汽轮发电机组轴系弯振模态及临界转速影响因素分析OA
Analysis of the lateral vibration modes and critical speed factors of steam turbine generator shaft systems
汽轮发电机组轴系在临界转速下运行容易产生共振,影响机组的安全稳定运行.现有关于汽轮发电机组轴系弯振临界转速的研究多针对单转子或整个轴系,对各转子与轴系之间临界转速的关系研究不足.本文以某600 MW汽轮发电机组轴系为研究对象,首先建立无支承轴承的机组轴系传递矩阵模型和三维有限元模型,计算出轴系的弯振固有模态;然后利用有限元法分析含支承轴承的轴系与各单转子的临界转速及其模态振型的关系;最后讨论各转子的支承轴承油膜刚度对轴系临界转速的影响规律.研究发现,轴系前六阶模态振型以临界转速低于且最接近于轴系对应临界转速的单转子的模态振型为主,其中五、六阶模态存在该单转子及其相邻转子的组合振动;随着轴系中各转子的轴承油膜刚度增大,仅轴系模态振型与该转子振动有关阶次的轴系临界转速明显升高,而其余阶次临界转速基本不变.研究结果可为大型机组的轴系设计和弯振监测提供参考.
The operation of steam turbine generator shaft systems near critical speeds can induce resonant vibrations,compromising operational safety and stability.While existing studies have extensively investigated the lateral vibration critical speeds of individual rotors or the entire shaft system,the relationship between the critical speeds of constituent rotors and the integrated shaft system remains underexplored.Here,a 600 MW turbine-generator shaft system is examined by first establishing a transfer matrix model and a three-dimensional finite element model without support bearings to derive its inherent bending modes.Subsequently,finite element analysis is employed to elucidate the correlation between the critical speeds and modal shapes of the fully supported shaft system and those of its individual rotors.Furthermore,the influence of bearing oil film stiffness on the shaft system's critical speeds is systematically evaluated.Findings reveal that the first six modal shapes of the shaft system are predominantly governed by the modes of the individual rotor whose critical speed is closest to,yet lower than,the corresponding shaft system critical speed.Notably,the fifth and sixth modes exhibit coupled vibrations involving this rotor and its adjacent counterparts.Increasing the oil film stiffness of a rotor's bearings selectively elevates the critical speeds of shaft system modes associated with that rotor,while leaving other modes largely unaffected.These insights provide a foundational framework for optimizing the design and vibration monitoring of large-scale steam turbine generator shaft systems.
乔迪;李娟;杨俊杰
北京信息科技大学自动化学院,北京 100192北京信息科技大学自动化学院,北京 100192北京信息科技大学自动化学院,北京 100192
汽轮发电机组轴系弯振临界转速油膜刚度
steam turbine generator unitshaft systemlateral vibrationcritical speedoil film stiffness
《电气技术》 2026 (2)
13-24,12
国家自然科学基金项目(51477010)
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