Dieses Bild zeigt Kathrin Schulte (geb. Eisenschmidt)

Kathrin Schulte (geb. Eisenschmidt)

Dr.-Ing.

Habilitandin
Institut für Thermodynamik der Luft- und Raumfahrt

Kontakt

+49 711 685 62334
 +49 711 685 62317

Pfaffenwaldring 31
70569 Stuttgart
Deutschland
Raum: 1-144

Fachgebiet

Projekte:

Fellow im Margarete von Wrangell-Habilitationsprogramm 

EXC 2075 Cluster of Excellence "Data-Integrated Simulation Science (SimTech)" (Participating Researcher, Teilprojektleiterin PN1-2b und PN6A-2)

IRTG Dropit "Droplet Interaction Technologies" (Teilprojektleiterin SP-C2) 

BOY160 - Friedrich und Elisabeth Boysen-Stiftung (Projektleiterin)

SFB Transregio 364 „SFB/TRR 364" (Teilprojektleiterin C02) 

SFB Transregio 75 "SFB TRR75" (Geschäftsführerin und Teilprojektleiterin) (abgeschlossen)

 

  1. Geppert, A. K., Stober, J. L., Steigerwald, J., Schulte, K., Tonini, S., & Lamanna, G. (2024). Analyzing the early impact dynamics of single droplets impacting onto wetted surfaces. Physics of Fluids, 36(1), Article 1. https://doi.org/10.1063/5.0179716
  2. Potyka, J., & Schulte, K. (2024). A volume of fluid method for three dimensional direct numerical simulations of immiscible droplet collisions. International Journal of Multiphase Flow, 170, 104654. https://doi.org/10.1016/j.ijmultiphaseflow.2023.104654
  3. Potyka, J., Schulte, K., & Planchette, C. (2023). Simulation and Experimental data on liquid distribution after the head-on separation of immiscible liquid droplet collisions. https://doi.org/10.18419/darus-3594
  4. Potyka, J., Schulte, K., & Planchette, C. (2023). Liquid distribution after head-on separation of two colliding immiscible liquid droplets. Physics of Fluids, 35(10), Article 10. https://doi.org/10.1063/5.0168080
  5. Potyka, J., & Schulte, K. (2023). Setups for and Outcomes of Immiscible Liquid Droplet Collision Simulations. https://doi.org/10.18419/darus-3557
  6. Stober, J. L., Potyka, J., Ibach, M., Weigand, B., & Schulte, K. (2023). DNS of the Early Phase of Oblique Droplet Impact on Thin Films with FS3D. In High Performance Computing in Science and Engineering ’23. Springer International Publishing. /brokenurl# https://doi.org/10.48550/arXiv.2311.17690
  7. Kromer, J., Potyka, J., Schulte, K., & Bothe, D. (2023). Efficient sequential PLIC interface positioning for enhanced performance of the three-phase VoF method. Computers & Fluids, 266, 106051. https://doi.org/10.1016/j.compfluid.2023.106051
  8. Klötzl, D., Krake, T., Zhou, Y., Stober, J., Schulte, K., Hotz, I., Wang, B., & Weiskopf, D. (2022). Reduced Connectivity for Local Bilinear Jacobi Setsts.
  9. Klötzl, D., Krake, T., Zhou, Y., Stober, J., Schulte, K., Hotz, I., Wang, B., & Weiskopf, D. (2022). Reduced Connectivity for Local Bilinear Jacobi Sets.
  10. Potyka, J., Stober, J., Wurst, J., Ibach, M., Steigerwald, J., Weigand, B., & Schulte, K. (2022). Towards DNS of Droplet-Jet Collisions of Immiscible Liquids with FS3D. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Hrsg.), High Performance Computing in Science and Engineering ’22 (S. 197–212). Springer Nature Switzerland. https://doi.org/doi.org/10.1007/978-3-031-46870-4_14
  11. Ibach, M., Schulte, K., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, B., & Weigand, B. (2021). Direct Numerical Simulations of Grouping Effects in Droplet Streams Using Different Boundary Conditions. International Conference on Liquid Atomization and Spray Systems (ICLASS).
  12. Ibach, M., Schulte, K., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, J. B., & Weigand, B. (2021). Direct Numerical Simulations of Grouping Effects in Droplet Streams Using Different Boundary Conditions. ICLASS 2021, 15th Triennial International Conference on Liquid Atomization and Spray Systems, Edinburgh, UK, 29 Aug.-2 Sept. 2021. https://doi.org/10.2218/iclass.2021.5815
  13. Schulte, K., Weigand, B., & Tropea, C. (2018). Selected Results of the Collaborative Research Center “Droplet Dynamics under Extreme Ambient Conditions” SFB-TRR 75. ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems, Chicago, IL, USA, July 22-26.
  14. Schulte, K., & Weigand, B. (2018). On the analytical modelling of the initial ice growth in a supercooled liquid droplet. International Journal of Heat and Mass Transfer, 127, 1070–1081.
  15. Schulte, K. (o. J.). Modelling of the Initial Ice Growth in a Supercooled Liquid Droplet (S. Online-Ressource, 141 Seiten) [HOCHSCHULSCHRIFT]. Verlag Dr. Hut.
  16. Tropea, C., Weigand, B., & Schulte, K. (2017). Selected Results of the Collaborative Research Center" Droplet Dynamics under Extreme Ambient Conditions" SFB/TRR 75. Ilass Europe. 28th european conference on Liquid Atomization and Spray Systems, 296--303.
  17. Karch, G. K., Beck, F., Ertl, M., Meister, C., Schulte, K., Weigand, B., Ertl, T., & Sadlo, F. (2017). Visual Analysis of Inclusion Dynamics in Two-Phase Flow. IEEE Transactions on Visualization and Computer Graphics. http://dx.doi.org/10.1109/TVCG.2017.2692781

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