But it means it probably shouldn't be.
Well, yeah. Isn’t that the business model adopted by a lot of these guys? Pick a concept that sounds sexy but is utterly unattainable without some theoretical vast leap in one technology or another - better if it needs two or three. You can suck up investor money for decades on a sexy hobby project, never produce anything other than promises and “prototypes”, and when it all comes to nothing and the money is gone…. Well, it’s not YOUR fault the world just wasn’t ready for you.
They validated that their predicted performance was possible. If they had a zero emissions, zero weight, 12,000 hp engine that burned 0 gph of unicorn saliva.I read their original 550 hp power plant wasn’t cutting it. No kidding.
They need to pick which specifications will sell more aircraft: performance or fuel efficiency. I agree they won't get both with their current engine. Perhaps they should give GE a call and offer it as a test bed for the new GE Catalyst turboprop engine. Throw in the use of SAF and they may get better than 60% of the current fuel burn and have the ponies to get to altitude. Unfortunately, the PT6 series are gas hogs and one of the reasons they supposedly didn't go the turbine route. However, I think they're driven (financed?) mostly by the fuel burn side which is why they are looking at hydrogen instead to the new turbine designs out there.
That is the only thing that makes me think they know anything about flying.
https://www.smart-energy.com/renewable-energy/hydrogen-paste-a-new-fuel-option-for-vehicles/
I think the same question could be asked of lithium batteries and it's impact when you look at extraction and charging from mostly coal and natural gas.
TheDrive recently did a good review of this. It's not just coal and where the power comes from, it's the whole mining process of lithium that is often overlooked. For several of these applications the breakeven point is well down the line as far as CO2 emissions goes
Or the fact that 90% of the current hydrogen supply is derived from fossil fuel namely natural gas.
While I haven't seen the paste mentioned in the aviation side, the current routes actively being taken are with modifying current ICE turbines to use hydrogen and with new generation hydrogen fuel cells. Airbus and CFM will use an A380 test bed to run a modified GE engine on hydrogen which is slated to fly around 2025-26. And Piasecki Aircraft will test the HyPoint hydrogen fuel cell propulsion unit in a modified German LSA helicopter and is scheduled to fly next year. These newer fuel cells have a power density numbers that warrant the move into the test flight stage. Piasecki is also working on the certification requirements for a Part 27 hydron fueled helicopter using a larger version of the HyPoint fuel cells.
I'd agree on the AVGAS side it will be the last, but on the turbine side the transition to 100% SAF is here. Depending how these latest 100% tests go, I wouldn't be surprised to see the Part 121 side be the first global industry to transition away from fossil fuels rather than the last.
