Toroidal Propeller Testing on my Electric Surfboard
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- Опубліковано 8 лют 2025
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I have a weird propeller idea, it probably wouldn't be efficient but I've never seen it tried anywhere (probably for good reason) but I'd love to share it with you for the competition knowing I absolutely won't win......but maybe it can go in your weird idea pile, anyway I follow you on insta and am excited. I made it in onshape but I'm also terrible at that!
uuuugh, vaping! Why. This used to be a channel I'd recommend to my kids. Nope, not with this. Sorry. I've watched you since the start. Really crappy to see this.
Its more of an anti-vape than anything really...@@blaircox1589
One thing you never mention is the rpm. AFAIK toroidal props are only more efficient at specific rpm. I think it was 4500rpm in air. Sadly I don't remember the peak efficiency rpm for water.
@@rctestflightisn't it nicotineless
You should definitely use that V8 for another project soon. Nobody ever goes beyond just starting them up on their desk and letting them run. It was soooo cool to actually see it being used to power something.
Yea I totally agree! It would be awesome if he could make a hybrid system with it
naw EV is superior
@@throwawaypt2throwawaypt2-xp8nx Ain't nobody ask your opinion
@@URsooomad8613 facts don't care ab ur feelings ඞ
@@throwawaypt2throwawaypt2-xp8nx Not a fact, they're even more harmful to the environment. Try again.
Sharrow props probably dont have a negative angle of attack, the examples you're looking at probably rotate the opposite way you're considering. It's common on multi-outboard boats to have counter rotating lower units on the engine to correct for prop walk and other torques on the hull.
Also the blades themselves are different. His are all in line where as the Sharrow ones are offset from front of the blade to the back. I'm not sure how to explain that as i'm not sure what that part is officially called.
@@TheRogueBro Which part do you mean? I am not sure there is an official name for a specific part of a prop blade, even if its part of a larger "system" that reconnects to the hub, if thats what you meant.
The front and rear of each fin, on his they're parallel while on sharrows they bend away from each
Looks from here like the sharrows have more like a C-shaped fin, while the fins of the 3d-printed ones are more like a U-shape.
If that makes sense to anyone...
He keeps showing pictures of Sharrows and then making things that look nothing like them.
It's pretty annoying TBH.
I enjoy your RC related content, but I wanted to comment about the sponsor Fum. Fum and other similar products use essential oils for the "flavourings" and currently the long-term effects of inhaling them in this manner is not well understood with limited data. Fum's own "Science and safety" section contains two reports, both of which were commissioned by them and neither of which were peer-reviewed or published in any journals. As for whether they may be harmful with long term use is not for me to say, but I would encourage people to be sceptical of numerous claims made by them and companies selling similar products.
The whole commercial stuff in this vid, but also many other vids, looks ridiculous.
I'd hazard a guess that inhaling oil flavoured air, especially since it is not actively vaporized, is less bad than inhaling gasses released from burning stuff
You'd probably be wrong. Heavily processed oils versus some burnt plants.@@tktspeed1433
so what?
@@skipper1966why?
The search for greater propeller efficiency is admirable. Have you looked into the Hobie Mirage Drive systems based on fish/seal fins? I'd like to see you bring your rigorous testing to that type of propulsion some day.
These aren't necessarily designed for the highest continuous efficiency, but instead to make use of the most efficient muscles in the body, and in a way such that if you choose not to use it they are the least additional drag (as even a locked propeller is bad for efficiency, and a free-spinning one is worse). I wouldn't expect outstanding results that'll handily beat propellers due to this.
That said, I also agree it'd be interesting to see the result - efficiency tradeoffs can be worth it, and it would be good to know exactly what the tradeoff actually is.
Hi, i was considering the hobie system when I was looking into human-powered boat design. My conclusion was that the system is designed for mechanical simplicity, rather than pure efficiency, although the two often go hand in hand I don’t think that is true in this case. Basically the hobie system has a pair of fins (analogous to prop blades) that each oscillate back and forth along an arc. So functionally it’s a propeller that does a third of a revolution, reverses the pitch of the blades, and sweeps back the other way. There’s basically no way to make that as efficient as a propeller because you end up with a dead zone at each end of the stroke that gives you zero power. This is fine for human power as your legs have a dead zone with no power when you reach the bottom of the pedal stroke. But when you’re using a motor with (near-enough) constant power then that becomes a waste.
