Three-Dimensional Modeling for Mechanical Analysis of Hydropower Generators with Floating Rotor Rim

Machines Pub Date : 2024-04-17 DOI:10.3390/machines12040268
D. Rondon, Simon Pääjärvi, J. Aidanpää, R. Gustavsson, Peter Jeppsson
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Abstract

Hydropower generators withstand multiple forces from diverse sources during operation. To ensure their stability and safe performance, numerical tools are developed to characterize their dynamic properties. Traditionally, generators are assumed to be rigid in rotordynamic analyses. However, the measurements in power stations challenge this assumption. This article proposes a novel approach to modeling hydropower generators with floating rotor rims using a three-dimensional (3-D) Finite Element Method, aiming to study their dynamic performance and properties, including natural frequencies, the modes of vibrations, and expansion due to centrifugal and electromagnetic forces, with the goal of improving the reliability of modern designs. Both this approach and employing a two-dimensional (2-D) model using curved beams result in similar in-plane natural frequencies and the expansion of the rotor rim due to centrifugal forces. However, the 3-D model can be used to calculate the out-of-plane natural frequencies and modes, to model the dynamics of complex geometries, and to perform stress evaluation and fatigue analysis.
用于浮动转子轮缘水力发电机机械分析的三维建模
水力发电机在运行过程中会承受来自不同来源的多种力。为确保其稳定性和安全性能,我们开发了数值工具来描述其动态特性。传统上,发电机在旋转动力学分析中被假定为刚性的。然而,发电站的测量结果对这一假设提出了挑战。本文提出了一种使用三维(3-D)有限元方法对具有浮动转子轮缘的水力发电机进行建模的新方法,旨在研究其动态性能和特性,包括固有频率、振动模式以及离心力和电磁力引起的膨胀,目的是提高现代设计的可靠性。这种方法和使用弧形梁的二维(2-D)模型都会产生类似的平面内固有频率以及离心力导致的转子边缘膨胀。不过,三维模型可用于计算平面外固有频率和模态,建立复杂几何形状的动力学模型,以及进行应力评估和疲劳分析。
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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