MIT BURD

MIT BURD
Role	Human-powered aircraft
National origin	United States
Manufacturer	Massachusetts Institute of Technology
Designer	Paul Hooper
Number built	1
Developed into	MIT BURD II

The BURD was a two-place human-powered biplane, designed and built by graduates and undergraduates of the Massachusetts Institute of Technology, with Professors Eugene Covert and James Mar acting as project advisers. It was developed with the specific goal of winning the £50,000 Kremer prize then on offer.^[1]

BURD is an acronym for "Biplane Ultralight Research Device", reflecting the aircraft's configuration. The project was notable for it involving computational analysis as well as wind-tunnel tests of a scale model.^[2]^[3] The two-person option was adopted, as that allowed for a better power-to-weight ratio. The canard configuration was selected due that giving a beneficial increase in lift. The biplane configuration, fitted with endplates, was adopted due to the aerodynamic and structural benefits from using that arrangement.^[2]

The primary structure for the fuselage was made from aluminum tubing, while the primary structure for the flying surfaces were box-beam spars made from sheet balsa.^[2] The secondary structure was made primarily from balsa, with aluminum tubing and sheets used in high-stress areas. The entire airframe was covered in transparent film.^[2] The undercarriage consisted of two bicycle wheels, arranged in tandem. As originally built, the front wheel was fixed, and not able to be steered. The two-person crew sat in a tandem arrangement, and powered a chain drive which connected to both the rear undercarriage wheel and the rear-mounted pusher propeller.^[2] Pitch control was to be achieved by pivoting the foreplane in its entirety. Lateral and directional control was to be attained by spoilers mounted on the lower wing, with the spoilers producing a yawing force in the direction of the turn that the aircraft was being banked towards. In addition, a vertical fin was located above the upper wing.^[2]

The BURD was completed in May 1973. Taxiing tests conducted at Hanscom Field airport in Bedford, Massachusetts, revealed significant design and construction issues. Alterations were made to the undercarriage, the drive system, and to the controls for both the foreplane and the spoilers.^[2] In 1975, the first flight attempt took place, but ended with an almost complete structural collapse of the aircraft.^[3]^[4]

In 1976, a new iteration of the design, named the MIT BURD II, was built, with this craft incorporating a number of detail changes from the original.^[5]

Specifications[edit]

Data from The M.I.T. Man-Powered Aircraft^[2] and Man-powered aircraft^[6]

General characteristics

Crew: 2
Length: 27 ft (8.2 m)
Wingspan: 62 ft (19 m)
Height: 15 ft (4.6 m)
Wing area: 640 sq ft (59 m²) plus 60 sq ft (5.60 m²) canard wing area
Airfoil: Wortmann FX61-163
Empty weight: 128 lb (58 kg)
Gross weight: 400 lb (181 kg)
Propellers: 2-bladed, 10 ft (3.0 m) diameter

Performance

Maximum speed: 17.75 mph (28.57 km/h, 15.42 kn)
Wing loading: 0.66 lb/sq ft (3.2 kg/m²)

References[edit]

^ Wahl, Paul (February 1974). "Who Will Take Aviation's Richest Prize?". Popular Science. Vol. 204, no. 2. New York, NY: Times Mirror Magazines, Inc, Inc. pp. 90–92, 136–137. ISSN 0148-7191. Retrieved April 9, 2023.
^ ^a ^b ^c ^d ^e ^f ^g ^h Hooper, Paul (1974). "The M.I.T. Man-Powered Aircraft". SAE Technical Paper 740392. New York, NY: Society of Automotive Engineers, Inc. ISSN 0148-7191.
^ ^a ^b Reay, D.A. (1977). The history of man-powered flight. Oxford, England: Pergamon Press Ltd. pp. 296–298. ISBN 0080217389.
^ Dorsey, Gary (1990). The Fullness of Wings: The Making Of A New Daedalus. New York, NY: Viking. pp. 40–47. ISBN 0670824445.
^ Taylor, John W. R., ed. (1976). Jane's all the world's aircraft 1976-77. London: Macdonald and Jane's Publishers Ltd. pp. 521–522. ISBN 0354005383. Retrieved April 9, 2023.
^ Dwiggins, Don (1977). Man-powered aircraft. Blue Ridge Summit, PA: Tab Books. pp. 165–167. ISBN 0830622543.

[POPSCI-1] Wahl, Paul (February 1974). "Who Will Take Aviation's Richest Prize?". Popular Science. Vol. 204, no. 2. New York, NY: Times Mirror Magazines, Inc, Inc. pp. 90–92, 136–137. ISSN 0148-7191. Retrieved April 9, 2023.

[SAE-2] ^ ^a ^b ^c ^d ^e ^f ^g ^h Hooper, Paul (1974). "The M.I.T. Man-Powered Aircraft". SAE Technical Paper 740392. New York, NY: Society of Automotive Engineers, Inc. ISSN 0148-7191.

[REAY-3] Reay, D.A. (1977). The history of man-powered flight. Oxford, England: Pergamon Press Ltd. pp. 296–298. ISBN 0080217389.

[DORSEY-4] Dorsey, Gary (1990). The Fullness of Wings: The Making Of A New Daedalus. New York, NY: Viking. pp. 40–47. ISBN 0670824445.

[JAWA76-5] Taylor, John W. R., ed. (1976). Jane's all the world's aircraft 1976-77. London: Macdonald and Jane's Publishers Ltd. pp. 521–522. ISBN 0354005383. Retrieved April 9, 2023.

[DWIGGINS-6] Dwiggins, Don (1977). Man-powered aircraft. Blue Ridge Summit, PA: Tab Books. pp. 165–167. ISBN 0830622543.

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Specifications[edit]

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