The design goal was to provide an engine that could run on globally available fuels, such as Jet-A or ultra-low-sulfur diesel, given the disappearance of avgas in most parts of the world.
[1] The TP 100 develops 241 hp (180 kW) and weighs 125 lb (57 kg) plus accessories.
[1] The engine was expected to produce a specific fuel consumption of 0.82 lb/hph (0.5 kg/kWh), yielding a cruise fuel flow of 21 U.S. gallons (79 L; 17 imp gal) per hour which would have been 52% more than the equivalent piston engine, the Lycoming IO-540, which produces the same power at a SFC of 0.45, burning 12.7 U.S. gallons (48 L; 10.6 imp gal) per hour.
In examining these numbers AVweb editor Paul Bertorelli stated that this "illuminates the harsh fact that turbine engines just aren't as efficient as piston engines and the smaller the turbines are, the less efficient they are".
[4] The company had planned to work with PBS to obtain Federal Aviation Administration certification in the US.