Print Email Facebook Twitter A new type of energy harvester for traffic induced bridge vibrations Title A new type of energy harvester for traffic induced bridge vibrations Author van den Bergh, Michael (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Goosen, J.F.L. (mentor) Dunning, A.G. (graduation committee) van de Wetering, E. (graduation committee) Degree granting institution Delft University of Technology Programme Mechanical Engineering | Precision and Microsystems Engineering Date 2023-01-18 Abstract Energy harvesters subtract energy from their surroundings and convert this to electrical energy. Even though energy output is generally low, energy harvesters can offer great value by offering the possibility of self-sustaining devices, combined with the developments in low power semiconductors. Many examples can be found of applications that would benefit from energy harvesting. Not for all of these, suitable harvesters have been designed. Research has concluded that lacking performance of vibration energy harvesters (VEH) in the application fields of human wearables and remote sensing is the main hurdle in the widespread implementation. One application within remote sensing is wireless sensor nodes for monitoring the health of buildings and infrastructure, such as bridges.For the company Kinergizer, a feasibility study has been performed in this research for a new type of VEH for traffic induced bridge vibrations. Challenges lay in the intermittent character of the vibrations, because many VEH are resonant based, combined with low amplitudes and accelerations. In the performed study, a VEH design is presented for these vibrations, a mathematical of the dynamics has been made and a proof-of-concept is build which is tested under repeatable (harmonic and shocks) accelerations and under bridge-like conditions.With the tested system parameters, the mechanism is able to harvest energy from the repeatable tests, but not from the bridge-like excitations. Further research is needed to determine whether, with suggested alterations, the presented working mechanism might be able to. Subject Vibration Energy Harvestinglow frequencynon-resonant energy harvesting To reference this document use: http://resolver.tudelft.nl/uuid:bedc6ea2-4e5c-4dac-b80a-3cfcec4ccc54 Embargo date 2023-01-31 Coordinates 51.99298376665427, 4.385046261681973 Part of collection Student theses Document type master thesis Rights © 2023 Michael van den Bergh Files PDF Thesis_MvdB_4518586.pdf 9.39 MB Close viewer /islandora/object/uuid:bedc6ea2-4e5c-4dac-b80a-3cfcec4ccc54/datastream/OBJ/view