Piezoelectric Aeroelastic Energy Harvesting explains the design and implementation of piezoelectric energy harvesting devices based on fluid-structure interaction. There is currently an increase in demand for low power electronic instruments in a range of settings, and recent advances have driven their energy consumption downwards. As a result, the possibility to extract energy from an operational environment is of growing significance to industry and academic research globally. This book solves problems related to the integration of smart structures with the aeroelastic system, addresses…mehr
Piezoelectric Aeroelastic Energy Harvesting explains the design and implementation of piezoelectric energy harvesting devices based on fluid-structure interaction. There is currently an increase in demand for low power electronic instruments in a range of settings, and recent advances have driven their energy consumption downwards. As a result, the possibility to extract energy from an operational environment is of growing significance to industry and academic research globally.
This book solves problems related to the integration of smart structures with the aeroelastic system, addresses the importance of the aerodynamic model on accurate prediction of the performance of the energy harvester, describes the overall effect of the piezoelectric patch on the dynamics of the system, and explains different mechanisms for harvesting energy via fluid-structure interaction. This wealth of innovative technical information is supported by introductory chapters on piezoelectricmaterials, energy harvesting and circuits, and fluid structure interaction, opening this interdisciplinary topic up for readers with a range of backgrounds.
Dr Hassan Elahi is a Mechatronics Engineer and has completed his PhD from the Department of Mechanical and Aerospace Engineering, Sapienza University of Rome, Italy. He has worked as a Research Associate in the same department. His PhD research thesis was on "Piezoelectric Energy Harvesting by Aeroelastic Means.? Currently he is working as an Assistant Professor at Department of Mechatronics Engineering, National University of Science and Technology, Pakistan. He has obtained Award of Honors in his master's degree. Dr. Elahi has received best paper award related to energy harvesting system for mechatronics devices in 2018 by MDPI.
Dr. Marco Eugeni holds a Master's degree in Space Engineering and PhD in Aerospace Materials and Technologies at Sapienza University of Rome, 2014. Since 2014 he has been an Associate Researcher at Dept. of Mechanical and Aerospace Engineering (DIMA). He is a Participant in various ESA project concerning the Vega launcher and Industry 4.0 applications to Satellite Industry, and since 2016, a consultant to Smart Structures Solutions directly involved in the main experimental campaign carried on. Dr. Eugeni's research topics concentrate in computational mechanics and finite element, aerospace structures, composite structures, thermal structures, intelligent materials and structures, aeroelasticity, viscoelastic materials modeling, structural dynamics, additive manufacturing, and smart manufacturing.
Inhaltsangabe
Part I Introduction 1. Piezoelectric Materials 2. Smart structures 3. Fluid-Structure Interaction
Part II Energy Harvesting 4. Energy harvesting 5. Piezoelectric energy harvesters 6. Energy harvesting and circuits 7. Modelling and simulation of a piezoelectric energy harvester
Part III Aeroelastic Energy Harvesting 8. Flutter-based aeroelastic energy harvesting 9. Limit cycle oscillations 10. Vortex-induced vibrations based aeroelastic energy harvesting 11. Gallooping-based aeroelastic energy harvesting 12. Experimental aeroelastic energy harvesting 13. Concluding remarks
Part I Introduction 1. Piezoelectric Materials 2. Smart structures 3. Fluid-Structure Interaction
Part II Energy Harvesting 4. Energy harvesting 5. Piezoelectric energy harvesters 6. Energy harvesting and circuits 7. Modelling and simulation of a piezoelectric energy harvester
Part III Aeroelastic Energy Harvesting 8. Flutter-based aeroelastic energy harvesting 9. Limit cycle oscillations 10. Vortex-induced vibrations based aeroelastic energy harvesting 11. Gallooping-based aeroelastic energy harvesting 12. Experimental aeroelastic energy harvesting 13. Concluding remarks
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