@@bit1564 In the comparisons I've seen, the Hobie system is far more efficient than a propeller. Basically you have two guys in kayaks doing a tug-of-war - one with the Mirage drive and one with a prop. Plenty of videos on YT about it. Also, the hobie drive is actually quite conplex compared to the well-trodden path of prop and shaft
@@iskierka8399 In the comparisons I've seen, the Hobie system is far more efficient than a propeller. Basically you have two guys in kayaks doing a tug-of-war - one with the Mirage drive and one with a prop. Plenty of videos on YT about it
He could also look into increasing hull efficiency. Maybe a bubbler like the earliest hovercraft designs could help reduce surface drag?
For your longer distance runs,You might want to try a rimdrive thruster. A rimdrive is basically its own motor with no shaft, the propeller is inverted without a center core (think of a donut with pointy teeth) in use they are practically weedless. I have seen video of commercial versions spiting out pieces of net that would disable a conventional prop. Weeds have to be the main concern on long distance autonomous missions, especially durring mid summer.
How would @rctestflight 3d print it though? I think he is pushing what can be made at home as well.
Two thoughts that occured to me were what effect would adding weight at the blade tips to create a larger inertia have?
The other is if he had considdered home chrome plating to increase the smoothness and add a minor level of impact protection?
@@RowanHawkins There was a company 3d printing them 5 years ago for small ROVs, I don't remember the company name
I have been proposing this too. Hubless rimdrives are so cool!
@@RowanHawkins Why couldnt he print them with his resin printer?
I would imagine the efficiency gain from toroidal props comes into play when you are at the limits of tip speed and the normal prop starts cavitating, so you gain a little bit of speed from a smaller prop. You usually want a prop that the engine is capable to rev up to max rpm (set by the manufacturer at which it usually starts cavitating and where the power peak is) for maximum power and so the engine has enough power to get it planing if its a smaller engine, this is not a problem with electric motors because you get instant torque
I love this design contest. Can't wait to see more videos of the deathmatch of props
I went to school at University of Washington and watching your videos makes me remember everything great about the Pacific Northwest. I love seeing you take in all the great sights at Lake Union, Greenlake, or wherever you happen to find yourself. Great video, and I look forward to seeing more!
Which lake was in this video?
@@PimpinNProgress Looks like Lake Union
Have you considered measuring output shaft torque and RPM in order to determine prop efficiency? In other words, remove the motor efficiency from the picture. This would make the comparison of the different propeller designs more general across applications.
sadly torque measuring sensors are quite expensive, in the order of 500USD or so
It's impressive that you can figure all this stuff out! You are so smart! I can't wait to see what you come up with next!
Old guy superfan here! After years of life experience, I assure you, you always get better results using a positive angle with the tip.
your no-fat style of video editing is the best 👌👌👌
I just love your Boating and Propeller testing Videos. Thank you!
Love the scientific approach and that you're willing to dive into topics which are often the point of the entire career of a dedicated specialist. You don't have to be as knowledgeable as a specialist to get a lot out of the experiments, and you could still trip over something nobody knows yet.
Broski, your engineering skills are ace, but your shilling skills are scary good. Your ads are the best.
I love the underwater slo motion shots of the propeller and thank you so much to making the propeller competition!
Oh boy, some competition to the fan showdown! Just in a very different environment.
Daniel, I enjoyed this video on propeller testing. Years ago, I was involved in designing a solar/electric boat for a collegiate competition called Solar Splash. The propeller design was critical, and we came to learn about the Wageningen Institute in the Netherlands. They were the leaders back then in propeller analysis. But in addition to pitch and diameter, there were other important parameters such as EAR (expanded area ratio), the airfoil shape, and more. I'm sure these also factor into the toroidal design. The best way to measure the efficiency would be to get a true measurement of the torque the motor is providing, which is not an easy thing to measure although you could build a cradle dynamometer if you really want to get serious. But if you can measure, torque, RPM, voltage and current, you could probably come to some meaningful conclusions. Keep up all the great videos.
Oscar is a ledge, I learned so much when I was working with
an ODrive!
I do think your results are still valid, but I noticed that the propeller boss is a different shape for the toroidal. Ideally, it would be best to control for that variable as well.
that is a great video of scientific thought process,
definitely better then anything I had during grammar school or university
looking forward to your next video 🤩
nice iteration of the fan showdown. this will be sick
10:44 @MajorHardware 's "Fan Showdown" series version 2.0 and I'm absolutely stoked for it and the ensuing collab video.
With your toroidal design the fins are behind each other, while in the pictures of Sharrow they don't seem to overlap like that. Maybe that improves efficiency
I might of missed this tidbit, but what about measuring speed through water rather than over land? Current and tides variable can be eliminated. and you only have the wind variable to contend with.
