Dissipation Elements at the Flame Surface in Methane Diffusion Flame (B. Hentschel and D. Denker)

Flame in Slotburner (S. Kruse)

Particle Charged Flow (E. Varea)

DNS of a scaled-up Diesel injector

Dissipation Element Analysis of Methane Diffusion Flame (D. Denker)

DNS of a scaled-up Diesel injector (M. Bode)

Quartz nozzle sampling in a methane counterflow flame (M. Baroncelli)

Oxyfuel coal combustion in a hot gas stream (D. Felsmann)

Turbulent/non-turbulent interface in high Reynolds number Jet (D. Denker and B. Hentschel)

Sima Farazi, M. Sc.


Arbeitsgebiete

Forschung: Direct Numerical Simulation and Modeling of Oxy-Fuel Combustion

Lehre: Numerische Strömungssimulation

Publikationen

  • Farazi, S., Sadr, M., Kang, S., Schiemann, M., Vorobiev, N., Scherer, V. & Pitsch, H., Resolved simulations of single char particle combustion in a laminar flow field. FUEL, 201, pp.15-28. 2017.
     
  • Farazi, S., Schiemann, M., Vorobiev, N., Scherer, V., Kang, S. & Pitsch, H., A new variable transport coefficient single-film model for char combustion. In Proceedings of the European Combustion Meeting, April 18th-21st, Dubrovnik, Croatia. 2017.
     
  • Sayadi, T., Farazi, S., Kang, S. & Pitsch, H., Transient multiple particle simulations of char particle combustion. Fuel, 199, pp.289-298. 2017.
     
  • Farazi, S., Sayadi, T. & Pitsch, H., Numerical analysis of the drag force acting on the reactive single char particle under oxy-fuel condition. In Proceedings of the China National Symposium on Combustion. 2016.
     
  • Farazi, S. & Pitsch, H., Fully resolved simulation of single and group particle combustion in an oxy-fuel atmosphere. In Oxyflame International Workshop, February 10th-11th, Montabaur, Germany. 2016.
     

Offene Stellen/Arbeiten

Studien-/ Bachelor-/ Masterarbeit:

Bei Interesse an Projekt-, Bachelor-, Master-, Diplomarbeiten/Hiwistellen anrufen, eine E-Mail schicken oder persönlich vorbeikommen. Abhängig von den Interessen und Vorkenntnissen kann ein individueller Themenvorschlag gemacht werden.