Third Party Funds Group - Sub project
Acronym: Project B IGK 2495
Start date : 01.01.2020
End date : 30.06.2024
Mechano-electrical (ME) energy conversion is a promising and
versatile option for devices that demand novel perspectives in energy
supply and/or require non-invasive noise and vibration reduction. The
objective of this project is twofold. Firstly, we tackle the challenge
of autonomous energy supply for the operation of remotely located
electrical devices. These include measuring devices in meteorology or
environmental monitoring that are oftentimes located offshore or in the
remote locations and that only consume low energy to support their
measuring function and/or for further processing of the measured data.
Secondly, electric motors for pure and hybridized electric vehicles
(PEV, HEV), which often exhibit undesired noise and vibration
characteristics during operation. Here, ME energy conversion is highly
viable for simultaneous energy harvesting and reduction of operation-induced vibrational energy.
This project focuses on novel excitation-conforming ME energy converters, which are able to efficiently exploit the energy contained in the EF spectrum of natural (e.g. wind or water) or defined technical excitations of actuator-driven shape-adaptation. This project will develop advanced continuum modeling, computational optimization and simulation tools that enable the design of shape-adaptive energy harvesting structures by combined shape and topology optimization. Thereby, the overarching goal is to optimize the energy harvesting efficiency of a ME system by adapting its natural frequency spectrum to a given excitation EF spectrum via suited stiffness modulations. We will affect stiffness modulations based on a feedback control via actuation of the shape-adaptive ME system at only a few distinct actuation points.