型止推轴承的实验与CFD分析
在流体动力条件下工作的推力箔轴承是自作用(气动)轴承,在温和的载荷条件下以空气作为润滑剂支持高速轴,通常用于小功率燃气轮机。本文考虑了箔片数量、箔片形状、箔片在轴瓦上的装配方式等轴承参数的影响,从承载能力与推力流道速度、轴承组件与流道间隙的关系等方面进行了实验研究,并对其动态特性进行了详细的计算分析。参数研究是在一个新概念的轴承试验台上进行的,该试验台能够旋转高达45000转/分钟的速度,测量空气箔型推力轴承(AFTB)的轴向载荷。利用多物理场软件对不同顶箔配置的推力轴承计算模型进行了仿真,分析了顶箔的挠度和表面压力分布。数值计算结果与实验值进行了比较,结果表明,与其他传统轴承模型相比,具有多层叶型(称为级联叶型)的空气箔推力轴承具有更高的承载能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
FME Transactions
FME Transactions ENGINEERING, MECHANICAL-
CiteScore
3.60
自引率
31.20%
发文量
24
审稿时长
12 weeks
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