| | Issue Date | Title | Author(s) | |
1 | | 2021 | Validation of the dynamic wake meandering model with respect to loads and power production | Reinwardt, Inga; Schilling, Levin; Steudel, Dirk; Dimitrov, Nikolay; Dalhoff, Peter; Breuer, Michael |
2 | | 2022 | On the Stability and Transition to Turbulence of the Flow over a Wind-Turbine Airfoil under Varying Free-Stream Turbulence Intensity | Fava, Thales C. L.; Lobo, Brandon A.; Schaffarczyk, Alois P.; Breuer, Michael ; Hanifi, Ardeshir; Henningson, Dan S. |
3 | | 2020 | Numerical investigations on the dynamic behavior of a 2-DOF airfoil in the transitional Re number regime based on fully coupled simulations relying on an eddy-resolving technique | De Nayer, Guillaume ; Breuer, Michael ; Wood, Jens Nikolas |
4 | | 21-Feb-2022 | Neural-network based approach for modeling wall-impact breakage of agglomerates in particle-laden flows applied in Euler–Lagrange LES | Khalifa, Ali ; Breuer, Michael ; Gollwitzer, Jasper |
5 | | 25-Nov-2021 | LES of Particle-Laden Flow in Sharp Pipe Bends with Data-Driven Predictions of Agglomerate Breakage by Wall Impacts | Khalifa, Ali ; Gollwitzer, Jasper; Breuer, Michael |
6 | | 29-Jun-2022 | Laminar-to-Turbulent Transition of Pipe Flows Triggered by Wall-Mounted, Ring-Type Obstacles | Durst, Franz; Breuer, Michael ; Ünsal, Bülent; Haddad, Kais |
7 | | 10-May-2022 | Investigation into boundary layer transition using wall-resolved large-eddy simulations and modeled inflow turbulence | Lobo, Brandon Arthur; Schaffarczyk, Alois Peter; Breuer, Michael |
8 | | 2022 | Increasing the safety of rescue workers in fire events by merging fire simulations, structural models, and artificial intelligence | Weber, Wolfgang ; Kandekar, Chaitanya Sharad ; Rottmann, Max Georg ; Breuer, Michael ; Palani, Arulnambi ; Niggemann, Oliver ; Liebert, Artur |
9 | | 2022 | hpc.bw: A Supercomputer with Competence Platform for the Universities of the Federal Armed Forces | Neumann, Philipp ; Duffek, Johann Antonio ; Kleinschmidt, Jessica ; Leinen, Willi Günter ; Breuer, Michael ; Schmidt-Lauff, Sabine ; Fink, Andreas ; Mayr, Matthias; Firmbach, Max; Popp, Alexander; Auweter, Axel |
10 | | Feb-2022 | FSI simulations of wind gusts impacting an air-inflated flexible membrane at Re = 100,000 | De Nayer, Guillaume ; Breuer, Michael ; Boulbrachene, Khaled |
11 | | 2020 | FSI Investigations on a Flexible Air-Inflated Thin-Walled Structure: An LES Study with Experimental Validation | De Nayer, Guillaume ; Wood, Jens Nikolas ; Apostolatos, Andreas; Breuer, Michael |
12 | | Oct-2020 | Extension of the DWM model towards a static model for site-specific load simulations | Reinwardt, Inga; Schilling, Levin; Dalhoff, Peter; Steudel, Dirk; Breuer, Michael |
13 | | 2020 | Experimental investigations on the dynamic behavior of a 2-DOF airfoil in the transitional Re number regime based on digital-image correlation measurements | Wood, Jens Nikolas ; Breuer, Michael ; De Nayer, Guillaume |
14 | | Feb-2022 | Evolution of jets during drop impact on a deep liquid pool | Das, Santanu Kumar; Dalal, Amaresh; Breuer, Michael ; Biswas, Gautam |
15 | | 2020 | Dynamic wake meandering model calibration using nacelle–mounted lidar systems | Reinwardt, Inga; Schilling, Levin; Dalhoff, Peter; Steudel, Dirk; Breuer, Michael |
16 | | 2020 | Data-driven model for the breakage of dry monodisperse agglomerates by wall impact applicable for multiphase flow simulations | Breuer, Michael ; Khalifa, Ali Ahmad |
17 | | 2020 | Breakup of Agglomerates in Turbulent Flows: An Euler-Lagrange LES Study | Breuer, Michael ; Khalifa, Ali Ahmad |
18 | | 9-Oct-2021 | Assessment of two wind gust injection methods: Field velocity vs. split velocity method | Boulbrachene, Khaled ; De Nayer, Guillaume ; Breuer, Michael |
19 | | Dec-2022 | Assessment of discrete wind gust parameters: Towards the worst-case scenario of a FSI application in form of an inflated hemisphere | De Nayer, Guillaume ; Breuer, Michael |
20 | | Mar-2021 | An efficient model for the breakage of agglomerates by wall impact applied to Euler-Lagrange LES predictions | Khalifa, Ali Ahmad ; Breuer, Michael |