Abstract
In order to improve electromechanical conversion efficiency for dielectric elastomer generators (DEG), on the base of studying DEG energy harvesting cycles of constant voltage, constant charge and constant electric field intensity, a new combined cycle mode and optimization theory in terms of the generating mechanism and electromechanical coupling process have been built. By controlling the switching point to achieve the best energy conversion cycle, the energy loss in the energy conversion process is reduced. DEG generating test bench which was used to carry out comparative experiments has been established. Experimental results show that the collected energy in constant voltage cycle, constant charge cycle and constant electric field intensity energy harvesting cycle decreases in turn. Due to the factors such as internal resistance losses, electrical losses and so on, actual energy values are less than the theoretical values. The electric energy conversion efficiency by combining constant electric field intensity cycle with constant charge cycle is larger than that of constant electric field intensity cycle. The relevant conclusions provide a basis for the further applications of DEG.
Highlights
Dielectric Elastomer (DE) is a kind of electroactive polymers (EAPs) which is applied to the actuator and generator at present
Stress and elastic energy density are better than biological muscles,[7] which makes DE material to be studied as artificial muscle
This paper mainly studies electromechanical conversion efficiency of dielectric elastomer generators (DEG)
Summary
Dielectric Elastomer (DE) is a kind of electroactive polymers (EAPs) which is applied to the actuator and generator at present. DE material as a kind of electronic EAP material belongs to the elastic polymer which has large dielectric constant and changes the shape and volume in external electrical stimulation. As external stimulation is removed, the shape, volume of the material recovers to the original state but the stress and strain change.[8,9,10] According to the material properties and the existing researches, DE material is suitable for the occasion of low frequency energy source and large deformation. After studying hybridization of DE materials and electrets, the method that electrets provide the bias static field necessary for DEG could generate power in low electric field.20,21 2) The research on electromechanical conversion efficiency of generating circuits using a nonlinear approach. Studying the generation characteristics and the influence factors of DEG lays a foundation of promoting the DEG applications
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