It’s not a failure when you learn something from it.

I've noticed it's very difficult to get accurate flight data for comparing different props, power systems, torque fins, etc., and their effects on efficiency. Even with the electric setup and the instant feedback in power consumption it provides, the weather variable makes getting useful data hard and confirming results that much harder, as there are only so many zero-wind days and even on the zero wing days with the sun set so there is seemingly no effect from thermals there is still a surprising amount of variability. I have found that day-to-day weather changes efficiency around 5-10%, and most changes in props and power systems, etc., only have around a 5% effect, so it can get lost in the noise. I've found myself on nice days testing something and getting a surprising result, then landing and running back to the shop to quickly swap out a part or grab a completely new setup with just the one variable different, and taking off again because at least the weather can't change too much in the 10 minutes between the two tests. So by the time the evening's over, I'll have 2 or 3 units out in the field that I have to take back to the shop. The point being, it's really hard to make the incremental changes of that 5% improvement here and there when weather changes make the noise floor so high.

WOW.... All your knowledge shared ... tons of money and time poured in ... and SHARED to the world. TRUE AVIATOR.

Zip-line drones use a 3 bladed prop of different diameters to spectacularly reduce noise. I think this is the most important thing to grow paramotoring and the most likely end or reduction to the business. A sound test of a 2 blade prop with a 2 to 3cm radius difference should make balancing manageable.

Very interesting. I worked in R&D the cycling industry and love that Scout keep pushing the boundaries in efficiency through experimentation. The mk x prop with the softer elastomer is great for someone like myself who likes beach flying.

I wouldn't call all that research a failer. You successfully discovered what didn't work!

After flying 3 bladers for year, I flew 2 blades for the last 14 years, now my new 80" 3 blade E prop is SO much smoother....., on a plane but props are props.

Dji made something interesting with their props years ago, take a look at them. It’s a long blended winglet, Boeing 787 like… it even ends with a sharp tip. Those props are way quieter.

I heard aircraft engineer said: winglet does really improve the wing efficiency, but only as well as a wing itself would do if it would be longer by half of the winglet length...

Solid development effort. An exotic design I would like to see tested would be a hollow blade that has a port at the root that sucks messy air from there and ejects it at the tip in a way that will negate tip vortices or allow higher tip speeds.

The loss of engine RPM with heat during climb with the fat chord blades would be caused by the exhaust heating up. The tuning of the exhaust on a two-stroke is dependent on the exhaust gas temperature because the speed of sound increases with increasing temperature, so the resonant frequency will probably increase. The other problem with operating right on the peak power point is that it is an unstable point because any increased load pushes you down the power curve rather than up which would be the case if you were operating beyond the peak power point. It's a negative feedback slope which generates the engine speed stability.

I really, REALLY want a 140cm+ scout some day.

Hi Miro, I love your videos they are always very insightful. You are doing an amazing job of R N D in Paramotor. Keep up the great work. 😊. Hopefully one day we share the sky together. 🪂🛩️

determination, wins over Skill! nyc

I wonder if its different in the US and Europe. Here in the US, 140cm props are the standard and probably 70% of new paramotors run it. 130 was the standard up until about 3 years ago and has been replacing the 125cm with a slow phase out starting ~15 years ago. Great work on the prop! I hope to try one some day!

Hello, the project is so incredible ! Every are so enthusiasm about this new propeller. Why don't you do a croundfonfing ? Thanks

Thank you for making this and all of your hard work

Geek!! Cool!!

Thank you for your exhaustive research!

I am glad you landed on design you are happy with, and thanks for sharing.

I love to see what you tested/tried for our hobby and share with us all! Thank you so much!!! One question: Why not run full throttle at let's say 6800rpm instead of 8600? Same power, less rpm, less consumption, less heat, less stress on all parts?

Amazing Miro, truly amazing! You and your team just keep trying to make these incredible machines more efficient and fun. Thankyou for “failing 5 times to set scene 1” 😄 this is why I chose Scout! You guys are unreal 👌🏽

Use an electric drive system to help you evaluate props. You will be able to see extremely subtle variations and performance with high accuracy. Especially if the system will let you log volts, amps, RPMs, etc

NASA found 15% efficiency increase by using much more washout in the tip region. About 4 times the normal washout for a typical wing.

2 blades is a beautiful compromise, balancing out the 1 blade prop most efficiently.

