Florida Tech First University to Own and Fly Electric Plane

As the focus on climate change and electric transportation increases, a first-in-the-nation acquisition for Florida Tech will allow for hands-on learning and important research on a new and timely aspect of aviation.

The motor and battery of the Velis Electro.

This month, the school became the only American university to own and fly an electric plane. The Velis Electro, a light aircraft from the Slovenian company Pipistrel, was introduced last year. The first electric-powered airplane certified in Europe, it has a maximum speed of 181 km/h (113 mph, 98 knots), zero emissions, an engine with a noise level of 60 decibels (quieter than the single-engine Cessna 172 which is 85 decibels) and a body made of composite materials. The plane costs $190,000.

The two-seater has not been flown in the United States until now. It is awaiting U.S. certification, so Florida Tech is flying it under the “experimental” category. Florida Tech alumnus and former associate dean Isaac Silver was the pilot for the inaugural flight. He flew for 22 minutes, using about a third of the aircraft’s battery capacity and creating an operating cost of only $1.03.

The plane will give students the opportunity for experiential research with cutting edge technology, providing a research value added to their educational experience.

“While we can teach students flight test techniques using older aircraft, having them test an airplane with the latest technology prepares them for contemporary designs,” said Brian Kish, Flight Test Engineering program chair and aerospace associate professor.

The first university flight of the Velis Electro, performed August 10.

The next step is in getting to know the plane to log significant flight time. That’s to the benefit of the university and another interested group: the Federal Aviation Administration, which is in the process of awarding Florida Tech an $85,000 contract to provide data from the first 50 flight hours of the Velis Electro. Kish said the first thing the team will do in the early flights is to make sure they’re getting the performance that the plane’s manual says the vehicle should give. The team will test the different power settings during the plane’s cruising period.

“There’s different speeds, whether you use 20 kilowatts, up to 36 kilowatts for cruising, obviously the more power you should go a little faster,” Kish said. “So, we’re going to spot check all those cruise settings and see what airspeed we get and see how long the battery charge lasts.”

The Velis Electro charging after its first flight.

The electric plane made it to the university through a research relationship between the university, Georgia Tech and the FAA. As part of the work, university researchers were made aware of electric plane, with Pipistrel’s chief test pilot invited to a meeting to discuss the airplane. Pipistrel then offered the data on the plane, which led to Florida Tech inquiring about the plane to use for their own research. After internal discussions and a grant from the Buehler Perpetual Trust, the school put in the order last September. The plane arrived in Melbourne in July.

While there is still much data on electric-powered flight to be obtained, the possibilities have researchers at Florida Tech excited about developing a better understanding of these types of aircraft, including current things done well and what may need to be improved.

“We expect to see some drawbacks and limitations, but more importantly we expect to also see potential opportunities,” Kish said. “As the first US customer, Florida Tech will report our research findings to Pipistrel and the FAA. This initial feedback is crucial in the engineering process to evolve the design as well as assist federal regulators on developing certification and training guidelines.”

Show More
Back to top button