Michael Braukus
Headquarters, Washington
202-358-1979
michael.j.braukus@nasa.gov
Gray Creech
Dryden Flight Research Center
661-276-2662
gray.creech-1@nasa.gov
Tom Koehler
Boeing Research & Technology
Communications
425-373-2921
thomas.j.koehler@boeing.com
Edwards AFB, Calif. -- The remotely
piloted X-48C aircraft successfully flew for the first time Tuesday at Edwards
Air Force Base in California's Mojave Desert.
The aircraft, designed by The Boeing Co.
and built by Cranfield Aerospace Limited of the United Kingdom, is flying again
in partnership with NASA. The new X-48C model, which was formerly the X-48B
Blended Wing Body aircraft, was modified to evaluate the low-speed stability
and control of a low-noise version of a notional, future Hybrid Wing Body (HWB)
aircraft design. The HWB design stems from concept studies being conducted by
NASA's Environmentally Responsible Aviation project of future potential
aircraft designs 20 years from now.
"We are thrilled to get back in the
air to start collecting data in this low-noise configuration," said
Heather Maliska, X-48C project manager at NASA's Dryden Flight Research Center.
"Our dedicated team has worked hard to get the X-48C off the ground for
its first flight and we are excited learning about the stability and control
characteristics of this low-noise configuration of the blended wing body."
Primary changes to the C model from the
B model, which flew 92 flights at Dryden between 2007 and 2010, were geared to
transforming it to an airframe noise-shielding configuration. External
modifications included relocating the wingtip winglets inboard next to the
engines, effectively turning them into twin tails. The aft deck of the aircraft
was extended about 2 feet to the rear. Finally, the project team replaced the
X-48B's three 50-pound thrust jet engines with two 89-pound thrust engines.
Because handling qualities of the X-48C
will be different from those of the X-48B, the project team developed flight
control system software modifications, including flight control limiters to
keep the airplane flying within a safe flight envelope. This will enable a stronger
and safer prototype flight control system suitable for future full-scale
commercial hybrid or blended wing aircraft.
"We are very pleased to begin
flight tests of the X-48C," said Mike Kisska, Boeing X-48C project
manager. "Working with NASA, we've successfully passed another milestone
in our work to explore and validate the aerodynamic characteristics and
efficiencies of the blended wing body concept."
Additionally, the upcoming flight
experiments with the X-48C will help researchers further develop methods to
validate the design's aerodynamics and control laws, including a goal of
reducing aerodynamic drag through engine yaw control tests.
During the planned second block of
flight testing this fall, NASA will test engine yaw control software
incorporated in the X-48C's flight computer. This research will use asymmetric
engine thrust to create yaw, or nose left or right movements, for trim and for
relatively slow maneuvers.
NASA's Aeronautics Research Mission
Directorate and Boeing are funding the X-48 technology demonstration research
effort, which supports NASA's goals of reduced fuel burn, emissions and noise.
The X-48C retains most dimensions of the
B model, with a wingspan just longer than 20 feet, and a weight of about 500
pounds. The aircraft has an estimated top speed of about 140 mph, and a maximum
altitude of 10,000 feet.
The Air Force Research Laboratory,
Dayton, Ohio, also is a member of the project team.
For more information about the
Aeronautics Research Mission Directorate, visit http://www.aeronautics.nasa.gov.
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