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Job Record #19495 | |
Title | Master Thesis: Numerical simulation of FSI by LBM-FEM coupling |
Category | Internship |
Employer | Ecole Centrale de Nantes |
Location | France, Nantes |
International | Yes, international applications are welcome |
Closure Date | Friday, January 31, 2025 |
Description: | |
Title: Building a numerical virtual platform for evaluating flexible floating photovoltaic panels In this internship, the objective is to build up an efficient numerical platform for virtually assessing the thin-film floating PV panels in terms of the structure’s response under the water wave excitation, which is essentially a fluid-structure interaction (FSI) problem. The free-surface flow shall be modeled using the lattice Boltzmann method (LBM) by means of an open-source software named OpenLB [2]. The thin-film will be simulated with the corotational finite element method (FEM), which is to be coupled with LBM via the immersed boundary method (IBM) [3][4][5][6] developed within the research group in LHEEA since almost ten years. For more details, please refer to: https://www.linkedin.com/posts/mtech-hoe_internship-on-numerical-simulation-of- fsi-activity-7270335504250765312-0krp?utm_source=share&utm_medium=member_desktop Period: From March to August in 2025 Salary: about 600 euros per month Requirement: the candidate should already have a M1-Master level, i.e. this is M2-Master thesis References: [1] Where Sun Meets Water: Floating Solar Market Report. World Bank, Washington, ESMAP 2019. [2] A. Kummerländer, T. Bingert, F. Bukreev, et al. OpenLB Release 1.7: Open Source Lattice Boltzmann Code. Version 1.7. Feb. 2024. [3] Z. Li, J. Favier, U. D’Ortona, et al. An immersed boundary-lattice Boltzmann method for single- and multi-component fluid flows. Journal of Computational Physics 304: 424-440, 2016. [4] Z. Li, W. Cao, D. Le Touzé. On the coupling of a direct-forcing immersed boundary method and the regularized lattice Boltzmann method for fluid-structure interaction. Computers & Fluids 190: 470-484, 2019. [5] Z. Li, G. Oger, D. Le Touzé. A partitioned framework for coupling LBM and FEM through an implicit IBM allowing non-conforming time-steps: application to fluid- structure interaction in biomechanics. Journal of Computational Physics 449: 110786, 2022. [6] Z. Li, X.R. Huang, L. Fang. Numerical modeling of fluid–structure– piezoelectric interaction for energy harvesting. Computer Methods in Applied Mechanics and Engineering 414: 116164, 2023. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19495 when responding to this ad. | |
Name | Zhe LI |
zhe.li@ec-nantes.fr | |
Email Application | Yes |
Record Data: | |
Last Modified | 08:35:51, Friday, December 20, 2024 |
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