Great to see KZfaq recommend a small channel like this. I'm sick of the fluff click-bait videos. Thanks for your work.

This is a 12/10 analysis

This was one of the best lectures on electric aircraft design and certainly the principles explained can be applied to other vtol aircrafts. Very comprehensive.

Love the detail and analysis, thanks for taking the time making this video and posting it, very interesting.

Very much look forward to watching this in full a bit later today. Looks great and like a much needed report.

As an RC aviation modeller and pilot in the 1980’s I am perplexed these engineers started this project from a top-down approach. (First some calculations, then a model). In an RC modellers mind you start with a general concept, then you start adapting until it works. Low cost development, high return. Make it crash and build better. I designed a canard glider with a special wing design in the 90’s, first model were flat balsa surfaces to have a rudimentary proof of stability of the design. It worked. Then you can start upgrading. Due to life’s duties that project is still on my shelf. What I remark in your analysis is that a designer drew a manta-like flying object, but I wonder if he realizes how aerodynamics work. By the way, VTOL can save lives for short distances, but it’s not suited for long flights. Best in between choice would be STOL then, but also requiring a lot of power. VTOL electric is quite crazy if it consumes 10 times more to go up or down.

Such a great video material! The best is that with your high-level technical work on this video, you attracted a really knowledgable crew of commentors that only enrich more this. Please continue doing these analysis at this level or even higher. I loved to see the technical details, the backed-up data, and conclusions. I just discovered your channel and I am subscribed now

Stoked to see you get the recognition you deserve mate! Such refreshing and well delivered analysis/information. Let's see how battery technology over the next 24 months impacts the sector. Thank you!

What an amazing 100+mins of content! Can't wait for your future analysis

Interesting and highly professional analysis of this concept and somewhat inline with my gut feeling after 40 years in the industry - good job

Thank you so much for this clear and helpful analysis!

Great video. Please keep up the good work. Very much enjoy you videos, John!

Amazing work, very detailed presentation! Thank you for the effort given

im goings to let the video play through without watching it again because i don't want the algorithm to think i got bored and bailed. i never care about that stuff but this video deserves it.

Dear John, nice video, nice work from your side, keep this ongoing, I will just add a remark to what you said: In 2017 i sent an email to Lilium telling them that this eVTOL will never fly, (they announced 2019 as a first fly), I explained to them that they should reduce the number of EDF and increase the diameter, guess what, after millions of € and 5+ years, they increased the diameter of the EDF (also the number is reduced). But after all this is a new startup, they should keep iterating the design/system, maybe it will fly.

Thank you for in-depth insight. 👍🏻👍🏻👍🏻

Congratulations on this very sound analysis!

Well done!!

Very good analysis! Thanks.

Velice přínosné dokumentární video. Fandím lidem, jako jsou ti ve společnosti "Lilium".

Very good and calm analysis, thank you very much. It’s hard to believe that so much money can be raised for a quite obviously flawed concept.

One question I have about all E-VTOLS, is are they designed to operate in windy and rainy conditions too? I haven't seen any mention of climatic conditions other than calm winds and sunshine from any of the designs that are currently in development.

Excellent analysis. Thank you.

Thank you for te detailed report.

Very well done John.

this is a great video. i was worried that you deleted it when i couldn't find the original. its as good as a video can be.

I eagerly watched the report by John Lou. Although difficult for me to understand the technical language and calculation, It was informative for me as a potential investor, and want to say Thank You for taking the time and review it for all of us. Not sure it was stated what the weight of the batteries are, and how long it takes to recharge them, Just as an observer the wing span length to the fuselage length. Planes need long wing span for lift to happen. If it is Li batteries, they weigh a lot, The Lilium looks more like a Drone than a plane from what I have seen

very nice analysis, thank you

Good analysis, that kind of reminds me of the concept of the 80% solution being much easier than the the 100%. I read down below, pilots are pointing out some failure possibilities which seemingly don't have "autorotation" or glide to landing fall backs.

Very professional analysis!

