Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator
I. Kühne, A. van der Linden, J. Seidel, M. Schreiter, L. Fromme, A. Frey, in: COMSOL AB (Ed.), Proceedings COMSOL Conference 2011, 2011.
DOI
Konferenzbeitrag
| Veröffentlicht
| Englisch
Autor*in
Kühne, Ingo;
van der Linden, Ad;
Seidel, Julian;
Schreiter, Matthias;
Fromme, Lars
;
Frey, Alexander
;
Frey, Alexanderherausgebende Körperschaft
COMSOL AB
Abstract
In this paper we consider a piezoelectric energy harvesting module for a tire based wireless sensor node application. A dedicated MEMS harvester operated with a non-resonant excitation scheme is proposed. In context with this novel operation scheme, dissipative damping mechanisms have to be taken into account for the MEMS design. In this work we investigate the fluid-structure interaction of the energy harvesting MEMS generator with the surrounding gas. According to the design requirements, a COMSOL simulation setup is described. Simulation results are presented and discussed with respect to experimental results. (https://www.comsol.com/paper/fluid-structure-interaction-modeling-for-an-optimized-design-of-a-piezoelectric-11860)
Erscheinungsjahr
Titel des Konferenzbandes
Proceedings COMSOL Conference 2011
Konferenz
COMSOL Conference 2011
Konferenzort
Stuttgart
Konferenzdatum
2011-10-26 – 2011-10-28
ISBN
FH-PUB-ID
Zitieren
Kühne, Ingo ; van der Linden, Ad ; Seidel, Julian ; Schreiter, Matthias ; Fromme, Lars ; Frey, Alexander: Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator. In: COMSOL AB (Hrsg.): Proceedings COMSOL Conference 2011, 2011
Kühne I, van der Linden A, Seidel J, Schreiter M, Fromme L, Frey A. Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator. In: COMSOL AB, ed. Proceedings COMSOL Conference 2011. ; 2011. doi:10.57720/4686
Kühne, I., van der Linden, A., Seidel, J., Schreiter, M., Fromme, L., & Frey, A. (2011). Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator. In COMSOL AB (Ed.), Proceedings COMSOL Conference 2011. Stuttgart. https://doi.org/10.57720/4686
@inproceedings{Kühne_van der Linden_Seidel_Schreiter_Fromme_Frey_2011, title={Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator}, DOI={10.57720/4686}, booktitle={Proceedings COMSOL Conference 2011}, author={Kühne, Ingo and van der Linden, Ad and Seidel, Julian and Schreiter, Matthias and Fromme, Lars and Frey, Alexander}, editor={COMSOL ABEditor}, year={2011} }
Kühne, Ingo, Ad van der Linden, Julian Seidel, Matthias Schreiter, Lars Fromme, and Alexander Frey. “Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator.” In Proceedings COMSOL Conference 2011, edited by COMSOL AB, 2011. https://doi.org/10.57720/4686.
I. Kühne, A. van der Linden, J. Seidel, M. Schreiter, L. Fromme, and A. Frey, “Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator,” in Proceedings COMSOL Conference 2011, Stuttgart, 2011.
Kühne, Ingo, et al. “Fluid-Structure Interaction Modeling for an Optimized Design of a Piezoelectric Energy Harvesting MEMS Generator.” Proceedings COMSOL Conference 2011, edited by COMSOL AB, 2011, doi:10.57720/4686.
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