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)
Using alternative fuels, which are synthesized using biomass or renewable energy and carbon feedstocks, in combustion systems have a huge potential in reducing green-house gas and pollutant emissions. At the ITV, detailed experimental and numerical studies are performed in order to gain a better fundamental understanding and develop numerical models that can be used to support future combustion system design.
