Optimization of a piezoelectric energy harvester considering electrical fatigue

Abstract: The application of piezoelectric materials in energy harvesting devices has become an interesting topic for designers in recent years. Most of the reported works consider electrical power as a major parameter throughout the design procedure. What is less discussed is considering other design factors like the fatigue life of the harvester as well as the financial costs of the device. In this research, a methodology is introduced to design an optimum harvester, taking into account the aforementioned design facto… Show more

“…They also extended their approach for studying electrical fatigue of PEH and implemented relevant design optimization. 29 Recently, FE models for resistively shunted piezoelectric devices in geometric nonlinear regime have been reported. 30,31 Most of the above-mentioned FE models are capable of predicting the vibration response of resistively shunted electromechanical systems.…”

Finite element-based assessment of energy harvesting in composite beams with piezoelectric transducers

“…They also extended their approach for studying electrical fatigue of PEH and implemented relevant design optimization. 29 Recently, FE models for resistively shunted piezoelectric devices in geometric nonlinear regime have been reported. 30,31 Most of the above-mentioned FE models are capable of predicting the vibration response of resistively shunted electromechanical systems.…”

Finite element-based assessment of energy harvesting in composite beams with piezoelectric transducers

Control and modelling evaluation of a piezoelectric harvester system

Experimental study on fatigue degradation of piezoelectric energy harvesters under equivalent traffic load conditions