Recent progress on dynamics and control of pipes conveying fluid

• Published in: Nonlinear dynamics Vol. 113; no. 7; pp. 6253 - 6315
• Main Authors: Tang, Ye, Zhang, Hu-Jie, Chen, Li-Qun, Ding, Qian, Gao, Qiuyang, Yang, Tianzhi
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.04.2025; Springer Nature B.V
• Subjects: Active control; Aerospace engineering; Applications of Nonlinear Dynamics and Chaos Theory; Classical Mechanics; Composite materials; Control; Conveying; Deep sea; Dynamical Systems; Engineering; Internal flow; Machine learning; Nuclear reactor components; Oil exploration; Physics; Physics and Astronomy; Pipes; Review; Statistical Physics and Dynamical Systems; Vibration; Fluid-conveying pipes; Vibration control; Dynamics; Recent process
• ISSN: 0924-090X; 1573-269X
• DOI: 10.1007/s11071-024-10486-1

Pipeline systems are crucial in fluid-conveying pipes across diverse engineering disciplines, including aerospace, oil transportation, deep-sea exploration, and nuclear energy projects. The engineering application of fluid-conveying pipes in these fields is significantly constrained by the substantial coupling between the fluid and the pipeline, which is attributed to many factors, such as complex structural and functional design, support conditions, internal flow, and the influence of the external environment. Consequently, the complex dynamic behavior of pipes conveying fluids has garnered considerable attention from scholars in engineering and scientific domains. Given the background of engineering application, this article offers a comprehensive and in-depth analysis and discourse on the most recent research and advancements in the field of vibration and control of fluid-conveying pipes, which includes straight and curved fluid-conveying pipes, fluid-conveying pipes with different geometric configurations, fluid-conveying pipes with complex support and constraints, fluid-conveying pipes with extensive motion superposition, fluid-conveying pipes affected by internal and external flows, multiphase fluid-conveying pipes, fluid-conveying pipes made of composite materials, and passive and active control for fluid-conveying pipes. Here we presented some specific examples of the pipelines applied in practical engineering and explored the role of emerging technology, such as machine learning on dynamics and control. This comprehensive analysis will provide with a deep understanding of the subject matter.