The preliminary design af a high altitude, remotely piloted, atmospheric sampling aircraft powered by microwave energy beamed from a ground based antenna has been completed. The aircraft utilizes a horizontal tail and a canard for longitudinal control and to enhance the structural rigidity of the twin fuselage configuration. The wing structure is designed to withstand a gust induced load factor of n equals 3 at cruise altitude, but the low wing loading of the aircraft makes it very sensitive to gusts at lower altitudes, where induced load factors may be in excess of 20. Therefore, a structural load alleviation system is proposed to limit actual loads to the designed structural limit. Since the transmitting antenna would have a diameter of several hundred feet, it would not be readily transportable; so, it is proposed that a single antenna be constructed at a site from which the aircraft is to be flown. The aircraft would be towed aloft to an initial altitude at which the microwave power would be utilized. The aircraft would climb to cruise altitude in a spiral flight path and then orbit the transmitter in a gentle turn.
High Altitude, Microwave-Powered Atmospheric Sampling Aircraft (Abstract Only)
1990
1 pages
Report
No indication
English
Aircraft , Electric & Ion Propulsion , Meteorological Data Collection, Analysis, & Weather , Air sampling , Climbing flight , High altitude , Microwaves , Power beaming , Microwave antennas , Transmitters , Canard configurations , Flight paths , Fuselages , Gusts , Longitudinal control , Sensitivity , Structural stability , Wing loading