Many also laughed at Hunter Kawald's e-hover board for being engineering impossible but there he rode it in Times Sqr, and every where. So as many big auto makers laughed at Tesla when its inventors came up with a prototype... saying engineering impossible. The SECRET sauce is the trick to supply enough consistent electric juice and software energy planning.

John, it would be great to see a similar video on the Jetoptera from the US.

this video was so good i watched it again. i don't even bother arguing about lilium anymore i just link this and they quit.

Interesting! Well reasoned.

I have done some drag analysis and optimization for canard plane like Lilium as a personal project . The drag of the canard was significant.

First of all thank you for an amazing video - I learned a lot Secondly I would like to ask - How would the situation look like if we had a battery with much higher energy density. Perhaps something like a solidstate battery or the one being developed by Enovix. Would love to see a video on this topic.

Liliums latest test flight range was over 13 km. Thanks for the in depth video. Pls more content about lilium :)

Finally an engineer published a rational analysis for that lil jet!

An excellent calm, objective and factual evaluation of the hype that surrounds this project. As someone who's spent a lot of time using electric-power propellor and ducted fan model aircraft I can tell you that in "the real world" there's just no way an electric ducted fan can come close to a traditional propellor in terms of efficiency when you've got high disk loadings such as those proposed by Lilium. Also, how convenient that one of the requirements for their promised performance is battery tech that is not yet readily available. It was also very interesting to note that their prototype self-incinerated because one thing very rarely discussed by eVTOL companies is how they plan to mitigate the risk of in-air fires caused by battery malfunction. Multiply redundant power systems and ballistic parachutes do *nothing* to save passengers from a fiery death in such an event.

Nice work. I like how your analysis sticks to the applied science. The company’s analysis seems biased by fundraising and marketing concerns.

Have been watching Lilium. Started on this but skipped through. Its looks to be 'German' comprehensive and well delivered. I note the many positive comments below, well done! For a potential (not yet) investor, in between the marketing hype and your comprehensive analysis (and also for the math, physics, areo competent), a 5 minute, compelling, executive summary would be awesome - though certainly not demanded. Thank you for your great work.

Ilike the overall concept. I am an inventor and an eVTOL reseacher. With newer battery technology this concept could be viable.

In hover those wingflaps canted vertically are going to introduce a horrendous gust response dynamic. Control logic can probably be figured out(space x can land rockets with millisecond control response challenges after all). But i expect for certification the weather maximums will be very very low

excellent video

Well said and great analysis. It is insane the capital that these firms like Lilian generate from people and companies that do no due diligence

Your thoughts on Lillium now they've successfully completed hover to aerodynamic flight to hover test flights? It seems the question of range viability comes down to battery power density and aero drag. It seems entirely reasonable that Lillium anticipate further enhancements in battery chemistry and design the aircraft well ahead of current battery technology - so long as their investors are patient. It also seems reasonable that they develop multiple models of aircraft over time, waiting for battery technology to catch up.

I believe that it’s really profitable to focus at cities transportation, for example carrying 16 persons with 30 KM distance is better than carrying 7 for 175 KM ? Serving like a bus stations from one block to another

Would there be any benefit to using different rotor designs on different motors? For example, could you have some motors which are cruise optimized and others which are hover optimized?

What would be the opportunity to change the design to rex/hybrid solution? Try to get the best of both worlds.

For an urban aircraft to be usable, it needs to be able to safely handle strong, gusty winds, rain and snow and turbulence due to low level operaration. Density altitude is also a huge issue. All tests seem to be no-wind tests in calm sunny weather. If you have ever done a rooftop landing in a helicopter, you know how tough that is

Dayumn! This was very detailed, great work. One small addendum, small fans=very, very low efficiency That is something no amount of money or buzzwords can change, ever. When i first saw this, i just dismissed it as another CGI money grab for the uninformed.

Makes total sense. What do you think about the design of Convair XFY Pogo, will that work with an electric double prop system? I am looking into building something similar asap I can get batteries from Amprius

59:00 back then lilium didnt achieve full transition yet. Spain test-flight campaign started later. In germany located flight test they on tested hover flight.

i would love to see actual test data. this should be continuously published. Such transparency would be better than the question of "techno-scam?". Even if this data might have a negative impact on fund-raising, it could nevertheless keep the company alive for longer, due to confidence in the reality of the product. could it be so bad that they would want to hide it? i remember hearing that the hover efficiency of this duct configuration was better than expected, given lift produce by the rigid portion of the wing with ducts pointed at angles downward. i did not hear that mentioned in this analysis.

