ElFly Looks to the Future

Dean Sigler Batteries, Electric Aircraft Components, Electric Powerplants, Hybrid Aircraft, Sustainable Aviation Leave a Comment

Elfly, the recently-formed Norwegian aircraft company, looks to a future of responsible, emission-free flight with its nine-to-thirteen passenger amphibians.  Three partners, Eric Lithun (Chief Executive Officer), Tomas Brødreskift (Chief Technology Officer), and Eirik Sandal (Chief Financial Officer), are dedicated to making electric flight along the seaside an everyday occurrence. Lithun was interviewed about the new machine and explained its benefits. Note the humility of the team’s vision and their willingness to learn during the development process.  As Lithun explains, they can save funds by staying in the nine-passenger mode and expanding with market opportunities.  That market may be imminent, with recent announcements of letters of intent Recent interest jumped after a “dry spell” during which Lithun had difficulty finding interest in his “niche” seaplane.  That now seems over with Danish operator Nordic Seaplanes signing an agreement for 15 Noemis.     This would make Nordic, the only European operator of scheduled seaplane operations, as Elfly’s first customer.  Contingent on Noemi’s certification …

Two Electric Approaches to Coastal Waterways

Dean Sigler Announcements, Batteries, Electric Powerplants, Sky Taxis, Sustainable Aviation Leave a Comment

Two electric approaches to providing seaside flight come from cold and warm climates and from elevations close to sea level to topping Norwegian fjords.  Both rely on electric power to carry up to 12 passengers between seaside destinations. Regent Seaglider If the Wall Street Journal can overcome its skepticism and marvel at the $7 billion in letters of intent or other forms of interest, they might look into what seems to be drawing potential customers.  That may come from the company’s mission, “To drastically reduce the cost and headache of regional transportation between coastal cities.” Skimming the water at up to 180 mph, the Regent Viceroy employs Wing In Ground effect (WIG) aerodynamics to lift it high enough to skim the waves while benefiting from flight in ground effect.  That cushion of air that helps sustain an aircraft on initial takeoff stays with the Viceroy during its entire flight, reducing the power needed and extending the range. With today’s batteries, …