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Modeling analysis and experiments of a novel hydro-pneumatic suspension with piezoelectric energy harvester

Yulong Wang, Tianliang Wu, Zonghui Ran, Bao-Zhan Lv, Shuang Wang

2023Smart Materials and Structures10 citationsDOIOpen Access PDF

Abstract

Abstract With the rapid development of the semiconductor field, the application of micro-electro-mechanical systems embedded in smart devices and driverless vehicles is gradually widespread, and the problem of the self-powered of devices has gradually been attention. Hence, this study propose a novel hydro-pneumatic suspension system by embedding piezoelectric energy harvester into hydro-pneumatic suspensions, which makes the suspension structure simple and achieves the effect of self-powered for the monitoring and the diagnostics of a vehicle or its subsystems. The mathematical model of intermediate fixed piezoelectric energy harvester with hydro-pneumatic suspension was established. The influence of hydraulic component and exitation parameters of suspension system on damping force and power is analyzed. Numerical simulation proves that the novel hydro-pneumatic suspension with piezoelectric energy harvester is justified to achieve self-powered. The bench test proves the accuracy of some of the conclusions of the simulation and the feasibility of the structure.

Topics & Concepts

Suspension (topology)PiezoelectricityEnergy harvestingEngineeringPower (physics)Energy (signal processing)Mechanical energyMechanical engineeringActuatorAutomotive engineeringPneumatic actuatorElectrical engineeringPhysicsMathematicsQuantum mechanicsHomotopyPure mathematicsInnovative Energy Harvesting TechnologiesAdvanced Sensor and Energy Harvesting MaterialsVibration Control and Rheological Fluids
Modeling analysis and experiments of a novel hydro-pneumatic suspension with piezoelectric energy harvester | Litcius