Worldwide concerns of air quality and climate change have made environmental protection one of the most critical issues in aviation today. NASA s current Fundamental Aeronautics Research program is directed at three generations of aircraft in the near, mid and far term, with initial operating capability around 2015, 2020, and 2030, respectively. Each generation has associated goals for fuel burn, NOx, noise, and field-length reductions relative to today s aircrafts. The research for the 2020 generation is directed at enabling a hybrid wing body (HWB) aircraft to meet NASA s aggressive technology goals. This paper presents the conceptual cycle and mechanical designs of the two engine concepts, podded and embedded systems, which were proposed for a HWB cargo freighter. They are expected to offer significant benefits in noise reductions without compromising the fuel burn.
Engine Conceptual Design Studies for a Hybrid Wing Body Aircraft
ASME Turbo 2009 ; 2009 ; Orlando, FL, United States
2009-11-01
Report
Keine Angabe
Englisch
CONCEPTUAL DESIGN FRAMEWORK FOR BLENDED WING BODY AIRCRAFT
British Library Conference Proceedings | 2012
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