Would love a deep dive into why evtol systems don’t use PEM fuel cells or a hybrid approach to reduce battery weight.

Excellent video and analysis. If only we had one of these for each of the other eVTOL concepts, as the vast majority of them are hiding mountains of "bad news" data from their investors as well. This is precisely why Beta suddenly shifted to marketing Alia as CTOL.

Why not incorporate ground powered air assist from take off? Upward air forces under the wings from a ground based launch pad could dramatically reduce battery drain during the lift off.

I would like to fly a machine that can -at least theoretically- glide safely to the ground in case of power loss. The current VTOL propositions seem to be riddled with too many "death zones" in case of power loss. I like your first principle analysis and style. What do you think of e-STOL hybrid proposition like Electra ? Thanks

If you can, would you give your best estimate given current aerodynamic, propulsion, and battery theory as to the best and worst range capabilities? You seem to have sufficient information available to ascertain Lillium's flight range assuming a best-case demonstrator.

@48.31 Hover efficiency is not equal to FM, but to FM*Ideal propulsive efficiency. Therefore you shouldn't compare the 0.4-0.7 FM to the overall efficiency indicated by the anonymous author. Please let me know if I'm mistaken.

Thanks for the analysis, very good review, how do you think using pemfc and lh2 tanks would change this design?

Your analysis it really amazing and I admire the way you diplomatically avoid saying that this is utter BS. I also agree that it can not be more absurd to blow though hundreds of millions of dollar for last 8 years, employ tons of people when they can barely make a small unmanned empty weight version carefully go from vertical to horizontal flight mode while flying in the near vicinity of the airfield. Now believing in catching all that wasted design work up in one year is totally ridiculous. I find it just as absurd that you can win awards for things that don't exist/don't work at all as long as you can present nice images of a model. Our world makes it easy for cheaters of all kinds to gain public visibility and create completely wrong impressions. We should overthink the concept of giving awards, because they are supposed to highlight excellence, which in this case they just don't. Your analysis and presentation is so great that I instantly subscribed - fantastic work 👍

Great voice good tempo.

I cant wait for 2019

Good job on the analysis. I think they ran into the same issue all other air taxi ventures have. They thought hover stability was the difficult part until they got off the ground and found that electric power doesn't keep you airborne for very long. The one thing they have going for themselves is looks. It looks more futuristic than most other designs. Doesn't perform any better and is arguably worse than a propeller design, but it sure looks purty. Just like all other air taxies, they will delay and delay as long as they can until the electric power plants get to where they need to be. Like most others, they will eventually go with a hybrid approach in the mean time.

What a great Idea , those lithium batteries really do burn like rockets !!

Good analysis. Can you do MAEVE next? Delft start-up, less futuristic.

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with a canopy like that it will get hot in there and it can't have air conditioning if it can't even cover its connectors to save weight.

Another glaring problem with Lilium's concept is the ballistic parachute they were initially envisioning to employ. A damn heavy vehicle spinning very fast on top of a forward speed of 300km/h will be difficult to rescue and it is not easier when in low-level hover, in which a chute cannot be used but adds weight. Furthermore putting the thrusters directly on top of the wing also disturbs the airflow over the wing once the thrusters stop to operate (or operating no well in sync with environmental factors). Therefore after a safety-shutoff the wings become ineffective and just add as dead weight.

I think it should be a hybrid-powered aircraft. Add a turbine generator.

What happens if the motor fails? Can it then glide to a safe landing, or are you dead?

A correction - my last post had an error in attributing the wrong duct size of Lilium to Sripad et al it was in fact in a paper on Aerospace MDPI "Electric VTOL configurations comparison' Pub Feb 28 2019 by Basshini and Cestino --the figure for the duct/fan diameter was 0.15 mtrs - the actual diameter is about 0.3 mtrs (so the disc loading was overestimated by four times ) apologies for the mistake , I was working from memory and just found the original paper .

