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Article Dans Une Revue Smart Materials and Structures Année : 2023

Piezoelectric small scale generator: towards near-Joule output energy generation

Résumé

Abstract Research on piezoelectric microgenerators harvesting energy from vibrations led to an abundant literature, with various strategies to optimize the frequency range and output power. In contrast, for very low frequency range (<10 Hz) and/or for non-harmonic mechanical source, the large majority of the strategies are not adapted. This work deals with a small scale piezoelectric generator where the input mechanical source consists of a single force application in the range of hundreds of Newtons (i.e. typical human weight). Contrary to harmonic mechanical sources, such an application context necessitates harvesting as much as energy as possible in a single cycle. This was achieved by assembling several piezoelectric stacks within a mechanical amplification system, and to use the electric field and stress levels close to the limits of the piezoelectric elements. Ericsson cycle (i.e. thermodynamic cycle comprising two iso-electric field and two iso-stress steps) was applied to the piezoelectric material and later two device prototypes were developed in order to quantify the harvesting capabilities. Finally, in a realistic application point of view, a passive electrical interface based on Bennet’s doubler was implemented and compared to the Ericsson cycles in terms of output energy. This electrical energy management strategy successfully allowed working at ultra-high electric field (>2 kV mm −1 ) enabling a converted energy density close to the ultimate value. An maximal energy density of 320 mJ cm −3 was reached using Ericsson cycles, and 130 mJ cm −3 using Bennet’s doubler (∼40% of the ultimate energy density). The device comprising ∼2.4 cm 3 of piezoelectric material, the net output energy converted and stored per cycle reached 320 mJ. Still, the work presented here can be adapted to other range of forces and displacements for maximizing energy harvesting.
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Dates et versions

hal-04185606 , version 1 (23-08-2023)

Identifiants

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Gael Sebald, Nguyen Thanh Tung, Gaspard Taxil, B Ducharne, Jhordan Chavez, et al.. Piezoelectric small scale generator: towards near-Joule output energy generation. Smart Materials and Structures, 2023, 32 (8), pp.085009. ⟨10.1088/1361-665X/acdf31⟩. ⟨hal-04185606⟩
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