1. Self-Powered Active Vibration Control: Concept, Modeling, and Testing
- Author
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Jin-Yang Li and Songye Zhu
- Subjects
Self-powered active vibration control ,Energy harvesting ,Skyhook control ,Power equilibrium ,Smart control ,Engineering (General). Civil engineering (General) ,TA1-2040 - Abstract
Despite their superior control performance, active vibration control techniques cannot be widely used in some engineering fields because of their substantial power demand in controlling large-scale structures. As an innovative solution to this problem, an unprecedented self-powered active vibration control system was developped in this study. The topological design, working mechanism, and power flow of the proposed system are presented herein. The self-powering ability of the system was confirmed based on a detailed power flow analysis of vibration control processes. A self-powered actively controlled actuator was designed and applied to a scaled active vibration isolation table. The feasibility and effectiveness of the innovative system were successfully validated through a series of analytical, numerical, and experimental investigations. The setup and control strategy of the proposed system can be readily extended to diversified active vibration control applications in various engineering fields.
- Published
- 2022
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