The effect of fractional viscoelastic supports on the response of a flexible rotor based on H∞ and H2 optimization methods

Heidari, Hamidreza; Ramezannejad Azarboni, Habib; Safarpour, Pedram

doi:10.2140/jomms.2021.16.263

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The effect of fractional viscoelastic supports on the response of a flexible rotor based on $H_\infty$ and $H^2$ optimization methods

Hamidreza Heidari, Habib Ramezannejad and Pedram Safarpour

Vol. 16 (2021), No. 3, 263–280

DOI: 10.2140/jomms.2021.16.263

Abstract

In many cases, the dynamic behavior of a rotating system is strongly influenced by support parameters. The use of viscoelastic supports is a feasible solution for vibration control in rotating machinery. This article sets out to describe how to design an optimal viscoelastic supports for a flexible rotor, while the concept of the fractional order derivative has been applied to the construction of parametric models for viscoelastic supports. The motion equations for the flexible rotor model mounted on viscoelastic supports are derived and the approximately analytical solution is obtained. The optimal parameters of the fractional-order supports are analytically studied for the $H_{\infty}$ and $H_{2}$ optimization criteria. The $H_{\infty}$ optimum parameters such as fractional coefficient and order are obtained based on the classical fixed-points theory to minimize the rotor amplitudes. The $H_{\infty}$ and $H_{2}$ optimization parameters to minimize the total vibration energy of the flexible rotor over the whole-frequency range are also determined. The system optimization design can effectively improve the resonant vibration response as the results show. Consequently, the maximum rotor amplitude of the system can be reduced by more than 50% for both optimization procedures, while the optimum parameters are used. It could be concluded that the fractional viscoelastic support has superiority in vibration engineering, and fractional-order element could replace the traditional damper and spring simultaneously in some cases.

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Keywords

parametric optimization, viscoelastic support, flexible rotor, fractional derivative, optimal damping

Milestones

Received: 2 March 2020

Revised: 19 September 2020

Accepted: 5 November 2020

Published: 15 July 2021

Authors

Hamidreza Heidari
Malayer University Malayer 6571961446 Iran

Habib Ramezannejad
Ramsar Branch, Islamic Azad University Ramsar 6643446919 Iran

Pedram Safarpour
Abbaspour School of Engineering, Shahid Beheshti University Tehran 1658953571 Iran

Vol. 16, No. 3, 2021