TU Berlin

Fachgebiet VerbrennungskinetikGaran,Niclas

Flamme mit Methanmolekül

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Niclas Garan
Geboren in Bremen

2009 - 2013: Bachelorstudium Physikalische Ingenieurwissenschaften an der TU Berlin, Schwerpunkt Thermodynamik
Abschlussarbeit: "Parameterstudie zur Emission bei der Simulation einer 1D-Pulsdetonationsbrennkammer mit Wasserstoff-Luft-Gemisch"

2013 - 2016: Masterstudium Physikalische Ingenieurwissenschaften an der TU Berlin, Schwerpunkte Strömungsmechanik und Technische Akustik
Abschlussarbeit: "Numerical simulation of the acoustic response resulting from the periodic injection of fluid into a subsonic nozzle"

seit 2016: Wissenschaftlicher Mitarbeiter am Fachgebiet Verbrennungskinetik
Projekt: "Minderung der NOx-Emissionen bei pulsierender Detonationsverbrennung"

Publikationen

Klopsch, R., Garan, N., Bohon, M. D., Bach, E., Asli, M. and Stathopoulos, P. (2022). 2D Euler Modeling of Rotating Detonation Combustion in Preparation for Turbomachinery Matching. AIAA Sci. Technol. Forum Expo. AIAA SciTech Forum 2022


Asli, M., Garan, N., Neumann, N. and Stathopoulos, P. (2021). A robust one-dimensional approach for the performance evaluation of turbines driven by pulsed detonation combustion. Energy Conversion and Management, 114784.

Link zur Publikation



Garan, N., Habicht, F., Paschereit, C. O. and Djordjevic, N. (2021). Stratified fuel injection as a measure for NOx mitigation in pulse detonation combustion. European Combustion Meeting 2021


Hanraths, N., Bohon, M. D., Paschereit, C. O. and Djordjevic, N. (2021). Unsteady Effects on NOx Measurements in Pulse Detonation Combustion. Flow, Turbulence and Combustion

Link zur Originalpublikation

Neumann, N., Asli, M., Garan, N., Peitsch, D. and Stathopoulos, P. (2021). A fast approach for unsteady compressor performance simulation under boundary condition caused by pressure gain combustion. Applied Thermal Engineering. Elsevier Ltd, 117223.

Link zur Publikation

Hanraths, N. and Djordjevic, N. (2019). NOx-Emissionen bei Pulsierender Detonationsverbrennung. 29. Deutscher Flammentag


Hanraths, N., Bohon, M. D., Paschereit, C. O. and Djordjevic, N. (2019). Gas Sampling Techniques for NO x emissions in Pulse Detonation Combustion. AIAA Scitech 2019 Forum. American Institute of Aeronautics and Astronautics.

Link zur Publikation

Völzke, F. E., Yücel, F. C., Gray, J. A. T., Hanraths, N., Paschereit, C. O. and Moeck, J. P. (2019). The Influence of the Initial Temperature on DDT Characteristics in a Valveless PDC. , 185–196.

Link zur Publikation

Hanraths, N., Tolkmitt, F., Berndt, P. and Djordjevic, N. (2018). Numerical Study on NO x Reduction in Pulse Detonation Combustion by Using Steam Injection Decoupled From Detonation Development. Journal of Engineering for Gas Turbines and Power. American Society of Mechanical Engineers, 121008.

Link zur Publikation

Djordjevic, N., Hanraths, N., Gray, J., Berndt, P. and Moeck, J. (2017). Numerical Study on the Reduction of NOx Emissions From Pulse Detonation Combustion. Journal of Engineering for Gas Turbines and Power

Link zur Publikation

Niether, S., Hanraths, N., Paschereit, C. O., Panek, L. and Moeck, J. P. (2017). Acoustic Combustor Forcing by Unsteady Air Injection Into a Nozzle With High Subsonic Mean Flow. Volume 4B: Combustion, Fuels and Emissions. ASME, V04BT04A032.

Link zur Publikation

Hanraths, N., Gray, J., Berndt, P., Moeck, J. and Djordjevic, N. (2017). Numerical study on the effectiveness of common NOx reduction measures when applied to pulse detonation combustion. First International Constant Volume and Detonation Combustion Workshop


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