An excellent summary of the state of Lilium's technology. I ran the numbers in 2018 as well. That was less thorough, but I also used Leishman's standard analysis techniques and results from modern ducted fan research from projects like the XV-24. A crucial pin in Lilium's (and Joby's) forward flight L/D was the NASA research leading up to their founding regarding blown wings and distributed propulsion concepts. Joby pivoted away from this concept for a number of reasons, and I am not aware of any full-scale demonstrator that has flown at relevant Reynolds numbers. An L/D of 18 could be legitimate if and only if the promises of distributed propulsion drastically increasing stall C_L are true, but this has yet to be proven out at scale. For their sake, I hope investors are taking note of your analyses. They are in line with my previous estimates and with what I'd expect of my colleagues at the University of Maryland. The "marketing" of Lilium expecting huge leaps in technology to improve their business cases only seem, based on my knowledge, to be borne out in the event that a new battery chemistry matures in the very short term. Work has been in progress on Lithium Sulfur batteries for years as an eVTOL energy storage mechanism, but I have not heard of the chemistry problems drastically shortening the cycle life at high specific energy being solved as yet.

The ironic thing is that they were so close to a blown-lift wing design which would allow them to use slotted flaps to achieve ultrashort horizontal takeoffs, but they went "screw that" and put the motors in the wrong place and designed the thing for VTOL.

Can you do an update on Lilium?

I watched the whole video and think it is very good. However, there is a small elephant in the room here called final reserve energy. I don’t know what it will end up being for this new class of aircraft, but it is most likely going to be the same as for helicopters. So minimum 20 minutes VFR. I did not see this discussed in the video. This is going to have a big adverse impact on the range/weight. What I am saying is, it is not even going to be able to achieve the performance estimates seen here, given it will be lugging about a 3rd more battery deadweight as a legal contingency. One other point. I find it very odd that the mission profile is for a climb and cruise at 3000 m. In the helicopter world you would typically be in the 150 - 1000m range above ground level. Obviously it offers a modest advantage in terms of true airspeed to be higher. Maybe cooling of the electrics. Against that you have the adverse effect of low temps on battery. There is much that could be discussed from the technical POV. But in the end it just isn’t a good operational fit with short to medium range VFR hops across Northern Europe and the like. And if they think this thing is going to be doing IFR work for a living then they will certainly need a bigger battery

Another thing that has not been discussed is spillage drag. If this thing is meant to be only using 10% of maximum thrust in its cruise condition, there will inevitably be a great deal of spillage drag over the large array of ducted fans. It makes the claimed L/D ratio of over 18:1 seem all the more implausible.

I'm not an engineer of any kind, but am enjoying this video very much. I only used to fly model aircraft when I was young. I see this as university quality lecture material. I would suggest perhaps consider breaking future videos up into 30 minute segments, to increase your KZfaq rankings, by more frequent uploads etc... however I'm not a KZfaq expert either. However that simply might not be important to you and that's fine. I'm 30% through this video and expect to have a few questions by the end of it. I'm taking some notes.

More people need to see this type of level-headed analysis. Then we would see more emphasis on proven technology (like HS trained) and less on these ducted pipe-dreams.

Very good analysis. The true range and payload capabilities, with realistic and reasonable values, are probably significantly higher than the Aerokurier paper but not as high as Lilium postulated in their paper, which should have been far more robust in its calculation and validation of key parameters. I suspect a 5 person version of the design would have a range closer to that demonstrated by Joby, probably nearer 100-150km, and cruising at more like 150-200km/h, not 300km/h. As for the 450km/hr and 500km range estimates put forward in 2015, they were fantasy. So were the project timelines. One elephant in the room the video did not mention is battery cycle life. Even if a battery with sufficiently high specific energy (Wh/kg) and specific power (W/kg) is produced, its cycle life is likely to be low (maybe a few hundred cycles). Cycle life has a huge effect on operating costs because short life = more battery replacements, which are very expensive. This has the potential to wreck the business model and leave VIP transport as the only market sector. Difficult to see how it can be a mass-market “Uber like” proposition.

