M.Sc. Katharina Amend

M.Sc. Katharina Amend
Professur für numerische Methoden in der Luft- und Raumfahrttechnik (Prof. Klein)
Gebäude 37, Zimmer 1163
+49 89 6004-2551
katharina.amend@unibw.de

M.Sc. Katharina Amend

Research Interests

  • Multiphase flow
  • Capillary flow
  • Particle wash-off modeling

 

Journal publications

  • Amend K., Klein M. (2018) Development and Validation of a CFD Wash-off Model for Fission Products on Containment Walls. International Journal for Nuclear Power, accepted.
  • Amend K., Klein M. (2017) Modeling and simulation of water flow on containment walls with inhomogeneous contact angle distribution. International Journal for Nuclear Power, 62:477–481.

 

Conference contributions

  • Amend K., Klein M. (2018). Modeling and Simulation of Wash-down of Fission Products by Water on Containment Walls. Computational  fluid  dynamics  (CFD)  in  nuclear  reactor safety (NRS), CFD4NRS, Shanghai, China
  • Amend K., Klein M. (2018). Development and Validation of a CFD Wash-off Model for Fission Products on Containment Walls. 49th Annual Meeting on Nuclear Technology, Berlin, Germany
  • Amend K., Klein M. (2017). Modeling and Simulation of Water Flow on Containment Walls with Inhomogeneous Contact Angle Distribution. 48th Annual Meeting on Nuclear Technology, Berlin, Germany.
  • Amend K., Klein M. (2016). Simulation of Water Flow down Inclined Containment Walls. 14th Multiphase Flow Conference and Short Course, Dresden, Germany
  • Freitag, B. von Laufenberg, M. Colombet, K. Amend, M. Klein. (2016). Particulate Fission Product Wash-down from Containment Walls and Installation Surfaces. 47th Annual Meeting on Nuclear Technology, Hamburg, Germany
  • Amend K., Klein M. (2015). Influence of the Contact Angle Model on Gravity Driven Water Films. 13th Multiphase Flow Conference & Short Course, Dresden, Germany

 

Supervised Thesis / Student Projects

  • Berechnung des Wärmestroms in einer Konvektionszelle bei kleinen Drücken
  • Simulation von gerichteten Kapillarströmungen
  • Simulation von gerichteten Kapillarströmungen in komplexen Geometrien
  • Parameterstudie für ein Partikelabwaschmodell in OpenFOAM
  • Vergleich von dynamischen Kontaktwinkelmodellen
  • Simulation von partikelbeladenen Strömungen in verdünnten Gasen
  • Grundlagen zur Erstellung von Modellen durch 3D Druck