The effects of wing loading on the design of short takeoff and landing (STOL) transports using (1) mechanical flap systems, and (2) externally blown flap systems are determined. Aircraft incorporating each high-lift method are sized for field lengths of 2,000 feet, 2,500 feet, and 3,500 feet, and for payloads of 40, 150, and 300 passengers, for a total of 18 point-design aircraft. An assumed 1975 level of technology is applied to both concepts in terms of propulsion, weights, active controls, supercritical wing methodology, and acoustics. Low-wing-loading STOL configurations with mechanical flaps are found to be competitive with externally blown flap STOL configurations over wide ranges of payload and field length for the airworthiness rules and technology improvements assumed. Because the results of design studies like this one are sensitive to the ground rules assumed, careful attention is paid to describing the assumptions. These assumptions must be understood before the results are compared with other STOL airplane studies.
The Influence of Wing Loading on Turbofan Powered STOL Transports with and Without Externally Blown Flaps
1973-11-01
Report
No indication
English
Externally blown flaps, aerodynamic feasibility study of a STOL-transporter
Emerald Group Publishing | 1971
|Air Force STOL Tactical Aircraft Investigation: Evaluation of Externally Blown Flaps
SAE Technical Papers | 1973
|Blown Flaps for Stol Operation
Emerald Group Publishing | 1959
|