Influence of axial clearance on load distribution in double supported tapered roller bearings of wind turbine main shaft

IF 1.8 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Yanwei Yuan, Jianmei Wang, Lu Ren, Jiguang Chen
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引用次数: 0

Abstract

The operational safety and stability of wind turbines are highly determined by the characteristics of main bearings, which are influenced by the axial clearance. In this paper, for the arrangement type of double-supported tapered roller bearings on the wind turbine main shaft, the actual clearance distribution assumption is established, and a new method of calculating the internal load distribution taking into account the axial clearance is proposed. Firstly, the mathematical relationship between the clearance of tapered roller bearings and ring displacement, contact deformation, and load interval is described. Secondly, the load components of main bearings are calculated by force balance equation and load-displacement condition. Finally, a mathematical model of main bearings including axial clearance is established, and it is numerically solved to obtain the internal load distribution of the bearings. The calculation results of a large megawatt wind turbine example show that: the axial load of both main bearings is negatively correlated with the sum of axial clearances; the number of loaded rolling elements is negatively correlated with the sum of axial clearances; and there exists an optimal value of the sum of axial clearances for main bearings to reach the optimal load carrying state.
轴向游隙对风力涡轮机主轴双支撑圆锥滚子轴承载荷分布的影响
风力发电机的运行安全性和稳定性在很大程度上取决于主轴承的特性,而主轴承的特性又受到轴向游隙的影响。本文针对风力发电机主轴上双支撑圆锥滚子轴承的布置形式,建立了实际游隙分布假设,并提出了考虑轴向游隙的内部载荷分布计算新方法。首先,描述了圆锥滚子轴承游隙与套圈位移、接触变形和载荷间隔之间的数学关系。其次,通过力平衡方程和载荷-位移条件计算主轴承的载荷分量。最后,建立了包括轴向游隙在内的主轴承数学模型,并通过数值求解得到了轴承的内部载荷分布。大型兆瓦级风力发电机实例的计算结果表明:两个主轴承的轴向载荷与轴向游隙之和呈负相关;受载滚动体的数量与轴向游隙之和呈负相关;主轴承的轴向游隙之和存在一个达到最佳承载状态的最佳值。
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
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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