direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Publikationen

Suche nach Publikationen




Komplette Liste

2018

Lückoff, F., Sieber, M., Paschereit, C. O. and Oberleithner, K. (2018). Open- and closed-loop control of the precessing vortex core in a swirl-stabilized combustor. Presentation at 4th International Retreat in Vortical Flow and Aerodynamics (IRVA4), October 01-03, 2018


Müller, J. S., Lückoff, F. and Oberleithner, K. (2018). Receptivity analysis of the precessing vortex core in a turbulent swirling jet by open-loop control and adjoint linear stability theory. 12th European Fluid Mechanics Conference


Müller, J. S., Lückoff, F. and Oberleithner, K. (2018). Guiding actuator designs for active flow control of the precessing vortex core by adjoint linear stability analysis. ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition


Oberleithner, K., Lückoff, F., Müller, J. S., Litvinov, I., Shtork, S. and Alekseenko, S. (2018). Prediction of the precessing vortex core in the draft tube of a model hydro turbine based on linear stability theory. 5th IAHR Europe Congress


Olbrich, M., Schmeyer, E., Riazy, L., Oberleithner, K., Bär, M. and Schmelter, S. (2018). Validation of simulations in multiphase flow metrology by comparison with experimental video observations. Journal of Physics: Conference Series, 092015.


Rezay Haghdoost, M., Förster, J., Edgington-Mitchell, D. and Oberleithner, K. (2018). Experimental Investigation of Solid Tracer Particle Response Across a Mach Disk by PIV and Schlieren. 19th International Symposium on Applications of Laser and Imaging Techniques to Fluid Mechanics, July 16-19, Lisbon, Portugal


Stöhr, M., Oberleithner, K., Sieber, M., Yin, Z. and Meier, W. (2018). Experimental Study of Transient Mechanisms of Bistable Flame Shape Transitions in a Swirl Combustor. Journal of Engineering for Gas Turbines and Power. American Society of Mechanical Engineers, 11503.


Mejia, D., Miguel-Brebion, M., Ghani, A., Kaiser, T. L., Duchaine, F., Selle, L. and Poinsot, T. (2018). Influence of flame-holder temperature on the acoustic flame transfer functions of a laminar flame. Combustion and Flame. Elsevier, 5–12.


2017

Lückoff, F., Sieber, M., Paschereit, C. O. and Oberleithner, K. (2017). Characterization of Different Actuator Designs for the Control of the Precessing Vortex Core in a Swirl-Stabilized Combustor. Journal of Engineering for Gas Turbines and Power. ASME, 041503.

Link zur Publikation

Lang, H., Oberleithner, K., Paschereit, C. O. and Moritz, S. (2017). Measurement of the fluctuating temperature field in a heated swirling jet with BOS tomography. Experiments in Fluids. Springer Nature, 88.


Lhuillier, C., Oddos, R., Zander, L., Lückoff, F., Göckeler, K., Paschereit, C. O. and Djordjevic, N. (2017). Hydrogen-Enriched Methane Combustion Diluted With Exhaust Gas and Steam: Fundamental Investigation on Laminar Flames and NO x Emissions. Volume 4B: Combustion, Fuels and Emissions. ASME, V04BT04A054.

Link zur Publikation

Lückoff, F., Sieber, M., Paschereit, C. O. and Oberleithner, K. (2017). Characterization of Different Actuator Designs for the Control of the Precessing Vortex Core in a Swirl-Stabilized Combustor. Volume 4A: Combustion, Fuels and Emissions. ASME, V04AT04A040.

Link zur Publikation

Stöhr, M., Oberleithner, K., Sieber, M., Yin, Z. and Meier, W. (2017). Experimental Study of Transient Mechanisms of Bi-Stable Flame Shape Transitions in a Swirl Combustor. Volume 4B: Combustion, Fuels and Emissions. ASME, V04BT04A063.

Link zur Publikation


Rezay Haghdoost, M., Nadolski, M., Edgington-Mitchell, D., Klein, R. and Oberleithner, K. (2017). Experimental and numerical investigation of the exhaust flow of a pulse detonation combustor. International Constant Volume and Detonation Combustion Workshop, Poitiers, France. International Constant Volume and Detonation Combustion Workshop.


Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Diese Seite verwendet Matomo für anonymisierte Webanalysen. Mehr Informationen und Opt-Out-Möglichkeiten unter Datenschutz.