Print Email Facebook Twitter Piezoelectric energy harvesting from low frequency vibrations Title Piezoelectric energy harvesting from low frequency vibrations Author Nieuwland, Marsha (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Blad, Thijs (mentor) Steeneken, P.G. (graduation committee) Farhadi Machekposhti, D. (graduation committee) Wiertlewski, M. (graduation committee) Degree granting institution Delft University of Technology Programme Mechanical Engineering | Mechatronic System Design (MSD) Date 2021-11-18 Abstract Vibration energy harvesters have been proposed as a solution to increase the lifetime of wireless and portable medical devices. One example of implantable medical devices for which energy harvesters could be interesting, are pacemakers. With a lifespan of about 6 to 12 years, the battery must be replaced after this period of time. Using an energy harvester instead of a battery is therefore seen as an interesting alternative. However, the human heart rate is usually between 0.6-2Hz and consists of low acceleration peaks (<1g). The use of resonance at low frequency is extremely difficult, especially when the motion amplitude is larger than the device itself. A solution is sought in the non-resonant bistable energy harvesters. When enough force is applied to overcome the potential energy barrier, snap through motion is induced, resulting in a significant increase in power output. However, large threshold accelerations are limiting the usability of these systems. Therefore, stiffness compensation is required. A prototype was fabricated in which buckled flexures were used to add negative stiffness to a piezoelectric cantilever, resulting in a stiffness compensated bistable energy harvester suitable for energy harvesting from low frequency and low force excitations. The dynamical behaviour and practical performance of the prototype was studied in relation to a heartbeat, sawtooth wave and sine waves. The output power of the non-resonant prototype was compared to a resonant device, which in all cases showed that the non-resonant prototype outperformed the resonant device. This shows that stiffness compensated bistable energy harvesters can be used in order to make energy harvesting for low force and low frequency excitations, such as a heartbeat, possible. Subject Vibration Energy HarvestingPiezoelectricityCompliant MechanismsPacemaker To reference this document use: http://resolver.tudelft.nl/uuid:dd4bf3cc-b3a9-4876-91a1-7d1ec546b317 Part of collection Student theses Document type master thesis Rights © 2021 Marsha Nieuwland Files PDF Thesis_Marsha_Nieuwland_1_.pdf 13.71 MB Close viewer /islandora/object/uuid:dd4bf3cc-b3a9-4876-91a1-7d1ec546b317/datastream/OBJ/view