Investigation on Distributed Vibration Damping of Bridge Based on Energy Harvesting Technique and Finite Element Analysis

Based on the vibration control method and energy harvesting principle in the bridge field, this paper proposes a distributed vibration reduction and energy harvesting method for bridges. Firstly, the analytical solutions of the induced electromotive force, output power and magnetic damping generated...

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Bibliographic Details
Published in:Applied sciences 2023-01, Vol.13 (1), p.382
Main Authors: Yang, Hailu, Chen, Qun, Liu, Huifang, Chang, Haoran, Yang, Shih-Hsien, Wang, Linbing, Liu, Pengfei
Format: Article
Language:English
Subjects:
bridge vibration reduction
Circuit design
circuit simulation
Collectors
Control methods
Electric potential
Electromotive forces
Energy
Energy harvesting
Energy output
Exact solutions
Finite element analysis
Finite element method
Magnetic fields
Monitoring systems
Nodes
numerical simulation
Power supply
Sensors
Structural vibration
Vibration
Vibration analysis
Vibration control
Vibration damping
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Summary:Based on the vibration control method and energy harvesting principle in the bridge field, this paper proposes a distributed vibration reduction and energy harvesting method for bridges. Firstly, the analytical solutions of the induced electromotive force, output power and magnetic damping generated by a coil in a magnetic field were deduced through an electromagnetic theory analysis. In addition, the structural vibration equation under the magnetic damping was deduced. Then, a new method of joint simulation and modeling analysis of vibration and energy output was proposed. Finally, the structural vibration reduction and energy output power were analyzed and calculated. The main research results are as follows: by calculating the instantaneous power of the energy collection of the designed circuit, the average instantaneous power collected by the design method is 1.093 × 10−9 W; the initial vibration signal of the target node is obtained through analysis, and the vibration signal of the node before and after applying the electromagnetic damping force is transformed. For the energy analysis, the energy of the acceleration curve before and after the node was calculated to be 3.1048 × 108 and 3.1044 × 108, respectively, and the reduction rate of the node vibration energy was 0.01% and 0.02%, respectively. Thus, the feasibility and vibration reduction effect of the designed bridge distributed vibration reduction and energy harvesting method is verified when the electromagnetic damping force is small. This method can provide new ideas for bridge structure vibration reduction and energy harvesting research and is of great significance to the infrastructure construction and utilization of renewable energy.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13010382