VTOL On Demand Mobility

Well it will remain impractical while they keep cornering themselves with inappropriate mission profiles.
 
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I hope that I miss something. Otherwise from my point of view eVTOL is not really practical.

To those who understand the practical issues, it’s been obvious for a few years that the whole eVTOL industry viability was/is dependent on the development of battery energy/power density. Joby’s 150 mile flight was done with zero payload and pilotless ie the pilots were replaced by battery packs…. No use beyond publicity.

When the eVTOL thing got underway four or five years ago, predictions were being made that batteries energy/power density would increase dramatically, and well, it just hasn’t. I never understood why these predictions were believed and looking back those behind them were they were poorly qualified to make such claims. Maybe Southsea Bubble or cold fusion or Mr Ponzi like.

A simple observation;- Lithium is the third lightest element known, it’s only one electron to give up and mixing it with anything else to encourage it’s electrical properties will inherently make any battery heavier ie less power dense.
 
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I hope that I miss something. Otherwise from my point of view eVTOL is not really practical.

To those who understand the practical issues, it’s been obvious for a few years that the whole eVTOL industry viability was/is dependent on the development of battery energy/power density. Joby’s 150 mile flight was done with zero payload and pilotless ie the pilots were replaced by battery packs…. No use beyond publicity.

When eVTOL thing got underway four or five years ago, predictions were being made that batteries energy/power density would increase dramatically, and we’ll, it just hasn’t. I never understood why these predictions were believed and looking back those behind them were they were poorly qualified to make such claims. Maybe Southsea Bubble or cold fusion or Mr Ponzi like.

A simple observation;- Lithium is the third lightest element known, it’s only one electron to give up and mixing it with anything else to encourage it’s electrical properties will inherently make any battery heavier ie less power dense.

This could explain why Joby quietly invested in a start up that is developing a hydrogen powered aircraft. They must understand their aircraft has severe range limitations and that some sort of hybrid solution will be required for greater payload and range.


I wonder if eSTOL aircraft that have very different flight profiles could perform better ? Maybe projects like this could be viable enough to become successful.


A recent article in Aviation Week explained how engine makers are focusing on hybrid electric solutions for extending range having anticipated that battery power alone would not be enough to make these eVTOLs commercially viable. The article has a hard paywall, but I found some information on the solution that Rolls Royce and others are exploring here below. I think hybrid electric designs are the only practical solution right now.




 
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One way to beat the competition is to batton them to death with a load of money. I would then be really cautious before identifying Joby buy of H2Fly as being something with great development potential.

Moreover, H2Fly are very early in their product development with a quite narrow concept.
 
Well it's will remain impractical while they keep cornering themselves with inappropriate mission profiles.

Interesting debate. What would be a more appropriate mission profile?

Part of me feels like the obvious mission profile optimization involves ditching VTOL, the pilot, weather constraints and certification requirements… also known as buying a Tesla (or any electric car). ;-)
 
I hope that I miss something. Otherwise from my point of view eVTOL is not really practical.

To those who understand the practical issues, it’s been obvious for a few years that the whole eVTOL industry viability was/is dependent on the development of battery energy/power density. Joby’s 150 mile flight was done with zero payload and pilotless ie the pilots were replaced by battery packs…. No use beyond publicity.

When eVTOL thing got underway four or five years ago, predictions were being made that batteries energy/power density would increase dramatically, and we’ll, it just hasn’t. I never understood why these predictions were believed and looking back those behind them were they were poorly qualified to make such claims. Maybe Southsea Bubble or cold fusion or Mr Ponzi like.

A simple observation;- Lithium is the third lightest element known, it’s only one electron to give up and mixing it with anything else to encourage it’s electrical properties will inherently make any battery heavier ie less power dense.
IMHO seperate lift-cruise systems have a clear advantage in that regard.

For instance Beta's Alia (depicted):
The cruise motor could be relatively easy replaced with a gas turbine or piston engine. Now battery power is only required by the (four) lift motors. Hence battery volume / mass can be reduced and some space for a fuel tank becomes available.

Voilà, here you got your long endurance evtol. This is how those hybrid quadcopters became a feasible option in the UAS sector.

Yes, it's no longer pure electric then. However, it could be easily converted back once battery technology allows it.

1220469ALIA-250-UPS-Livery-sskyup-2-1.jpg
 
But then, you'd have to ask yourself: why do I need those mini rotors for something as E-intensive as vertical flight (E stands for Energy) when their efficiency is ridiculously low?
 
But then, you'd have to ask yourself: why do I need those mini rotors for something as E-intensive as vertical flight (E stands for Energy) when their efficiency is ridiculously low?
Not only then. That's rather a general question you'd ask yourself when you start developing a vtol aircraft.
 
Wooo! I've always been a fan of this concept since it was unveiled at AFWERX. Sincerely it might be a better option than the Bell's HSVTOL concept, which always seemed a bit overengineered IMHO. Hopefully this will not suffer the same fate as Aurora's Lighting Strike and potentially develop into an actual airworthy product (looking at you DARPA X-Plane)


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Aviation Week had an interesting article 2 weeks ago where it speculated that up to 75% of these start up companies could fail and the remaining 25% would have a hard time attracting funding because all the investors who got burned won't want to sink another penny into the evtol market.
One would think people would have relised this by now venture capital is built on expecting 9 out of every 10 investments to fail, with the last one doing so well that it covers the loss, honestly 25% success rate would be considered a huge win by these people.
 

