In this paper, forced vibration experiments on flexible piezoelectric devices operating in both
air and water environments are discussed. Validation of the theoretical analysis method for …

In the case of an elastically mounted rectangular prism with a side ratio of less than D/H= 0.5
(where D: depth of a bluff body in the flow direction, H: height of a bluff body normal to the …

We have developed a way of harvesting electrical energy from ocean power, eg tide, current
wave, breaking wave and vortex, using a Flexible PiezoElectric Device (FPED) consisting of …

The purpose of this study is to improve FPED (Flexible PiEzoelectric Device) we have
developed. The FPED consisting of piezo-electric polymer film (PVDF) is a way of harvesting …

An experimental study of a small, efficient and flexible piezoelectric power generator is
presented herein. Forced vibration experiments were performed and the results show …

We have developed a new wave power generator using flexible piezoelectric device (FPED)
which is a hydro-electric ocean energy unit designed to convert renewable energy …

The piezoelectric energy harvesting devices for the conversion of mechanical vibration into
electric energy via a flexible piezoelectric energy harvesting (FPED) structure have gained …

为提高微小型压电发电机的发电性能, 设计了一种悬臂梁式的柔性风力发电机,
通过实验与理论相结合的方法, 分析了柔性悬臂梁振子的结构类型和结构尺寸对发电机输出电压 …

We have developed a flexible piezoelectric device (FPED) composed of polyvinylidene
fluoride (PVDF) and functional resin to generate electric power from wind energy with wide …

In this study, the power generated by a flexible piezoelectric device (FPED) assuming
engine vibration is presented. An FPED is designed considering the frequency of the vehicle …