Thomas, D. (2021). Efficient and flexible implementation of an interfacing Python-based tool for numerical simulations of fluid-structure interaction problems [Doctoral thesis, ULiège - Université de Liège]. ORBi-University of Liège. https://orbi.uliege.be/handle/2268/252830 |
Güner, H., Thomas, D., Dimitriadis, G., & Terrapon, V. (January 2019). Unsteady aerodynamic modeling methodology based on dynamic mode interpolation for transonic flutter calculations. Journal of Fluids and Structures, 84, 218-232. doi:10.1016/j.jfluidstructs.2018.11.002 Peer Reviewed verified by ORBi |
Thomas, D., Cerquaglia, M. L., Boman, R., Economon, T., Alonso, J., Dimitriadis, G., & Terrapon, V. (2019). CUPyDO - An integrated Python environment for coupled fluid-structure simulations. Advances in Engineering Software. doi:10.1016/j.advengsoft.2018.05.007 Peer Reviewed verified by ORBi |
Cerquaglia, M. L., Thomas, D., Boman, R., Terrapon, V., & Ponthot, J.-P. (2019). A fully partitioned Lagrangian framework for FSI problems characterized by free surfaces, large solid deformations and displacements, and strong added-mass effects. Computer Methods in Applied Mechanics and Engineering, 348, 409-442. doi:10.1016/j.cma.2019.01.021 Peer Reviewed verified by ORBi |
Thomas, D., Cerquaglia, M. L., Boman, R., Dimitriadis, G., & Terrapon, V. (13 September 2018). Demonstration of a unified and flexible coupling environment for nonlinear fluid-structure interaction [Paper presentation]. Collaborative Conference on Physics Series, CCPS 2018, Barcelona, Spain. |
Sartor, K., Thomas, D., & Dewallef, P. (March 2018). A comparative study for simulating heat transport in large district heating networks. International Journal of Heat and Technology, 36 (1), 301-308. doi:10.18280/ijht.360140 Peer reviewed |
Terrapon, V., Dimitriadis, G., Crovato, A., Güner, H., & Thomas, D. (10 August 2017). Transonic aerodynamic modeling & new FSI infrastructure [Paper presentation]. Invited talk at TU Delft. |
Thomas, D., Variyar, A., Boman, R., Economon, T. D., Alonso, J. J., Dimitriadis, G., & Terrapon, V. (2017). Staggered strong coupling between existing fluid and solid solvers through a Python interface for fluid-structure interaction problems. In Proceedings of the VII International Conference on Coupled Problems in Science and Engineering. Peer reviewed |
Thomas, D. (2017). Multi-code coupling througha Python interface for FSI applications [Paper presentation]. Faculty Fluid Meeting. |
Sanchez, R., Kline, H., Thomas, D., Variyar, A., Righi, M., Economon, T., Alonso, J., Palacios, R., Dimitriadis, G., & Terrapon, V. (2016). Assessment of the fluid-structure interaction capabilities for aeronautical applications of the open-source solver SU2. In Proceedings of the VII European Congress on Computational Methods in Applied Science and Engineering. doi:10.7712/100016.1903.6597 Peer reviewed |
Sartor, K., Thomas, D., & Dewallef, P. (2015). A comparative study for simulating heat transport in large district heating network. In Proceedings of ECOS 2015. Peer reviewed |
Thomas, D. (2015). Numerical simulations of turbulent flows: a modeling challenge. |