Passive scalar interface in a spatially evolving mixing layer (A. Attili and D. Denker)

Quartz nozzle sampling (D. Felsmann)

Dissipation element analysis of a planar diffusion flame (D. Denker)

Turbulent/non-turbulent interface in a temporally evolving jet (D. Denker)

Dissipation elements crossing a flame front (D. Denker and B. Hentschel)

Particle laden flow (E. Varea)

Turbulent flame surface in non-premixed methane jet flame (D. Denker)

DNS of primary break up (M. Bode)

Diffusion flame in a slot Bunsen burner (S. Kruse)

Various quantities in spatially evolving jet diffusion flame (D. Denker)

OH layer in a turbulent wall bounded flame (K. Niemietz)

Svenja Nerzak, M. Sc.

E-Mail: s.nerzak(at)itv.rwth-aachen.de

Adresse:
            Institut für Technische Verbrennung
            RWTH Aachen University
              Templergraben 64
              52056 Aachen

Telefon: +49 (0)241 80-94622

Büro: 209.1 (2. Etage)

Arbeitsgebiete

Forschung:

Lehre:

Publikationen

2024

S. Nerzak, K. Niemietz, M. Vivenzo, T. Lehmann L. Berger, M. Gauding and H. Pitsch. Numerical Analysis of Thermodiffusive Instabilities in Hydrogen Flames with LES in Jet Burner Application. In 19th International Conference on Numerical Combustion, 2024.

2023

F Cameron, H. Xu, S. Nardi, S. Nerzak, J. Beeckmann, M. Gauding, Y. Ren, L Berger, B. Feller and H. Pitsch. Experimental and numerical study of the influence of fuel staging and hydrogen addition on turbulent methane flames in a lab-scale industrial burner. In 31. Deutscher Flammentag für nachhaltige Verbrennung, Berlin, 2023.