| PROPOSAL NUMBER: | 04 T7.01-9955 |
| RESEARCH SUBTOPIC TITLE: | Personal Air Vehicle (PAV) Research for Rural, Regional, and Intra-Urban On-Demand Transportation |
| PROPOSAL TITLE: | LOW COST/LOW NOISE VARIABLE PITCH DUCTED FAN |
| SMALL BUSINESS CONCERN (SBC) | RESEARCH INSTITUTION (RI) | ||
| NAME: | AEROCOMPOSITES, INC. | NAME: | Georgia Tech Applied Research Corporation |
| ADDRESS: | 49 CAMBRIDGE HEIGHTS | ADDRESS: | 505 Tenth Street |
| CITY: | KENSINGTON | CITY: | Atlanta |
| STATE/ZIP: | CT06037-2310 | STATE/ZIP: | GA30318-5775 |
| PHONE: | (860)829-6809 | PHONE: | (404)385-2175 |
PRINCIPAL INVESTIGATOR/PROJECT MANAGER
(Name, E-mail, Mail Address, City/State/Zip, Phone)
John A. Violette
aciprops@aol.com
49 CAMBRIDGE HEIGHTS
KENSINGTON, CT 06037-2310
(860)829-6809
TECHNICAL ABSTRACT (LIMIT 200 WORDS)
ACI proposes a design for a Propulsor (Low Cost/Low Noise Variable Pitch Ducted Fan) that has wide application in all sectors of Aviation. Propulsor hardware of this low cost design can be integrated with a broad range of aircraft engines (e.g. existing piston engines, automotive derivative piston engines, new design turbine engines) for use in new design aircraft.
The proposed Propulsor design will incorporate known acoustic design features that support low noise aircraft operation. These features include the use of duct acoustic liners, attenuating harmonic stator vane and rotor blade configurations, and duct designs that direct/condition the exhaust air stream to minimize noise heard by individuals on the ground during aircraft takeoff, landing, and fly-over.
The proposed Propulsor design makes possible the fabrication of low cost and low weight variable pitch fan blades and rotors. The new composite blade/retention design avoids the need for heavy and expensive ball bearings and other complex hub pitch change mechanism components.
POTENTIAL NASA COMMERCIAL APPLICATIONS (LIMIT 100 WORDS)
ACI's proposed Propulsor (Low Cost/Low Noise Variable Pitch Ducted Fan) design makes possible the manufacture of low noise and low cost aircraft propulsion systems. The Propulsor design implementation in personal air vehicles (PAV) will make possible compliance with growing low noise restrictions. Importantly, the low cost Propulsor design will help NASA meet its PAV cost targets. This will help pave the way for high volume PAV aircraft sales in the future and realization of the NASA PAV/GA vision.
POTENTIAL NON-NASA COMMERCIAL APPLICATIONS (LIMIT 100 WORDS)
ACI's proposed Propulsor (Low Cost/Low Noise Variable Pitch Ducted Fan) design has wide application in Aviation beyond just General Aviation. In Military Aviation, the ACI design low cost Propulsors are particularly well suited for applcations such as in VSTOL vehicles (e.g. twin counter rotating ducted lift fans, UAV vehicles where low noise signature is critical to mission success, and helicopter tail rotors. In Commercial Aviation, the Propulsor low cost design can be used for fans in turbofan engines such as the ADP (Advanced Ducted,