TU Berlin

Numerische FluiddynamikHead

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Julius Reiss (Prof. Dr. rer. nat.)


+49 (0)30 314 24733 (Tel)
+49 (0)30 314 22638 (Fax)

Office: VWS 121
Post: TU-Berlin, Sekr. MB1
Müller-Breslau-Straße 15
10623 Berlin


Research Interests:


  • Compressible flows
  • Ion laden flows especially for electrospray ion sources
  • Numerical scheme development
  • Method development (currently adjoints and model reduction)



  • DFG Re 3774-1/1  Analyse und Simulation von ionengeladenen
    Gasströmungen durch Kapillaren
  • SFB 1029 A04: Simulation der pulsierenden Verbrennung unter erhöhten Drücken
  • CO-PI in RTG 2433/0 Daedalus, P10: Detection and analysis of coherent structures in direct numerical simulations of complex flows
  • CO-PI in RTG 2433/0 Daedalus, P13: Reduced model based optimization for flows with shocks

Scientific Contributions

Reiss, J. and Sesterhenn, J. (2014). A conservative, skew-symmetric Finite Difference Scheme for the compressible Navier–Stokes Equations. Computers & Fluids, 208 - 219.

Lemke, M., Reiss, J. and Sesterhenn, J. (2014). Adjoint based optimisation of reactive compressible flows. Combustion and Flame, 2552 - 2564.

Brouwer, J., Reiss, J. and Sesterhenn, J. (2014). Conservative Finite Differences as an Alternative to Finite Volume for Compressible Flows. Finite Volumes for Complex Applications VII-Methods and Theoretical Aspects. Springer International Publishing, 169-176.

Lemke, M., Reiss, J. and Sesterhenn, J. (2014). Adjoint based optimization of reactive flows. 10th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements

Pauly, M., Sroka, M., Reiss, J., Rinke, G., Albarghash, A., Vogelgesang, R., Hahne, H., Kuster, B., Sesterhenn, J., Kern, K. and Rauschenbach, S. (2014). A hydrodynamically optimized nano-electrospray ionization source and vacuum interface. Analyst. The Royal Society of Chemistry, 1856-1867.


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