Sebastian Knebel
CURRICULUM VITAE
Year of birth: 1989
KNOWLEDGE
Theoretical Fluid Mechanics and strength of materials, numerical analysis (spectral methods, FEM, LES, finite differences, finite volume, Lagrangian particle tracking, immersed boundary method), implementation and validation of scientific and commercial solvers
RECENT RESEARCH TOPICS
Automatic generation of probabilistic internal cooling geometry models
CAREER
| 10/2008-12/2014 | Diploma in Mechanical Engineering / Applied mechanics Diploma: “Numerische Modellierung partiell kontaminierter Blasenoberflächen mit der Immersed Boundary Methode” |
| 10/202012-3/2013 |
Internship at ANSYS Germany GmbH, Otterfing near Munich Comparative validation of the Lagrangian particle tracking methods in ANSYS CFX and ANSYS Fluent |
| 4/2013-10/2013 |
Research Semester Laboratoire M2P2, CNRS, Marseille, France “Implementation of a spectral vanishing viscosity method within a parallel pseudo-spectral solver and its application to LES of Taylor‑Couette flows” |
| 1/2015-3/2015 |
Research Associate, Chair of Fluid Mechanics (TU Dresden) Numerical modelling and simulation of multiphase freezing processes |
| 4/2015 - 3/2018 | Research associate at the Chair of Turbomachinery and Flight Propulsion, TU Dresden |
Papers
Knebel, S., Baum, O., Högner, L., Voigt, M., Mailach, R., Meyer, M., "Robust Detection and Characterization of Cooling Holes Based on Surface Meshes of Turbine Blades", ASME Turbo Expo 2017, GT2017-64776, Charlotte, 2017.
Högner, L., Knebel, S., Voigt, M., Mailach, R., Meyer, M., "Quantification of X-Ray Measurement Uncertainty Based on Optical Measurement Data of Turbine Blades", ASME Turbo Expo, GT2017-63704, Charlotte, 2017.