水泵水轮机转轮模态节径分量及流激振动特性分析OA
Analysis of diametrical components of pump-turbine runner modes and flow-induced vibration
转轮的流激振动是水泵水轮机组面临的重大挑战,而模态分析是研究转轮流激振动特性的关键路径.本文采用声固耦合方法求解了水泵水轮机转轮在实际流道中的固有模态,并通过对转轮外缘圆周线上的位移分布进行傅里叶级数展开来识别各模态振型中的节径数.基于动静干涉水力激振理论,采用声固耦合模型计算了特定激励下转轮的谐响应特性,并分析了特定激励下的错频避振区间.结果表明,转轮各模态振型中均包含多个节径分量.对于9叶片转轮而言,模态振型中的节径数总是耦合产生其值增减9所对应的节径分量.值得注意的是,对应于衍生节径数的激励力可有效激发以原节径数为主导的固有模态.另外,水泵水轮机转轮的某些高阶模态在特定激励下表现出了与低阶模态幅值相当的强烈共振.这些现象说明水泵水轮机转轮的实际激振特性比当前行业内的普遍认知更加复杂,同时对其避振设计提出了更高的要求.
Flow-induced vibration of a pump-turbine runner is a major challenge in practical operation,and modal analysis is key to understanding its characteristics.This study uses an acoustic-structure coupling method to determine the natural modes of a prototype pump-turbine runner in the flow passage.The nodal diametrical numbers in each mode are identified through Fourier series expansion of the distribution of the runner outer rim displacement along its circular path.Based on the rotor-stator interaction(RSI)theory,the harmonic responses of the runner under specific excitations are calculated using an acoustic-structure coupling model,and its frequency avoidance range is then examined.The results show each runner mode contains multiple diametrical components.For a 9-blade runner,its natural mode numbers always couple with those associated components taking values with a difference of±9.It is noteworthy that an excitation force that matches the derived diametrical number can effectively excite the natural mode dominated by the original one.In addition,under specific excitations,certain higher-order modes exhibit strong resonance with amplitudes comparable to those of lower-order modes.These findings indicate the real excitation characteristics of pump-turbine runners are more complicated than commonly assumed,posing greater challenges in vibration avoidance.
夏翔;靳发业;韩文福;孟龙;邓磊
国网电力工程研究院有限公司,北京 100069国网电力工程研究院有限公司,北京 100069国网电力工程研究院有限公司,北京 100069国网电力工程研究院有限公司,北京 100069国网电力工程研究院有限公司,北京 100069
能源科技
水泵水轮机转轮固有模态节径分量流激振动动静干涉
pump-turbine runnernatural modediametrical componentflow-induced vibrationrotor-stator interaction
《水力发电学报》 2026 (5)
44-54,11
国网电力工程研究院有限公司自有基金研究开发项目(52500126000C)
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