M.Sc. Jakob Kaiser
- Phone: +49 (89) 289 - 16396
- Room: 5506.01.616
- jakob.kaiser@tum.de
Title of the Master Thesis:
Study of Mixing Enhancement in Swirling Flows
Research Area:
Numerical modelling of compressible multiphase flows
Current research project:
Aerodynamic fragmentation of droplets
Teaching:
- Turbulent flows
- Supervision of the practical course Turbulent flow simulation on HPC systems
- Advisor for students´ theses
Scientific Supervisor:
Stefan Adami
Publications
2020
Journal Articles
- A semi-implicit conservative sharp-interface method for liquid-solid phase transition. International Journal of Heat and Mass Transfer 155, 2020, 119800 more… BibTeX Full text ( DOI ) Full text (mediaTUM)
- Investigation of interface deformation dynamics during high-Weber number cylindrical droplet breakup. International Journal of Multiphase Flow 132, 2020, 103409 more… BibTeX Full text ( DOI ) Full text (mediaTUM)
2019
Journal Articles
- An adaptive local time-stepping scheme for multiresolution simulations of hyperbolic conservation laws. Journal of Computational Physics: X 4, 2019, 100038 more… BibTeX Full text ( DOI ) Full text (mediaTUM)
Conference Papers
- Three-dimensional direct numerical simulation of shock-induced bubble collapse near gelatin. 11th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2019, 2019 more… BibTeX Full text (mediaTUM)
- Numerical investigation of 3D drop-breakup mechanisms using a sharp interface level-set method. 11th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2019, 2019 more… BibTeX Full text (mediaTUM)
2017
Conference Papers
- Direct Numerical Simulation of Shock-Induced Drop Breakup with a Sharp-Interface-Method. Symposium on Turbulence and Shear Flow Phenomena [TSFP10], 2017 more… BibTeX Full text (mediaTUM)
- Direct numerical simulation of shock-induced drop breakup with a sharp-interface-method. 10th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 10, 2017Swissotel Chicago;United States;6 July 2017 through 9 July 2017;Code 130996 more… BibTeX
2016
Misc.
- Numerical modeling of shock waves in biomedicine – Proceedings of the 2016 Summer Program. Center for Turbulence Research, Stanford University, 2016, more… BibTeX Full text (mediaTUM)