Nonlinear response of hydraulic turbine generator set caused by unbalanced magnetic pull and oil film force

Journal of Vibration and Control Pub Date : 2024-01-11 DOI:10.1177/10775463231225787

Weipeng Sun, Shen Hu, Chenyuan Ma, Daoli Zhao, Wei Ma, Pengcheng Guo

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Abstract

Hydraulic turbine generator sets are crucial for harnessing water energy. However, the nonlinear phenomena resulting from the combination of unbalanced magnetic pull (UMP) and oil film forces remain unclear. A mathematical model of the rotor-bearing system is introduced to investigate the effects of UMP and the nonlinear oil film force on system. The UMP and nonlinear oil film force are derived from the air-gap magnetic energy and short bearing theory, respectively. The proposed model is verified by the stability experiments of hydraulic turbine generator set in the idling, no-load, and load conditions. The results show that, firstly, the system turns unstable for oil whip and oil swirl, and which experiences bifurcation and undergoes dynamical motions such as period-1 to period-5, quasi-periodic, and chaotic motions. Then, at moderate speeds, the rotor eccentricity has the greatest effect on the bifurcation at idle. While the nonlinear characteristics of the system are most sensitive to the rotor eccentricity at loaded condition. Finally, the existence of UMP reduces the instability caused by oil film forces.

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磁拉力和油膜力不平衡引起的水轮发电机组非线性响应

水力涡轮发电机组对于利用水能至关重要。然而，不平衡磁拉力（UMP）和油膜力共同作用产生的非线性现象仍不清楚。本文引入了转子轴承系统的数学模型，以研究 UMP 和非线性油膜力对系统的影响。UMP 和非线性油膜力分别来自气隙磁能和短轴承理论。提出的模型通过水轮发电机组在空转、空载和负载条件下的稳定性实验进行了验证。结果表明，首先，系统在油鞭和油漩涡作用下变得不稳定，出现分岔并发生周期-1 到周期-5、准周期和混沌运动等动力学运动。然后，在中等速度下，转子偏心率对空转时的分岔影响最大。而在负载状态下，系统的非线性特性对转子偏心率最为敏感。最后，UMP 的存在降低了油膜力引起的不稳定性。

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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Journal of Vibration and Control

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