In July, Lockheed Martin completed the build of NASA’s X-59 test aircraft, which is designed to turn sonic booms into mere thumps, in the hope of making overland supersonic flight a possibility. Ground tests and a first test flight are planned for later in the year. NASA aims to have enough data to hand over to US regulators in 2027.
It would still take you 2-3 days, assuming normal operation with stops along the way. If the fastest train that exists on the planet right now ran from NYC to L.A. and was able to go from 0 to top speed instantly, and maintain that speed the entire trip, it would still take 10 hours to get there. Trains don’t operate that way though, so realistically it’s 3 days worth of travel. It’s almost 3000 miles to cross the USA.
Just because buses and trains don’t make sense for trans continental journeys, doesn’t mean they can’t be used for shorter journeys. There’s a bunch of areas in North America where is does make sense and could eliminate many flights.
That’s true. They’re talking about building a high speed rail from Portland to Seattle right now, and I think that would be awesome. Decades ago California spent billions to build a high speed rail from Fresno to San Francisco, which would have solved a lot of problems for both cities, but as far as I know, they never even laid a single mile of track.
There are technologies already starting to roll out which will make flying the least ecologically damaging means of public transport for long and medium length journeys, I wrote a comment about it already but they’re building a faculty that turns captured carbon into jet fuel it’s really clever stuff.
yeah but captured carbon gas is stupid expensive, and I imagine it’ll be worse for jet fuel. porsches recaptured carbon gas is like $40 a gallon
The first computers cost millions and the one I’m holding in my hand is basically worthlesss. capture and conversion are both fairly simple processes so we will see a lot of reduction in cost once engineering pathways are established especially when tied to excess power generation from renewables - instead of wasting excess capacity divert it to a nearby carbon capture plant.
If a system like this manages to make fuel cheaper than standard fuel types then we’ll see them spring up everywhere, it could be a total game changer. Worse ways there’s an expensive alternative for use cases where electric planes aren’t feasible and we learn a lot about atmospheric carbon in the process.
The air force have been doing studies and they’re really keen on it, fuel security is the main reason but it wouldn’t have got this far if it wasn’t at least somewhat economically viable.