Vibration suppression of a rotating flexible cantilever pipe conveying fluid using piezoelectric layers

Khajehpour, S.; Azadi, Vahid

doi:10.1590/1679-78251535

Cited by 15 publications

(9 citation statements)

References 28 publications

(23 reference statements)

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“…Substituting Equations ( 4)- (6) into Equation (1), one can obtain the governing equation for the cantilevered pipe with dry friction: The following assumptions are introduced: (1) the pipe centerline is inextensible;…”

Section: Theoretical Modelmentioning

confidence: 99%

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Influence of Dry Friction on the Dynamics of Cantilevered Pipes Conveying Fluid

Guo

Wang

et al. 2022

Applied Sciences

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A cantilevered pipe conveying fluid can lose stability via flutter when the flow velocity becomes sufficiently high. In this paper, a dry friction restraint is introduced for the first time, to evaluate the possibility of improving the stability of cantilevered pipes conveying fluid. First, a dynamical model of the cantilevered pipe system with dry friction is established based on the generalized Hamilton’s principle. Then the Galerkin method is utilized to discretize the model of the pipe and to obtain the nonlinear dynamic responses of the pipe. Finally, by changing the values of the friction force and the installation position of the dry friction restraint, the effect of dry friction parameters on the flutter instability of the pipe is evaluated. The results show that the critical flow velocity of the pipe increases with the increment of the friction force. Installing a dry friction restraint near the middle of the pipe can significantly improve the stability of the pipe system. The vibration of the pipe can also be suppressed to some extent by setting reasonable dry friction parameters.

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Section: Theoretical Modelmentioning

confidence: 99%

“…During vibration, harsh and harmful noise may be generated and the pipe system tends to be fatigued and damaged, which may cause economic losses and serious safety accidents [3]. Therefore, the dynamic analysis and vibration control of pipes conveying fluid have attracted much attention [4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Influence of Dry Friction on the Dynamics of Cantilevered Pipes Conveying Fluid

Guo

Wang

et al. 2022

Applied Sciences

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“…Hence, the fluid effects on the dynamics of a heat exchanger system must be examined, and they bring the so-called fluid induced vibration. Investigations such as [Papp and Chen (1994), Tian et al (2000), Khajehpoura and Azadib (2015)] have paid attentions to the fluid effect on the dynamic behaviors in a system. It was found that the fluid effect changes markedly the dynamic characteristics of a system.…”

Section: Dynamic Properties Of Coupled Tube-array Structures With Thementioning

confidence: 99%

Dynamic Properties of Coupled Tube-Array Structures with the Axial Loads

Huang

Tseng

2016

Lat. Am. j. solids struct.

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The tube-array structures coupled both with the fluid and the axial load is focused. In a heat exchanger, the tubes are frequently affected by cold and hot fluid shock waves. Thus, tubes are often found to be vibrated and even to be worn out. This vibration may not only alter the performance of the tubes but also introduce the damage in the heat exchanger. In this work, the dynamic properties of coupled tube-array structures with the axial loads are investigated. Futher, the tube-array structures in a heat exchanger, consisting of periodic cooling tubes are also considered to simulate as a coupled periodic structure system. It is found that each tube of the system is weakly coupled to the adjacent tube via water. By using the Galerkin method, the equations of the coupled system with the fluid effect can be derived. Numerical results reveal that the axial load and fluid effects may influence the dynamic properties of a fluid coupled tubearray structures system of a heat exchanger significantly.

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“…It is generally known that a cantilevered pipe may become unstable and flutter instability would occur when the velocity of the fluid flow in the pipe exceeds a critical value. Indeed, a lot of researchers have endeavored to enhance the stability of cantilevered pipes conveying fluid [7][8][9][10][11][12][13][14][15][16][17], by using either passive or active methods. For instance, Tani et al [12,13] applied a torsional moment to a certain position of the cantilevered fluid-conveying pipe, and then experimentally and numerically studied the suppression effect of the torque on the oscillation responses of the pipe.…”

Section: Introductionmentioning

confidence: 99%

Dynamical Stability of Cantilevered Pipe Conveying Fluid with Inerter-Based Dynamic Vibration Absorber

Liu¹,

Tan²,

Liu³

et al. 2020

Computer Modeling in Engineering &Amp; Sciences

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Cantilevered pipe conveying fluid may become unstable and flutter instability would occur when the velocity of the fluid flow in the pipe exceeds a critical value. In the present study, the theoretical model of a cantilevered fluid-conveying pipe attached by an inerter-based dynamic vibration absorber (IDVA) is proposed and the stability of this dynamical system is explored. Based on linear governing equations of the pipe and the IDVA, the effects of damping coefficient, weight, inerter, location and spring stiffness of the IDVA on the critical flow velocities of the pipe system is examined. It is shown that the stability of the pipe may be significantly affected by the IDVA. In many cases, the stability of the cantilevered pipe can be enhanced by designing the parameter values of the IDVA. By solving nonlinear governing equations of the dynamical system, the nonlinear oscillations of the pipe with IDVA for sufficiently high flow velocity beyond the critical value are determined, showing that the oscillation amplitudes of the pipe can also be suppressed to some extent with a suitable design of the IDVA.

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Vibration suppression of a rotating flexible cantilever pipe conveying fluid using piezoelectric layers

Cited by 15 publications

References 28 publications

Influence of Dry Friction on the Dynamics of Cantilevered Pipes Conveying Fluid

Influence of Dry Friction on the Dynamics of Cantilevered Pipes Conveying Fluid

Dynamic Properties of Coupled Tube-Array Structures with the Axial Loads

Dynamical Stability of Cantilevered Pipe Conveying Fluid with Inerter-Based Dynamic Vibration Absorber

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