I was the 1000th like! Thanks for the info

Will you draw an example of great design VTOL?

oh and the Pipistrel weighs 1200 lbs vs 6000 for the Lilium. So battery density might have to be more like 10x -20x current lithium batteries.

Very good job. Non-bias annalists.

The aircraft design is definitely valid, the remaining question is range, which undoubtedly will keep increasing with higher battery power density. I believe in it, but for sure I’ll take longer to achieve 200-300 miles range.

I would be very interested in seeing what the power requirements of a STOL take-off and landing of the Lilium would be when a short ground roll is possible. By taking off with the propulsor arrays at an angle that is somewhere around 45 degrees the upper surface suction at low speed would result in a very large lift coefficient. As such most of the force necessary to lift the aircraft then comes from lift on the wing and canard with a lesser portion from the vertical component of the thrust from the propulsors. With such a high lift coefficient, the stall speed is correspondingly low. The result should be a very short take-off distance (~50-100 m?) along with a very steep departure and approach angles at a power level that is likely 2-3 times that of cruise as opposed to 10 times. With less energy used during take-off and landing, more remains available for cruise, and so increasing cruise distance. So I would hope that anywhere the Lilium can avoid take-off and landing vertically it probably should do so.

Lilium is designing a Vtol for Future energy sources, and they shall continue. It is obvious that today’s energy density of latest batteries are not meeting the expectations, we all know it, Lilium knows it too. Sirius came out with a copy of Lilium‘s design with a significant change : hydrogen fuel cells.

Can you please do a video on the Jetson One?! I feel like that concept done in a price reduced way could be the answer to evtols. Why do evtols have to have multiple passenger. You could have ten of thousands of adults flying inside of a year with a cheaper mass produced jetson one

I love VTOL but……. If one still must utilize and airport for takeoff and landing….. just buy a Cessna 182. All this effort and money spent on VTOL but nobody wants to talk about all the noise and prop-wash you’d have to deal with landing one of these at your house or the mall. Great video. Thank you.

Could it be made viable with the addition of a 2kw generator, weighing 38lbs, with fuel?

A better comparison than the Tesla would be a Sea King. It can definitely achieve VTOL and can definitely carry 5 people, and it does that with 2000kW.

I guess we have to know, what most Projects are for? It is for how to make it works!

There is possibility for development with such concept but the realization of it is not going to be as easy as portraited by lillium, reminds me of the same situation aptera is right now sadly. Really enjoyed the somber and technical dissection of both papers. Thank you for putting the time and effort o break it down in detail for the public.

Watching sankuú batteries they are already around 800wh/Lt (~320Wh/Kg) maybe we are close to watch evtol flying.

I think is a very interesting design waiting on battery energy density to catch up. Someday... Stay with it.

HAVE YOU CONSIDERED THAT DURING THE CRUISE PHASE SOME OF THE DUCTED FANS(MAYBE 50%) ARE TURNED OFF AND THEN USED AS GENERATORS TO RECHARGE THE BATTERIES WHILST IN CRUISE MODE, it is possible that they do not want that feature to be shown in test data?

I have no academic qualifications whatsoever in design nor aviation but just a hobbyist. When I first saw this concept I have already had a few doubts about the project. 1. The "over-the-wing" multi-turbine fans design has already compromised hugely on "flying" efficiency as that is the area that a plane would generate its lift. 2. Multi-fan design...regardless how efficient each motor can be, the design required a housing assembly that creates more frontal area hence reduced overall efficiency. 3. Mult-fan design...the more parts the more lost in power efficiency, as simple as that. Apart from Mr. Lou's detailed analysis, the above is my personal observation on the failure of Lilium Jet.

People might pay to fly in it because of the fine design and the fame. To have a Lilium arrive at a ski resort and fly down to Innsbruck airport would be special for wealthy people. It's a long descent down the valley from St. Moritz, for example, which would help with the battery problems. There is a stream of videos about new battery technology that is going to change everything. In the meantime, to have something providing such a service would help further the dream.

1:17:10 Lilium states in another interview what kind of cells they are developing to deal with cell degradation.