Global nonlinear distributed-parameter model of parametrically excited piezoelectric energy harvesters

Abstract: A global nonlinear distributed-parameter model for a piezoelectric energy harvester under parametric excitation is developed. The harvester consists of a unimorph piezoelectric cantilever beam with a tip mass. The derived model accounts for geometric, inertia, piezoelectric, and fluid drag nonlinearities. A reduced-order model is derived by using the EulerLagrange principle and Gauss law and implementing a Galerkin discretization. The method of multiple scales is used to obtain analytical expressions for the t… Show more

“…Many investigations have focused on ambient vibration-based energy harvesting. [1][2][3][4][5][6] On the other hand, harvesting energy from fluid flows at low speed is desirable in many applications including the deployment of self-powered sensors or batteries in buildings, rivers, and airstreams. Several recent studies [7][8][9][10][11][12][13] have focused on the conversion of aeroelastic vibrations in airfoil sections to electrical power.…”

Performance enhancement of piezoelectric energy harvesters from wake galloping

“…Many investigations have focused on ambient vibration-based energy harvesting. [1][2][3][4][5][6] On the other hand, harvesting energy from fluid flows at low speed is desirable in many applications including the deployment of self-powered sensors or batteries in buildings, rivers, and airstreams. Several recent studies [7][8][9][10][11][12][13] have focused on the conversion of aeroelastic vibrations in airfoil sections to electrical power.…”

Performance enhancement of piezoelectric energy harvesters from wake galloping

“…10 Nevertheless, the practical implementation of this strategy is limited by the extent to which the nonlinear coefficient can be increased independent of linear stiffness elements, as in applied nonlinear magnetic force for instance. The problem becomes more intractable at higher frequencies, where stiffer systems would be required.…”

“…These zones occur at a plethora of frequency ratios 2=n; with n ¼ 1; 2; … . When a nonlinear spring restores the motion of the oscillator, the unstable motion turns to the periodic orbit, 10 which may serve vibration energy harvesting purposes.…”

“…under axial excitations, a setting which can potentially lead to parametric instability. 9,10 Multiple scale analyses have demonstrated the influence of the critical excitation amplitude, giving rise to stable oscillations. Daqaq and Bode 11 exploited parametric resonance in order to channel the energy away from the superharmonic components of the excitation to their fundamental resonant response.…”

“…The average power depends on the response amplitude a, as shown in Eq. (10). The condition for real-valued amplitudes requires the square root argument in Eq.…”

Broadband energy harvesting from parametric vibrations of a class of nonlinear Mathieu systems

Mechanical Energy Harvesters