Modeling, Analysis and Experimental Validation of a Three Degree of Freedom Electromagnetic Energy Harvester

Chen, Yan

January 2012

Vibration energy harvesting devices have been widely used to power many electronic self-sustainable devices. The aim of this study is to introduce an alternative design to an existing electromagnetic energy harvesting devices to improve the power production of the unit. This thesis presents a multiple degree of freedom compared design and it has demonstrated higher power efficiency over a wider range of frequencies. The power outputs for both the previous single degree of freedom and the current designs are compared and the developed models are validated against their experimental values. Finally, the numerical model is used to find an optimal arrangement to produce the maximum power for the unit.

Energy Harvesting

Electromagnetic

Low Frequency

Multiple degree of freedom

Mechanical Engineering

Modeling, Analysis and Experimental Validation of a Three Degree of Freedom Electromagnetic Energy Harvester

Chen, Yan

January 2012

Vibration energy harvesting devices have been widely used to power many electronic self-sustainable devices. The aim of this study is to introduce an alternative design to an existing electromagnetic energy harvesting devices to improve the power production of the unit. This thesis presents a multiple degree of freedom compared design and it has demonstrated higher power efficiency over a wider range of frequencies. The power outputs for both the previous single degree of freedom and the current designs are compared and the developed models are validated against their experimental values. Finally, the numerical model is used to find an optimal arrangement to produce the maximum power for the unit.

Energy Harvesting

Electromagnetic

Low Frequency

Multiple degree of freedom

Mechanical Engineering