International audienceIn this paper an electromagnetic transducer is optimized to harvest energy from a galloping harvesting system. An electromagnetic modeling of the harvester is firstly proposed by means of Finite Element Analysis (FEA). A comparison with experimental values is done for the model validation. A new transducer is developed to increase the harvesting energy and improve the efficiency. An electromechanical model is developed and validated by means of experimental measurements
A fully coupled electro-fluid-elastic model for electromagnetic energy harvesting from Transverse Ga...
A new electromagnetic energy harvester has been designed to generate electricity from mechanical vib...
In a realistic environment, the wind speed generally is relatively low, which impedes the further pr...
This paper presents an investigation on analysis and characteristics of aerodynamic electromagnetic ...
Due to a large oscillation amplitude, galloping can be an admissible scenario to actuate the piezoel...
This thesis presents a new design for an electromagnetic energy harvester to be used in both linear ...
Modeling and comparative analysis of galloping-based hybrid piezoelectric-inductive energy harvestin...
Aeroelastic energy harvesters are a promising technology for powering wireless sensors and microelec...
This study aims to develop a device for harvesting electrical energy from low-speed natural wind. Fo...
Energy harvesting is presented by the conversion of ambient mechanical energy into usable electrical...
In this paper, the maximum obtainable energy from a galloping cantilever beam is found. The system c...
AbstractThis paper presents development of the rotational electromagnetic energy harvesting transduc...
This thesis is dealing with creation of computation model of energy harvestors. Harvestors based on ...
This study presents a new design of a piezoelectric-electromagnetic energy harvester to enlarge the ...
The objective of this study is to validate the experimental modal parameter of electromagnetic energ...
A fully coupled electro-fluid-elastic model for electromagnetic energy harvesting from Transverse Ga...
A new electromagnetic energy harvester has been designed to generate electricity from mechanical vib...
In a realistic environment, the wind speed generally is relatively low, which impedes the further pr...
This paper presents an investigation on analysis and characteristics of aerodynamic electromagnetic ...
Due to a large oscillation amplitude, galloping can be an admissible scenario to actuate the piezoel...
This thesis presents a new design for an electromagnetic energy harvester to be used in both linear ...
Modeling and comparative analysis of galloping-based hybrid piezoelectric-inductive energy harvestin...
Aeroelastic energy harvesters are a promising technology for powering wireless sensors and microelec...
This study aims to develop a device for harvesting electrical energy from low-speed natural wind. Fo...
Energy harvesting is presented by the conversion of ambient mechanical energy into usable electrical...
In this paper, the maximum obtainable energy from a galloping cantilever beam is found. The system c...
AbstractThis paper presents development of the rotational electromagnetic energy harvesting transduc...
This thesis is dealing with creation of computation model of energy harvestors. Harvestors based on ...
This study presents a new design of a piezoelectric-electromagnetic energy harvester to enlarge the ...
The objective of this study is to validate the experimental modal parameter of electromagnetic energ...
A fully coupled electro-fluid-elastic model for electromagnetic energy harvesting from Transverse Ga...
A new electromagnetic energy harvester has been designed to generate electricity from mechanical vib...
In a realistic environment, the wind speed generally is relatively low, which impedes the further pr...