direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Page Content

Lewin Stein (Dr. rer. nat.)

Lupe

Lewin.Stein{a)TU-Berlin.DE
+49 (0) 30 314 21152

Office: VWS 120
Post: TU-Berlin, Sekr. MB1
Müller-Breslau-Straße 15
10623 Berlin

Research

  • Fluid-Structure-Sound Interaction
  • Acoustic Modelling
  • Wave Field Synthesis
  • Turbulent Boundary and Shear Layers
  • Computational Fluid Dynamics: Direct Numerical Simulation, High Performance Computing

Projects

Supercomputer Projects

Journal Articles

Stein, L. and Sesterhenn, J. (2019). An Acoustic Model of a Helmholtz Resonator under a Grazing Turbulent Boundary Layer. Acta Mechanica, 2013-2029.


Lemke, M., Straube, F., Stein, L. and Weinzierl, S. (2019). Optimized Sound Field Generation in the Time Domain - Validation for Source Arrays in 2D. Fortschritte Der Akustik - DAGA 2019 45. Jahrestagung Für Akustik, ISBN 9783939296140. Deutsche Gesellschaft für Akustik, 1442-1445.


Stein, L. and Sesterhenn, J. (2019). Direct Numerical Simulation of Turbulent Flow Past an Acoustic Cavity Resonator. High Performance Computing in Science and Engineering ' 18. Springer International Publishing, 259-274.


Teaching

Lecture Activities

Supervised Master Theses

  • Gourdazi, A. (2018, BMW cooperation). Temperature effects on aeroacoustics of a subsonic jet flow from an open pipe
  • Jarolin, K. (2017). Treatment of sharp edges for conservative finite difference methods
  • Kruse, P. (2015). Helmholtz resonator dynamics examined by a modal decomposition

Personal Information

Education

Research Stays

  • 2010 Yale University (USA) with Prof. Hong Tang (RISE-DAAD Research Scholar)
  • 2009 Tohoku University (Japan) with Prof. Riichiro Saito (German Academic Scholarship Foundation)

Zusatzinformationen / Extras

Quick Access:

Schnellnavigation zur Seite über Nummerneingabe

Auxiliary Functions

This site uses Matomo for anonymized webanalysis. Visit Data Privacy for more information and opt-out options.