Granted, this person is hardly an unbiased observer, but he raises some interesting points about the business case for Evtols. I personally have my doubts about how extensively these things will be used once they enter service. The article mentions rooftop to rooftop inner city flights being the goal, but here in New York, ever since a gruesome accident involving a helicopter tipping over on the roof of the Pan Am building in the late 1970s that resulted in several deaths, there is no chance of rooftop flights ever getting approved in NYC. Southern California on the other hand is the one market where I could see these things become a huge success for short flights.
Man even if he has a point could have at lest found a ceo of a company that has at lest biult a sold a helicopter, he's not any less smoke and mirrors then the the eVtol industry.
 

This project was profiled in the current issue of Aviation Week so I found this article giving more details. When it enters production, it will first focus on cargo before carrying passengers.
 
I noticed in the article, the following claim;-

“Aerofugia claims to have made a breakthrough in the key technology of the tilting dynamic process and accomplished the verification process of the tilting dynamic of the TF-2 scaled-down prototype.”

Key technology… Tilting Dynamic process? The TF2 doesn’t need a tilting dynamic process, as it a conventional aeroplane with a few vertical lifting propellers, essentially a cross between a helicopter and aeroplane. A concept including key technologies, that’s been demonstrated several times over the last half century or more , but nobody wanted it.

Claiming bollox* seems to be a key technology in a“fake it until you make it “industry.

* appearing to sound technically informed when not
 
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I too am quite skeptical at the prospects of an EVTOL in every garage. However I also recall that the aeroplane was considered fantasy right up to 1903 by many. The helicopter was of no value, until it was. So I do think that some of the EVTOL will succeed in niche markets until demand causes more maturity with the power generation technologies.
Who knows! With arrival of quantum computing we may have "Mr. Fusion" in short order. Assuming big oil does not buy the rights and bury it in Nevada somewhere.
 
@yasotay : don't take me wrong, I am not placarding the concept. Just the way this type of entrepreneurs have taken and claimed every rights (and money) on it.
In a startup, the factory is the product. That why I say it's a modern circus since sustaining the idea that they are achieving something is the only end goal here. That and, obviously, entertaining naive investors in their beliefs.
 
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View: https://mobile.twitter.com/FlightGlobal/status/1572752681415983105


But their sister company Wisk Aero survives and today they unveiled a roadmap to achieve their goals of establishing air taxi service.


I'm genuinely surprised that more of these startups haven't collapsed by now.
 
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View: https://www.youtube.com/watch?v=3w6jtKl2ymA&t=77s


We finally get a close up look at what the cockpit of the Joby evtol will look like. I wonder, if the fly by wire system makes flying this thing as easy and simple as it looks, could a pilot without a helicopter rating be trained to operate this aircraft or wound the FAA prohibit that ?
 
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Well, given that you apparently need a deserted airport with a class B runway to land you marvelous machine, probably that you are among the lucky ones that survived Tanos or any apocalyptical events. You shouldn't worry much.
 
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but here in New York, ever since a gruesome accident involving a helicopter tipping over on the roof of the Pan Am building in the late 1970s that resulted in several deaths
I browsed that - and boy was that ugly and disgusting. Four passengers chopped to bits, and a fifth person killed by a flying rotor blade like a missile, down on the street. All this just because a side wheel failed and the S-61 tipped over.

 
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There’s also the PanAm helicopter shuttle accident where one of the passengers had a bag full of cash (South American - a little sketchy). When he realized that the ground crew were putting it in the baggage hold instead of the cabin, he got out of the helicopter and walked around the back to get it…

… needless to say he didn’t make it to the other side. I’ve always felt bad hearing this story for his wife who was still on board and had to witness the whole thing.
 

Finally we get to see the definite version of this design that will eventually enter service. Also seems risky to go for fully autonomous flight operations right from the start. It might take some time to convice the FAA to sign off on that. The Joby approach of having a pilot in the aircraft in the beginning and later transitioning to self flying seems like the wiser choice. They must think that their partnership with Boeing regarding the development of autonomous flight controls might reassure skeptical regulators.
 
The flight safety strategy is good. I see it the way to go. Probably that an onboard emergency landing system will be mandatory (a land somewhere there around!! button).
It's good to see constructive innovation coming from the startup world once in a while.
 

A detailed interview with Archer that lays out what their long term plans are.

From the attached interview;-

“The aircraft’s 12 rotors spin slower than helicopter blades and thus generate significantly less noise. “

Oh there, there little financial wizard- a typical comparable sized helio rotor spins at about 250-300 rpm.. Good luck Archer with getting anything other than noise out of a 2m diameter prop at less than this. (I haven’t the heart to tell him they spin at probably tens times the speed with close to tens times the losses;- propeller loses are tip dominated)

In general the questions are avoided and the few answers given just invite more questions that are not posed.
 
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@Zoo Tycoon , it totally agree, the super lightweight Robin 44 helicopter (683 kg empty) has a rotor diameter of 10 m, that's twice as much rotor area as the Archer (12 x 2 m). The Archer aircraft will surly be much heavier due to the batterie mass, how shall that thing be able to start with "lower rotor spin" (" The aircraft’s 12 rotors spin slower than helicopter blades and thus generate significantly less noise.) ???

My English is not very sophisticated, but I would interpretate "lower rotor spin" with lower rpm...

A noise of only 45 db would be unbelievable quiet...
 
I think tip speed is what's referenced. Tip speed is rpm/60*r where r is the radius in feet or meter.

With a much smaller rotor, they can increase their rpm without reaching sonic speed at the tips. Hence generating less noise.
 
The specific disk load needs to be more than twice as high, this surly can"t be done with half the tip speed. You might increase the pitch angle for a fixed geometry rotor somewhat (it would help), but twice the disk load with less wing tip speed is surly impossible. Please note, the rear rotors have only two blades.

A starting noise of 45 db is incredible low, you could stand next to it and having a conversation by whispering.

Please correct me, but "lower rotor spin" sounds more like lower rpm to me.
 

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