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张博, 郑昊楷, 孙东生, 丁虎, 陈立群. 双通道旋转输流管临界流速和振动模态分析. 力学学报, 2023, 55(1): 182-191. DOI: 10.6052/0459-1879-22-456
引用本文: 张博, 郑昊楷, 孙东生, 丁虎, 陈立群. 双通道旋转输流管临界流速和振动模态分析. 力学学报, 2023, 55(1): 182-191. DOI: 10.6052/0459-1879-22-456
Zhang Bo, Zheng Haokai, Sun Dongsheng, Ding Hu, Chen Liqun. Theoretical analysis on the critical flow velocity and vibration mode of a twin-channel rotating pipe. Chinese Journal of Theoretical and Applied Mechanics, 2023, 55(1): 182-191. DOI: 10.6052/0459-1879-22-456
Citation: Zhang Bo, Zheng Haokai, Sun Dongsheng, Ding Hu, Chen Liqun. Theoretical analysis on the critical flow velocity and vibration mode of a twin-channel rotating pipe. Chinese Journal of Theoretical and Applied Mechanics, 2023, 55(1): 182-191. DOI: 10.6052/0459-1879-22-456

双通道旋转输流管临界流速和振动模态分析

THEORETICAL ANALYSIS ON THE CRITICAL FLOW VELOCITY AND VIBRATION MODE OF A TWIN-CHANNEL ROTATING PIPE

  • 摘要: 旋转叶片是航空发动机重要零件之一, 服役条件十分恶劣, 常常因振动过量导致其失效. 为了合理设计含冷却通道的叶片, 保证其可靠性与安全性, 需对含冷却通道的叶片的振动特性进行研究. 基于Euler-Bernoulli梁理论, 将叶片简化为含两通道的悬臂旋转输流管, 考虑了通道轴线偏移量对流体动能的影响, 采用Lagrange原理结合假设模态法建立包含双陀螺效应的运动控制方程, 采用降阶扩维的方法求解系统特征值. 研究两通道模型的流速比、转速和长细比等对前3阶特征根曲线影响. 将文章模型退化为简支单通道输流管, 与文献报道结果进行对比, 部分验证建模方法的正确性. 研究发现: 在相同的管道截面积下, 两通道模型的临界流速值大于单通道模型的; 旋转运动引入的陀螺效应会使得第2, 3阶特征根轨迹发生绕圈现象, 并多次穿越虚轴; 随着长细比的增大, 系统会表现出类似非旋转的悬臂输流管的动力学行为; 系统的横向位移模态响应呈现出行波特性, 且在不同参数组合下, 阻尼因子对前3阶模态产生不同的增强或减弱作用.

     

    Abstract: Rotating blade is an essential part of aero-engine. It serves in harsh conditions. Its failure is often caused by excessive vibration. To design the blade properly and to ensure the reliability and safety, the vibration characteristics of the blade need to be revealed. The blade is simplified as a cantilever rotating pipe with double cooling channels based on the Euler-Bernoulli beam theory. The influences of channel axis offset on fluid kinetic energy are considered in the present study. The motion governing equation of the blade is established including the bi-gyroscopic effects with the combination of Lagrange principle and assumed mode method. The method of order reduction and dimension expansion is applied to solve the eigenvalue of the system. The influences of the fluid velocity ratio, rotating speed, slenderness et al. on the first three order eigenvalue curves are studied. The present model degenerates into a simply supported pipe conveying fluid with a single channel to compare with the results reported in literature. The correctness of the present modeling method is verified, partly. The velocity ratio of two channels has great influence on the first three order critical flow velocity values. For a given value of the cross-section area of the cooling passage, the critical flow velocity of the twin-channel model is higher than the single-channel model. A circling phenomenon is introduced to on the second and the third eigenvalue curves by the gyroscopic effect due to the rotating motion. The second and the third eigenvalue curves travel through the imaginary axis several times. With the increase of the slenderness ratio, the system’s dynamic behaviors are similar to the non-rotating cantilever pipe. Moreover, due to the gyroscopic effect, the modal response of the lateral displacement presents a traveling wave property. And the damping factor has different enhancement or weakening effects on the first three modes under different parameter conditions.

     

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