NASA and its industry partners are investigating a blended wing aircraft concept for potential use as a future air transport for both civilian and military applications.
https://www.nasa.gov/centers/langley/news/factsheets/FS-2003-11-81-LaRC.html
Call Girls Zirakpur👧 Book Now📱7837612180 📞👉Call Girl Service In Zirakpur No A...
Blended Wing Body – A potential new aircraft design
1. NASA Home | Centers | Langley Home | Langley News | Fact Sheets Send Share Print
Disclaimer: This material is being kept online for historical purposes. Though accurate at the time of publication, it is no
longer being updated. The page may contain broken links or outdated information, and parts may not function in current
web browsers. Visit NASA.gov for current information
Langley Research Center
Langley Home
About Langley
Doing Business With Us
Langley Research
Langley History
Multimedia
News & Events
News & Events
News Releases
Exhibits
Speakers Bureau
Speaker Series
The Researcher News
Education
Search Langley
Text Size
Blended Wing Body – A potential new aircraft design
NASA and its industry partners are investigating a blended wing aircraft concept for potential use as a future air transport for
both civilian and military applications. The concept is called the blended wing body (BWB). The BWB is a hybrid shape that
resembles a flying wing, but also incorporates features from conventional transport aircraft. This combination offers several
advantages over conventional tube-and wing airframes. The BWB airframe merges efficient high-lift wings with a wide airfoil-
shaped body, allowing the entire aircraft to generate lift and minimize drag. This shape helps to increase fuel economy and
creates larger payload (cargo or passenger) areas in the center body portion of the aircraft.
The basic concept for a blended wing body was first developed decades ago and variations of it have been used in the famous
B-2 bomber (a blended wing) and the lesser-known YB-49 (a pure flying wing from the 1940’s). Like the B-2, the BWB design
uses composite materials that are stronger and lighter than conventional metal construction. The BWB also has several control
surfaces on the trailing edge, like the B-2, instead of the conventional tail assembly.
Image above is artist concept of one version of the blended wing body aircraft.
The BWB shape allows unique interior designs. Cargo can be loaded or passengers can board from the front or rear of the
aircraft. The cargo or passenger area is distributed across the wide fuselage, providing a large usable volume. For passengers
2. in the interior of the craft, real-time video at every seat would take the place of window seats.
NASA and industry studies suggest that a large commercial BWB aircraft could be developed. Because of its efficient
configuration, the BWB would consume over 20 percent less fuel than a comparable conventional aircraft flying at high
subsonic cruise speeds over a 7,000 nautical-mile range. An aircraft of this type would have a wingspan slightly greater than a
Boeing 747 and could operate from existing airport terminals. The BWB would also weigh less, generate less noise and
emissions, and cost less to operate than an equally advanced conventional transport aircraft.
NASA BWB Research
NASA is studying the flying characteristics of the BWB. Because it is a configuration that has only been used in military
missions, there are a number of critical questions that researchers must address before a BWB can be commercially certified.
The primary goals of the research are to study the flight and handling characteristics of the BWB design, match the vehicle's
performance with engineering predictions based on computer and wind tunnel studies, develop and evaluate digital flight
controls, and assess the integration of the propulsion system to the airframe. Future research must also address the wide, flat
pressurized payload bay of the BWB.
Over the past several years, wind tunnel and freeflight model tests have been conducted to study particular aerodynamic
characteristics of the BWB design. At the NASA Langley Research Center in Hampton, Virginia, researchers tested five wind
tunnel models of three versions of the BWB to evaluate the concept's aerodynamic, noise, stability and control, and spin and
tumble characteristics. Data obtained during these tests were used to develop computer performance models and flight control
laws. The researchers will incorporate all wind tunnel (and later flight) data into simulations of a full-scale BWB to evaluate the
flying characteristics.
A scale model of an early blended wing body design was tested in one of the NASA Langley wind tunnels.
Research and Test Team
The NASA BWB Project is managed by Langley Research Center.
The BWB shape, called the outer mold line, was developed by The Boeing Phantom Works of Huntington Beach, California.
The Langley Full Scale Tunnel operated by Old Dominion University will be used for free-flight model tests of the BWB.
3. › Back To Top
Page Last Updated: April 22, 2008
Page Editor: Bob Allen
NASA Official: Brian Dunbar
NASA Information on the American
Recovery and Reinvestment Act of
2009
Budgets, Strategic Plans and
Accountability Reports
Equal Employment Opportunity Data
Posted Pursuant to the No Fear Act
Information-Dissemination Policies
and Inventories
Freedom of Information Act
Privacy Policy & Important Notices
NASA Advisory Council
Aerospace Safety Advisory Panel
Inspector General Hotline
Office of the Inspector General
NASA Communications Policy
Contact Langley
Site Map
BusinessUSA
USA.gov
Open Government at NASA
Help and Preferences