Airflow, a recent entry into the electric conventional short takeoff and landing (eCSTOL) market, is pushing forward into fielding a full-scale demonstrator. They are also testing the limits of Artificial Intelligence (AI) in nailing their landings. Airflow’s mission is spelled out in big ideas and bold fonts. “Freight without the wait. The first electric Short Take Off and Landing (eSTOL) aircraft for middle-mile logistics. 1 pilot, 500 lbs of cargo, 0 lbs of CO2.” Airflow’s concept illustrations show a twin-boom pusher with 10 distributed electric motors along the wing’s leading edge. Trying out their ideas for extremely short takeoffs and landings will fall to a modified Cessna 210. In the meantime, the team is advancing its concept at this time with a model Cessna 150 and showing some success at nailing their landings. Airflow calls its pilot assistance program, “Virtual Tailhook,” and it seems to serve that purpose in making landings possible in a tight space. Videos show the progress …
Airflow: Coming to a Rooftop Near You?
“1 pilot, 500 pounds of cargo,” reads Airflow’s headline for its electric STOL (Short Take Off and Landing) aircraft. Reaching for the “middle-mile” cargo delivery market, Airflow’s new design promises to be four times faster than trucks, operate at one-third the cost of helicopters or eVTOL (electric Vertical Take Off and Landing) vehicles, and require only 150 feet for takeoffs and landings. eVTOL Reconsidered Airflow’s management and engineering team come from previous experience in the eVTOL world, most recently with Airbus’ Vahana program. Headed by Marc Ausman, The team has “over 60 years of aerospace experience,” with companies including Eclipse Aviation, Northrop Grumman, Uber Elevate, Airware, and Scaled Composites. The team determined their design can carry a pilot and a 500-pound payload using less power than comparable eVTOLs because multirotors carry the full weight of the aircraft at all times, or for some designs, until they are able to transition to full forward flight. This helped form the decision to …