A bimorph piezoelectric energy harvester is developed for harvesting energy under the vortex induced vibration and it is integrated to a host structure of a trapezoidal plate without changing its passive dynamic properties. It is aimed to select trapezoidal plate as similar to a vertical fin-like structure which could be a part of an air vehicle. The designed energy harvester consists of an aluminum beam and two identical multi fiber composite (MFC) piezoelectric patches. In order to understand the dynamic characteristic of the trapezoidal plate, finite element analysis is performed and it is validated through an experimental study. The bimorph piezoelectric energy harvester is then integrated to the trapezoidal plate at the most convenient...
The objective of the research is to design a high power energy harvester device through a two-piece ...
The concept of \u201cenergy harvesting\u201d is to design smart systems to capture the ambient energ...
Since the energy demand increases, the sources of fluid energy such as wind energy and marine energy...
Inspired by vortex induced vibration energy harvesting development as a new source of renewable ener...
In recent days, clean energy alternatives are searched and application of these alternatives are stu...
Vibration energy harvesting using piezoelectric cantilevers has been widely studied during the past ...
Vibration-based energy harvesting has been investigated by several researchers over the last decade....
This paper presents a theoretical model for simulating a piezoelectric beam bimorph power harvester ...
This letter presents a piezoelectric bimorph with auxetic (negative Poisson’s ratio) behaviors for i...
To convert as much vibration energy as possible into electrical energy, the design of a high-perform...
ABSTRACT: Power harvesting devices are designed to convert the ambient energy surround-ing a system ...
International audiencePiezoelectric generators designed for harvesting vibratory energy are usually ...
AbstractThe paper presents a lumped parameter model of a vibration energy harvester consisting of a ...
The research goal in vibration-based energy harvesting is to convert waste vibration energy availabl...
The demand for powering small electronics has stimulated the development of vibration energy harvest...
The objective of the research is to design a high power energy harvester device through a two-piece ...
The concept of \u201cenergy harvesting\u201d is to design smart systems to capture the ambient energ...
Since the energy demand increases, the sources of fluid energy such as wind energy and marine energy...
Inspired by vortex induced vibration energy harvesting development as a new source of renewable ener...
In recent days, clean energy alternatives are searched and application of these alternatives are stu...
Vibration energy harvesting using piezoelectric cantilevers has been widely studied during the past ...
Vibration-based energy harvesting has been investigated by several researchers over the last decade....
This paper presents a theoretical model for simulating a piezoelectric beam bimorph power harvester ...
This letter presents a piezoelectric bimorph with auxetic (negative Poisson’s ratio) behaviors for i...
To convert as much vibration energy as possible into electrical energy, the design of a high-perform...
ABSTRACT: Power harvesting devices are designed to convert the ambient energy surround-ing a system ...
International audiencePiezoelectric generators designed for harvesting vibratory energy are usually ...
AbstractThe paper presents a lumped parameter model of a vibration energy harvester consisting of a ...
The research goal in vibration-based energy harvesting is to convert waste vibration energy availabl...
The demand for powering small electronics has stimulated the development of vibration energy harvest...
The objective of the research is to design a high power energy harvester device through a two-piece ...
The concept of \u201cenergy harvesting\u201d is to design smart systems to capture the ambient energ...
Since the energy demand increases, the sources of fluid energy such as wind energy and marine energy...