Nonlinear and multiscale dynamics of smart materials in energy harvesting

Abstract This special issue is a result of discussions performed during a workshop (with the same name) held in Lublin, February 2014. This meeting served as the seed to invite several experts in the field to present contributions for this Special Topics issue which reflect the present state of the art for research and development of smart materials and their possible applications for energy control and energy harvesting.

[1]  A. Erturk,et al.  On the Role of Nonlinearities in Vibratory Energy Harvesting: A Critical Review and Discussion , 2014 .

[2]  Yong Wang,et al.  Structural optimum design of bistable cylindrical shell for broadband energy harvesting application , 2015 .

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[4]  Sondipon Adhikari,et al.  Adaptive tuned piezoelectric MEMS vibration energy harvester using an electrostatic device , 2015 .

[5]  D. Tan,et al.  Magnetic force of piezoelectric cantilever energy harvesters with external magnetic field , 2015 .

[6]  Grzegorz Górski,et al.  Energy harvesting in the nonlinear electromagnetic system , 2015 .

[7]  K. Nakano,et al.  Broadband vibration energy harvesting by application of stochastic resonance from rotational environments , 2015 .

[8]  Christopher R. Bowen,et al.  Principles of thermoacoustic energy harvesting , 2015 .

[9]  Olfa Kanoun,et al.  Response analysis of a nonlinear magnetoelectric energy harvester under harmonic excitation , 2015 .

[10]  Shaikh Faruque Ali,et al.  Analysis of energy harvesting from multiple pendulums with and without mechanical coupling , 2015 .

[11]  Alper Erturk,et al.  Internal resonance for nonlinear vibration energy harvesting , 2015 .

[12]  Grzegorz Litak,et al.  Vibration energy harvesting by a Timoshenko beam model and piezoelectric transducer , 2015 .

[13]  A. Arockiarajan,et al.  Piezomagnetoelastic broadband energy harvester: Nonlinear modeling and characterization , 2015 .

[14]  H. Abdelmoula,et al.  Ultra-wide bandwidth improvement of piezoelectric energy harvesters through electrical inductance coupling , 2015 .

[15]  Francesco Cottone,et al.  Effect of boundary conditions on piezoelectric buckled beams for vibrational noise harvesting , 2015 .

[16]  Yang Bai,et al.  Nonlinear piezoelectric devices for broadband air-flow energy harvesting , 2015 .

[17]  Abdessattar Abdelkefi,et al.  Nonlinear dynamics and comparative analysis of hybrid piezoelectric-inductive energy harvesters subjected to galloping vibrations , 2015 .

[18]  Olfa Kanoun,et al.  Nonlinear analysis of an electrodynamic broadband energy harvester , 2015 .

[19]  Jens Twiefel,et al.  Survey on broadband techniques for vibration energy harvesting , 2013 .

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[21]  D. J. Inman,et al.  Chaos control applied to piezoelectric vibration-based energy harvesting systems , 2015 .

[22]  Just L. Herder,et al.  Bistable vibration energy harvesters: A review , 2013 .

[23]  José Manoel Balthazar,et al.  Chaos control and impact suppression in rotor-bearing system using magnetorheological fluid , 2015 .

[24]  Ryan L. Harne,et al.  A review of the recent research on vibration energy harvesting via bistable systems , 2013 .

[25]  M. Savi,et al.  Synergistic use of smart materials for vibration-based energy harvesting , 2015 .

[26]  Mohammed F. Daqaq,et al.  A ferrofluid-based energy harvester: An experimental investigation involving internally-resonant sloshing modes , 2015 .

[27]  Z. Hadas,et al.  Nonlinear spring-less electromagnetic vibration energy harvesting system , 2015 .

[28]  C. Bowen,et al.  Porous ferroelectrics for energy harvesting applications , 2015, The European Physical Journal Special Topics.

[29]  P. Grześ,et al.  Mechanical and electrical impedance matching in a piezoelectric beam for Energy Harvesting , 2015 .

[30]  Grzegorz Litak,et al.  Dynamics of composite nonlinear systems and materials for engineering applications and energy harvesting – The role of nonlinear dynamics and complexity in new developments , 2013 .

[31]  Marek Borowiec,et al.  Energy harvesting of cantilever beam system with linear and nonlinear piezoelectric model , 2015 .

[32]  José Manoel Balthazar,et al.  Motion and vibration control of a slewing flexible structure by SMA actuators and parameter sensitivity analysis , 2015 .