Active vibration control of a rotating machine with voltage-driven electrodynamic actuators between machine feet and steel frame foundation under multiple base excitations

  • Purpose: In the paper, a theoretical analysis—based on a 2D multibody model—is presented regarding active vibration control of a rotating machine with voltage-driven electrodynamic actuators between machine feet and steel frame foundation under multiple base excitations. Methods: Mathematical formulations are derived in the time domain and then transferred into the Laplace domain, where a state space formulation is used to describe the controlled vibration system. With this mathematical formulations, it is possible to analyze separately the two different kinds of actuator forces—the actuator forces, caused by the motion-induced voltage and the actuator forces caused by the control system—and their influence on the vibration behavior. Afterward, the mathematical formulations are transferred into the Fourier domain, for considering harmonic excitations of the base. Also a numerical example is presented, where different cases regarding machine mounting and operation conditions are investigated and compared to eachPurpose: In the paper, a theoretical analysis—based on a 2D multibody model—is presented regarding active vibration control of a rotating machine with voltage-driven electrodynamic actuators between machine feet and steel frame foundation under multiple base excitations. Methods: Mathematical formulations are derived in the time domain and then transferred into the Laplace domain, where a state space formulation is used to describe the controlled vibration system. With this mathematical formulations, it is possible to analyze separately the two different kinds of actuator forces—the actuator forces, caused by the motion-induced voltage and the actuator forces caused by the control system—and their influence on the vibration behavior. Afterward, the mathematical formulations are transferred into the Fourier domain, for considering harmonic excitations of the base. Also a numerical example is presented, where different cases regarding machine mounting and operation conditions are investigated and compared to each other. Results: It could be clearly demonstrated that with the presented control system, most of the resonance peaks in the frequency responses could be strongly damped. Conclusions: With the presented mathematical formulations, the controlled vibration system can be well described, considering separately the two different kinds of electrodynamic actuator forces and their influence.show moreshow less

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Metadaten
Author:Ulrich WernerORCiD
DOI:https://doi.org/10.1007/s42417-023-01100-6
Parent Title (English):Journal of Vibration Engineering & Technologies
Publisher:Springer
Editor:ulrich wernerORCiD
Document Type:Article
Language:English
Date of first Publication:2023/10/05
Reviewed:Begutachtet/Reviewed
Release Date:2025/12/11
Tag:Active vibration control; Base excitation; Rotating machines; Voltage-driven electrodynamic actuators
GND Keyword:Rotating machines; Active vibation control; Voltage-driven electrodynamic actuators; Base excitation
Volume:12
Pagenumber:3977–4004
institutes:Institut für leistungselektronische Systeme ELSYS
Research Themes:Energie & Ressourcen
Licence (German):Keine Lizenz - Deutsches Urheberrecht gilt
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