Litcius/Paper detail

A contra-rotating free-spinning energy harvester

Haopeng Ma, Lihua Tang, Haipeng Liu

2023Energy Conversion and Management15 citationsDOIOpen Access PDF

Abstract

In the field of energy harvesting from motions or vibrations, enhancing the performance of a harvester under ultralow frequency and intermittent input sources remains challenging. To address this issue, this paper presents an electromagnetic energy harvester design featuring a novel design and compact arrangement of dual one-way bearings in the magnet and coil layers. The unique one-way bearing design is capable of significantly enhancing the energy harvesting performance by eliminating springs to reduce friction for contra-rotating high-speed free-spinning motions. The devised harvester is characterised under various controlled low-frequency excitation conditions, yielding a maximum average power of 8 mW at the excitation frequency of 1 Hz. A finite element simulation is then performed to validate the performance of the energy harvester. Furthermore, with a minimized form factor, the energy harvesting capability of the proposed harvester in real-life applications of powering electronic devices is demonstrated. The innovative approach from this work holds substantial promise for high-performance energy harvesting from reciprocating motions in ultralow frequency scenarios.

Topics & Concepts

Energy harvestingReciprocating motionSpinningVibrationMagnetEnergy (signal processing)Electromagnetic coilPower (physics)Mechanical engineeringEngineeringExcitationElectrical engineeringBearing (navigation)Work (physics)AcousticsAutomotive engineeringComputer sciencePhysicsGas compressorArtificial intelligenceQuantum mechanicsInnovative Energy Harvesting TechnologiesEnergy Harvesting in Wireless NetworksWireless Power Transfer Systems