Active Control of Submerged Systems by Moving Mass

• Main Author: Mohammad Yaghoub Abdollahzadeh Jamalabadi
• Format: Article
• Language: English
• Published: MDPI AG 2021-01-01
• Series: Acoustics
• Subjects: active control; vibration suppression; submerged plate; fluid–solid interaction
• Online Access: https://www.mdpi.com/2624-599X/3/1/5

In this study, the active vibration control of a rectangular plate submerged in water was investigated. Mass dampers were attached to the plate, and the system was modeled via assumed mode. Water is modeled as an inviscid fluid with moving boundaries at fluid–solid interaction surfaces and applied forces on the plate being calculated by Bernoulli equation. The natural frequencies of the plate in vacuum and in water (for partial and fully submerged cases) found from numerical calculations are compared with experimental results to prove the accuracy of the model. Subsequently, for frequency computations, particular frequencies were chosen and active damping was applied for them. To actively control the plate’s vibration by a moving mass with static stable methods, the displacement data of some points were used as input. First, to increase the damping of target mode at low-frequency, the negative acceleration feedback control algorithm in modal-space was applied. Then, the decentralized method was examined. Both methods were successful in suppressing vibration of the submerged rectangular plate.