Focus Area Project: Project B 03
Lattice Boltzmann for linear elastodynamics: Periodic problems and Dirichlet boundary conditions
2025 | O. Boolakee, M. Geier, L. De Lorenzis: Lattice Boltzmann for linear elastodynamics: Periodic problems and Dirichlet boundary conditions Computer Methods in Applied Mechanics and Engineering, 433, 117469, 2025, https://doi.org/10.1016/j.cma.2024.117469.
Project B 03
Direct cumulant lattice Boltzmann simulations of transitional flow in gyroidal structures including experimental validation
2024 | H. Alihussein, A. Prasannakumar, M. Geier, M. Krafczyk: Direct cumulant lattice Boltzmann simulations of transitional flow in gyroidal structures including experimental validation Computers & Mathematics with Applications, 157, 2024,…
Prof. Dr. rer. nat. Martin Geier
He substantially contributes to model development and implementation related aspects of WPs 1-2 and will contribute to the analysis of simulation results with special focus on WP 5.A new lattice Boltzmann scheme for linear elastic solids: periodic problems
2023 | O. Boolakee, M. Geier, L. De Lorenzis: A new lattice Boltzmann scheme for linear elastic solids: periodic problems. In: Computer methods in applied mechanics and engineering, 415 (2023)…A new lattice Boltzmann scheme for linear elastic solids: periodic problems
2023 | O. Boolakee, M. Geier, L. De Lorenzis: A new lattice Boltzmann scheme for linear elastic solids: periodic problems. In: Comput. Methods Appl. Mech. Engrg. 404 (2023) 115756
Prof. Dr.-Ing. Manfred Krafczyk
is responsible for WPs 3-5 and contributes to HPC and setup related aspects of the corresponding simulations. He advises Dr. Kutscher in conducting the simulations and the analysis of the results. He also takes responsibility for the data exchange with other projects within the TRR.
