CAMBRIDGE, Mass. – Electra.aero, Inc. (Electra), an aerospace company, has successfully completed powered wind tunnel testing for its nine-passenger EL9 Ultra Short hybrid-electric aircraft, confirming Electra’s blown wing design delivers the high lift needed for takeoff and landing in just 150 feet. This is 10 percent the distance typically required by conventional aircraft of the same size.
Using a 20 percent scale model of the EL9 wing, the tests demonstrated lift coefficients greater than 20 — 7X greater than the 2.5-3 range typical of unblown wings. The results validate the potential of electric blown lift to increase the wing’s lifting capability at low speeds, enabling safe takeoff and landing operations from soccer field-sized spaces. The tests also confirm the EL9’s approach and landing profile meets all FAA Part 23 safety and stall margin requirements, ensuring safe and predictable handling at slow speeds.
This design allows air operators to connect communities that lack aviation infrastructure, fly into airports with strict noise restrictions, create new opportunities and business models for cargo services, and save travelers significant time and hassle. It also introduces entirely new logistics capabilities for warfighters including the ability to land on unimproved surfaces, improve safety and reduce cost, power ground operations, and carry out logistics transport.
The US Army collaborated with funding for the testing through a Small Business Innovation Research (SBIR) contract as it explores the potential for Electra’s blown wing technology and dual use hybrid-electric aircraft to expand its military capabilities.
The company is further refining the design of its EL9 production aircraft on the basis of these findings and its ongoing flight tests and demonstrations of the EL2 demonstrator aircraft.
Electra has over 2,200 pre-orders for the EL9 from more than 50 operators worldwide, valued at more than $10 billion. The first test flights are planned for 2027, with certification and commercial service entry anticipated in 2029 under FAA Part 23 regulations.