Exploring limiting factors of wear in pitch bearings of wind turbines with real-scale tests

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Karsten Behnke, F. Schleich
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引用次数: 5

Abstract

Abstract. Oscillating movements under load can cause wear in rolling bearings. Blade bearings of wind turbines are subject to both. To know how to avoid wear in these bearings is important since they ensure the operational safety of the turbine. Oscillations of blade bearings vary in load, speed, and amplitude. The objective of this work is to find limits of these operating parameters with regards to wear occurrence. To this end several tests with real-size bearings were carried out. The test parameters are based on typical operating conditions of a reference turbine. The size of the bearings and the test parameters differ from other published tests for oscillating bearings, where often scaled bearings are used results. The test results show that wear occurs for every tested combination of load, speed, and amplitude of a steady oscillating movement. Even if the wear characteristics differ between tests, each of them resulted in wear. Hence, no wear limits can be defined with the tested grease and within typical operating conditions of a wind turbine below which wear does not occur. Tests with a discontinuity in the steady oscillation movement, however, did not result in wear. Such discontinuities can be longer movements embedded in steady oscillations. They are characteristic to wind turbine operation, where longer movements are a reaction to wind gusts.
用实际试验探讨风力涡轮机变桨轴承磨损的限制因素
摘要负载下的摆动会导致滚动轴承磨损。风力涡轮机的叶片轴承受两者的约束。了解如何避免这些轴承磨损非常重要,因为它们可以确保涡轮机的运行安全。叶片轴承的振动因负载、速度和振幅而异。这项工作的目的是找出这些操作参数在磨损发生方面的极限。为此,对实际尺寸的轴承进行了几次测试。试验参数基于参考涡轮机的典型运行条件。轴承的尺寸和测试参数与其他已发表的摆动轴承测试不同,在这些测试中,经常使用缩放轴承的结果。测试结果表明,稳定振荡运动的负载、速度和振幅的每一个测试组合都会发生磨损。即使不同测试的磨损特性不同,每种测试都会导致磨损。因此,在风力涡轮机的典型磨损条件下,测试的润滑脂不能确定磨损极限,低于该条件不会发生磨损。然而,稳定振荡运动不连续的测试并没有导致磨损。这种不连续性可能是嵌入不稳定振荡的较长运动。它们是风力涡轮机运行的特征,在风力涡轮机运行中,较长的运动是对阵风的反应。
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来源期刊
Wind Energy Science
Wind Energy Science GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
6.90
自引率
27.50%
发文量
115
审稿时长
28 weeks
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