Vibration control of fluid-conveying pipes: a state-of-the-art review
Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications. They are subject to various excitations from the conveying fluids, the supporting structures, and the working environment, and thus are prone to vibrations such as flow-induced v...
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| Published in | Applied mathematics and mechanics Vol. 44; no. 9; pp. 1423 - 1456 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.09.2023
Springer Nature B.V Shaoxing Institute of Technology,Shanghai University,Shaoxing 312074,Zhejiang Province,China Shanghai Key Laboratory of Mechanics in Energy Engineering,School of Mechanics and Engineering Science,Shanghai University,Shanghai 200072,China Shanghai Institute of Aircraft Mechanics and Control,Shanghai 200092,China%School of Mechanical and Mechatronic Engineering,University of Technology Sydney,New South Wales 2007,Australia |
| Edition | English ed. |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications. They are subject to various excitations from the conveying fluids, the supporting structures, and the working environment, and thus are prone to vibrations such as flow-induced vibrations and acoustic-induced vibrations. Vibrations can generate variable dynamic stress and large deformation on fluid-conveying pipes, leading to vibration-induced fatigue and damage on the pipes, or even leading to failure of the entire piping system and catastrophic accidents. Therefore, the vibration control of fluid-conveying pipes is essential to ensure the integrity and safety of pipeline systems, and has attracted considerable attention from both researchers and engineers. The present paper aims to provide an extensive review of the state-of-the-art research on the vibration control of fluid-conveying pipes. The vibration analysis of fluid-conveying pipes is briefly discussed to show some key issues involved in the vibration analysis. Then, the research progress on the vibration control of fluid-conveying pipes is reviewed from four aspects in terms of passive control, active vibration control, semi-active vibration control, and structural optimization design for vibration reduction. Furthermore, the main results of existing research on the vibration control of fluid-conveying pipes are summarized, and future promising research directions are recommended to address the current research gaps. This paper contributes to the understanding of vibration control of fluid-conveying pipes, and will help the research work on the vibration control of fluid-conveying pipes attract more attention. |
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| AbstractList | Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications. They are subject to various excitations from the conveying fluids, the supporting structures, and the working environment, and thus are prone to vibrations such as flow-induced vibrations and acoustic-induced vibrations. Vibrations can generate variable dynamic stress and large deformation on fluid-conveying pipes, leading to vibration-induced fatigue and damage on the pipes, or even leading to failure of the entire piping system and catastrophic accidents. Therefore, the vibration control of fluid-conveying pipes is essential to ensure the integrity and safety of pipeline systems, and has attracted considerable attention from both researchers and engineers. The present paper aims to provide an extensive review of the state-of-the-art research on the vibration control of fluid-conveying pipes. The vibration analysis of fluid-conveying pipes is briefly discussed to show some key issues involved in the vibration analysis. Then, the research progress on the vibration control of fluid-conveying pipes is reviewed from four aspects in terms of passive control, active vibration control, semi-active vibration control, and structural optimization design for vibration reduction. Furthermore, the main results of existing research on the vibration control of fluid-conveying pipes are summarized, and future promising research directions are recommended to address the current research gaps. This paper contributes to the understanding of vibration control of fluid-conveying pipes, and will help the research work on the vibration control of fluid-conveying pipes attract more attention. O326; Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications.They are subject to various excitations from the conveying fluids,the supporting structures,and the working environment,and thus are prone to vibrations such as flow-induced vibrations and acoustic-induced vibrations.Vibrations can generate variable dynamic stress and large deformation on fluid-conveying pipes,leading to vibration-induced fatigue and damage on the pipes,or even leading to failure of the entire piping system and catastrophic accidents.Therefore,the vibration control of fluid-conveying pipes is essential to ensure the integrity and safety of pipeline systems,and has attracted considerable attention from both researchers and engineers.The present paper aims to provide an extensive review of the state-of-the-art research on the vibration control of fluid-conveying pipes.The vibration analysis of fluid-conveying pipes is briefly discussed to show some key issues involved in the vibration analysis.Then,the research progress on the vibration control of fluid-conveying pipes is reviewed from four aspects in terms of passive control,active vibration control,semi-active vibration control,and structural optimization design for vibration reduction.Furthermore,the main results of existing research on the vibration control of fluid-conveying pipes are summarized,and future promising research directions are recommended to address the current research gaps.This paper contributes to the understanding of vibration control of fluid-conveying pipes,and will help the research work on the vibration control of fluid-conveying pipes attract more attention. |
| Author | Ding, Hu Ji, J. C. |
| AuthorAffiliation | Shanghai Key Laboratory of Mechanics in Energy Engineering,School of Mechanics and Engineering Science,Shanghai University,Shanghai 200072,China;Shaoxing Institute of Technology,Shanghai University,Shaoxing 312074,Zhejiang Province,China;Shanghai Institute of Aircraft Mechanics and Control,Shanghai 200092,China%School of Mechanical and Mechatronic Engineering,University of Technology Sydney,New South Wales 2007,Australia |
| AuthorAffiliation_xml | – name: Shanghai Key Laboratory of Mechanics in Energy Engineering,School of Mechanics and Engineering Science,Shanghai University,Shanghai 200072,China;Shaoxing Institute of Technology,Shanghai University,Shaoxing 312074,Zhejiang Province,China;Shanghai Institute of Aircraft Mechanics and Control,Shanghai 200092,China%School of Mechanical and Mechatronic Engineering,University of Technology Sydney,New South Wales 2007,Australia |
| Author_xml | – sequence: 1 givenname: Hu surname: Ding fullname: Ding, Hu email: dinghu3@shu.edu.cn organization: Shanghai Key Laboratory of Mechanics in Energy Engineering, School of Mechanics and Engineering Science, Shanghai University, Shaoxing Institute of Technology, Shanghai University, Shanghai Institute of Aircraft Mechanics and Control – sequence: 2 givenname: J. C. surname: Ji fullname: Ji, J. C. email: jin.ji@uts.edu.au organization: School of Mechanical and Mechatronic Engineering, University of Technology Sydney |
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| Snippet | Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications. They are subject to various... O326; Fluid-conveying pipes are widely used to transfer bulk fluids from one point to another in many engineering applications.They are subject to various... |
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| SubjectTerms | Active control Applications of Mathematics Catastrophic failure analysis Classical Mechanics Conveying Design optimization Fatigue failure Flow generated vibrations Fluid- and Aerodynamics Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Partial Differential Equations Passive control Pipes Piping systems State-of-the-art reviews Vibration analysis Vibration control Working conditions |
| Title | Vibration control of fluid-conveying pipes: a state-of-the-art review |
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