Again, another great educative video from Scout! It's Milo's dedication to teach people all about paramotor design that made me buy a Scout Enduro with Atom 80 engine. It's a pity that his vario-prop is not available for the Atom 80 😢

You can use the large prop if you reverse the engine by placing it behind the prop so that the prop thrust blows on the engine. This will provide a lot more cooling. This is what we do in drones. This could be done by mounting the motor in front of the vehicle, or it could be mounted in back with the proper mounting structure, which would also reduce the sound for the pilot, since the thrust blows the sound away from the pilot. We are developing a full scale electric Blade Runner style flying car called the Sky Chaser. See our icon for project details.

I forgot to mention, Bowers says it will reduce noise. The washout formula is used to reduce computer fan noise on the International Space station. It can be found here: kzbin.info/www/bejne/a4SpeJuln6ZgrKs

Looking forward to the EFI+ variable pitch prop , and always thanks for sharing! thank you

This was a fun watch. Love how easily you made it to absorb this info and your thought processes

From the sounds of things as long as you have good temps and your rpm is running within a nominal range that's as good as it gets. Great video!

Interesting video, goes to show that there's still prop re-thinking associated with very low speed flight. Almost no propeller expert has done exhaustive repeatable prop design work to fly at 25/30mph, perhaps RC prop design offers useful correlation. Experience leads me to state the following re powered para props; - longer props are more efficient than shorter props, almost w/o limit or exception - persistent prop tip speeds above .4 Mach, is annoyingly noisy - prop blade pitch exceeding 14deg@.75r results in thrust/drag tail chasing (under 12deg is preferable) - 3+ prop blades are theoretically advantageous in pusher apps where prop blade shading is significant; also more blades at finer pitch is preferable to more pitch on fewer blades.

I have been working with his research a few years. Id be hsppy to help you get started. I design flying wing models.

Awesome presentation! Thank You for all the great information!!!

epic info

The idea is to reduce the tip vortex strength and move it inboard.

I love your auto-pitch prop design. I bet it would work well with electric too since electric has more torque for acceleration.

Great video as always.But I am still waitnig for variomatic propeler for Polini Thor 202 😞. Maybe someday.

Sensacional

You don't actually know much until you see for yourself...says a real engineer.

You are going to NEED a variable pitch prop, to maintain full power, for maximum climb rate. Anything else is window dressing. As the engine heats up, and starts to lose power, the prop would de-pitch, and maintain peak power RPM. Having the pitch increase from there, as you reduce throttle, will get you SIGNIFICANT gains in fuel economy. You can use electronic systems which are similar to RC variable pitch system, or you could use an aerodynamically controlled system, like the Aeromatic prop, from decades past. The only thing it's REALLY missing, is altitude compensation. Ah. there it is. You're talking about your variomatic. That is only RPM dependent pitch, and it needs to have an aerodynamic (load) dependence, in order to hold the engine at peak power, instead of having to set the rpm above peak power rpm, to account for heat sag.

I make props for FLPHG and i have found that a prop prop that has a pitch that is higher at the root and lower at the tip gives great performance. props i make are 54"dia root 23" and tip of 20" one thing i have noticed is that my prop pull air in from the tips and act like flat winglets.

Have you tested adding stators or flow straighteners behind the propeller? They are used in some hovercraft and airboat designs and claim increased thrust and efficiency. I could see how they could also help with paramotor frame rigidity. A con being increased weight but that may be offset with the gas savings.

Nice and informative as usual 👍👍

Excellent!!!!

The aerodynamicist Al Bowers said it can be applied to props.

Looking forward to the 140 vario coming to market

I tried to have more efficiency on small quadcopters, only fixed pitch props available. Given the same diameter and number of blades, the only night and day factors seem to be the weight and the rigidity of the props. The lighter and more rigid it is the better. But first of all, the props must provide proper amount of lift for the weight.

When is the Variomatic going to be for sale? Cheers

Look at p tips on Prince propellors.

Tried it all? But did you try the Prandtl washout twist? The claims are: less drag/torque, lower power consumption, and less noise. If you're still experimenting it would be interesting to see the results.

Have you thought about tubercles? I’ve seen some work with wind turbine blades replicating the tubercle structures on the forefins of a humpback whale…. Reduced noise and increased efficiency… I think it is something about reducing span wise flow and increasing vorticity to promote attachment. Could this be a number 11?

Forgive my noviceness in the ultra light aviation space, but has anyone tried designing a CRP(Contra Rotating Prop) for any of these motor variants?

Look at the the work of Al Bowers (ret. NASA Armstrong Chief Scientist) on Pradtl wing; instead of elliptical lift, look at the bell-shaped lift profile of the 1933 Prandtl wing. kzbin.info/www/bejne/mHTapZZ6g6dka6c The whole video is worthwhile, but this URL goes directly to his application of this work to propellers.

