Combined with the characteristics of traditional vibration control methods, this paper proposes an optimization method of pipe vibration control based on vibration damping mass. Through the establishment of the pipeline vibration control strategy, a vibration damping mass structure is designed to realize the limit vibration, and the optimal control of the output energy of the pipeline system at the support position is realized. The method can be used in the optimization of pipeline vibration control, and support some engineering applications. When installing damping masses on a single straight pipe, the installation position and number of damping masses are not sensitive to the vibration energy output of the pipeline system. It is recommended not to consider the above independent variables in the optimization process. This study is basically feasible in engineering applications, providing more design strategies and technical means for vibration control of existing pipeline systems without introducing excessive safety risks and costs.

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Study on the Application of Vibration Resistance Mass in Pipe Vibration Optimization

  • Shuai Liu,
  • Wanyou Li,
  • Rui Zhang,
  • Furui Xiong,
  • Xiaoming Bai,
  • Xiaozhou Jiang,
  • Xuan Huang

摘要

Combined with the characteristics of traditional vibration control methods, this paper proposes an optimization method of pipe vibration control based on vibration damping mass. Through the establishment of the pipeline vibration control strategy, a vibration damping mass structure is designed to realize the limit vibration, and the optimal control of the output energy of the pipeline system at the support position is realized. The method can be used in the optimization of pipeline vibration control, and support some engineering applications. When installing damping masses on a single straight pipe, the installation position and number of damping masses are not sensitive to the vibration energy output of the pipeline system. It is recommended not to consider the above independent variables in the optimization process. This study is basically feasible in engineering applications, providing more design strategies and technical means for vibration control of existing pipeline systems without introducing excessive safety risks and costs.