Experimental and Numerical Analysis of FLOX®-Based Combustor for a 3kW Micro Gas Turbine Under Atmospheric Conditions
This paper presents an experimental and numerical study of the flow field and heat release
(HRL) zone of a six-nozzle FLOX®-based combustor at atmospheric pressure. The …
(HRL) zone of a six-nozzle FLOX®-based combustor at atmospheric pressure. The …
[引用][C] Experimental and Numerical Analyses of a FLOX®-based Combustor for a 3 kW Micro Gas Turbine under Atmospheric Conditions
H Seliger, M Stöhr, Z Yin, A Huber… - Proceedings of the ASME …, 2017 - elib.dlr.de
electronic library - Experimental and Numerical Analyses of a FLOX®-based Combustor for a
3 kW Micro Gas Turbine under Atmospheric Conditions elib DLR-Header DLR-Logo -> …
3 kW Micro Gas Turbine under Atmospheric Conditions elib DLR-Header DLR-Logo -> …
Experimental and Numerical Analysis of FLOX®-Based Combustor for a 3kW Micro Gas Turbine Under Atmospheric Conditions
H Seliger, M Stöhr, Z Yin… - … Expo: Power for …, 2017 - asmedigitalcollection.asme.org
This paper presents an experimental and numerical study of the flow field and heat release
(HRL) zone of a six-nozzle FLOX®-based combustor at atmospheric pressure. The …
(HRL) zone of a six-nozzle FLOX®-based combustor at atmospheric pressure. The …