Excelent! I love to test one . Is the propeller in produccion?

Out of curiosity, in the classical props any reason why winglets design for propeller was not studied in your experiments? Technically there is a considerable noise and drag reduction. Checkout eVTOL propeller designs.

Ducted fan is only better for higher speeds

I fly an e-prop 3 blade 155 cm at 2000/2100 rpm, with an old hirth engine. many times quieter than the Polini with 150 prop and the Cosmos with 160 prop

What about "many blades" prop with tin blades. Like in some helicopter tail rotor.

What about some AI designed props like the innovations in the marine prop industry?

Didn’t the Wright brothers invent and use a very efficient propellor?

What about prop winglets?

14:03 how do you factor all the variables. Pressure, temperature, humidity, pilot input, etc.? Regardless, great video.

16:17 this is just killing me😂 of course the results don’t match. Too many uncontrolled variables.

What proportion of the annoying part of the noise is from the prop and how much from the engine?

So if I squeeze my gas in full throttle it gives me less power than when I'm in almost full throttle In my moster?

👍👍 Your prop engineers were wrong when they were optimistic about their design calculations, maybe they are wrong about prop tip winglets? Best wishes

Dusan and Milos must be getting worried: most of their theoretical predictions have basically failed... :)

14:29 bro there are so many uncontrolled variables in your experiment that it could be 20%+ better and your data might show a 20% decrease. I urge you to consider static testing, it’s at least a good starting point.

I think you are confusing a ducted fan with a shrouded prop!!!!!!!

non-planar blades...

This KZbinr has tested a large number of designs of boat propellers. Including a Prandtl design which performs very well: kzbin.info/www/bejne/oarNdKqvm9Oli5o

33% fuel efficiency bro. Shut up and take my money.

2 comments, thus-far: 1. WHEN switching from a 2-blade prop to a 3-blade design, THEN one should be reducing the chord significantly, to keep the wetted-area similar? Also, at higher-altitudes, more-blades is apparently better, resisting loss-of-thrust as the air-density drops ( I don't know if you'd find that at 8,000' altitude, which is the safety-ceiling for no-supplemental-oxygen, ttbomk ) 2. the Darth Wader should have altered only 1 thing: 7800rpm max-power operating duration. It *should* have extended that. Nothing else that I can think-of.. --- Back to watching the video.. ( : --- "seconds to climb 100m" depends entirely on air-density, air-temperature, AND humidity! --- I don't understand why you weren't using a genetic-algorithm in OpenFOAM? Let IT find the optimal thickness/chord/pitch/distribution-of-force ( which should be elliptical? ) --- Ah, you've got the "toroidal propeller".. Please go watch videos on the Sharrow propeller: *nearly all* the noise from the normal prop is from cavitation! The Sharrow isn't cavitating: it's silent.

Have you tried specifically a Prandtl foil? The Sikorsky looks by eye to be similar. But Prandtl propellers are known to be high efficient and low noise. kzbin.info/www/bejne/rV7HnGSEpbuBhKs

dumb idea that fan would need quite a few HP at 8,600 rpm . Make up a dummy hub / model aeroplane electric motor and you will see that the guy who recommended the extra cooling fan . obviously hasnt a clue .

What about prop tip fences?

Hmmm. Sounds like you did not take into account the bad laminar flow, a Paramotor Prop is facing. You may not optimize prop design by conventional means. Rather, build a prop more robust against vortices. But I am afraid, that was impossible. Anyhow. You did nop see big improbevements with any of your designs. What did you expect? Conventional props work quite well in measn of efficiency, so any improvement must stay in the few per cent range. And that's what you did measure.

Dear Miro. I love your approach. You have refused to copy all other messing manufacturers, which copy one anothers, all doing the same gross mistakes. One only note about this video. I have introduced on my belt reduced nanotrike engine a customized increased reduction ratio matched with higher pitch. And my prop is spinning at max 2500 revs Min. I have achieved a level flight at a consistent lower rpms. You have mentioned the same test with 3.45 reduction ratio, and you have had no significant improvements in noise or fuel consumption. But you didn't say anything about climb ratio. Why?? According to my experience, you should have improved it. Isn't it? Kindly.

have you considered a clutched (say) 2 meter diameter propeller along with a more regular size? The large propeller would be locked in the horizontal position during takeoff / landing, and the clutch would engage the larger prop at altitude.

toroidal props have been around for decades, nothing new, they are a gimmick. the "efficiency" gains are not what people claim. people take the data from the paper out of context and make claims the paper does not support.