His plot of (land?)) speed vs. efficiency is very well behaved. This suggests to me that the differences between land, air and water speeds for this particular experiment have negligible effects.
And while I agree with you in theory, there’s a long list of unknowns in this experiment that he could have eliminated if he had the time, money and computing power to measure. Good engineering is the art of making the most out of your limited resources.
@@owengrossman1414 At the midpoint of the craft, a flow meter, similar to what sailboats use to determine speed through water could be used. This would be a very simple approach. Sailing is a hobby of mine and the through of using movement through water seems a more plausible way to measure. I love this videos and this one I feel is quite provocative in this nature. Thanks for your responses. I feel these comments on this type of video can help us learn a lot more about this subject.
I am a retired drag boat racer and have fooled around with some off the wall designs with the help of a pretty popular prop builder (Kindsvater).. Our props are nothing like what you are doing but this level of geeky? should have at least 1M subscribers.. Have no idea why but I like watching your videos....
Bro never gives up in a good way
I could watch a montage of the props spinning underwater in slo-mo all day. Its soothing watching the cavitation etc.
cant wait to see the next installment of these experiments, really like this prop design mini-series
Your dedication is stellar.
Babe wake up new rctestflight toroidal propeller video just dropped
Love it! I keep smiling every time he starts because it sounds JUST like the Jetsons car XD
First there Major Hardware's Fan Showdown! Cant wait dor RC Testflights Prop Showdown!
I literally have the exact same setup for charging bigger batteries, even with the y splitter as adapter between the power monitor and the battery. Glad to see that my jank is also his jank :D
wooh its the fan showdown but propellers, i dig it!
It would be cool if you did something like the fan showdown but for props, you would need some sort of indoor testing area with a way to measure thrust and power draw
You should look at making a 3 blade prop but with cupped tips on the blades. Stops/slows down water spilling off the blades for more thrust. Also the there is a prop type know as the" chopper" where the top inch to 1 1 1/2 of the blade is cut off square.
I think it would be better to have a constant speed of the boat, then measure the power used over a set distance of travel. I think this would be the easiest and most accurate comparison because you eliminate the variable of drag from the boat moving at a different speed which can have a SIGNIFICANT impact on efficiency of the hull itself, making it difficult to know what contribution the prop really has.
I commend you for these prop experiments. I have a boat and it is over propped on purpose. It is cost prohibitive to increase power and torque to match it, and it is cost prohibitive to buy props to try to tune it. These props are Bronze, but if I could use lost wax and per blade resin printing to cast a replacement in aluminium alloy I could test without huge cost. Just substantial effort. One option might be to make the boat hybrid and couple a pair of Nissan leaf motors to the shaft directly after the transmission. Then we could get the RPM up in bursts assisted by those. Or putter around on only those silently. Or long distance with only diesel.
Yep, smaller boat engines (e.g manoeuvring motors in sailing yachts under 30ft) tend to only have 2 blade props because the single or dual cylinder diesel engines of up to 10hp do not have the torque to drive 3 blades without unnecessary engine wear. You are on the learning curve and on the right track, excellent video!
You sure thats the reason why? Seems like blade diameter has a much larger influence on torque than blade count. Thanks!
Its not actually about the torque at all, at least only indirectly. Its about other factors such as rpm. If you wrote "power" instead of torque if would be more correct. Lower number of blades are more efficient generally, but you need enough area to transfer the force effectively. Its kind of how a low power car only needs skinny tires, while a powerful one needs wide ones to not spin. When not transferring much force, the skinnier tires have less friction = more efficient. It has nothing to do with engine wear either.
@@rctestflight No he is not sure. Or he may be, but he has the wrong info. My other post here contains the correct reasons why that is.
But since you are very familiar with flying contraptions that use props, its just the same as with a drone or RC helicopter or plane: Lower number of blades and lower blade area that can still transfer the power effectively = better efficiency.
I’ve had a couple of 2 bladed long length (diameter) but narrow props. I can’t remember precise specs- your competition idea for a fixed wattage is great.
@@GoldenCroc Yeah, I've talked about how fewer bladed props are more efficient. But he's talking about torque, not efficiency
I'm hooked on all your boat related content, this is good stuff. Especially since it throws in my other favorite subject of 3d printing.
Another really cool idea you could investigate (though I think it would be considerable more difficult) is wave-devouring propulsion. It would be sick to see that pulled off with your little Boston Whaler
could you create a water 'wind' tunnel that is a big racetrack of water and then measure flow from each prop? Would perhaps allow for far faster testing of a larger sample of submissions.
Gotta love the Jetsons sound it makes!
when looking at the toroidal props straight on, the silver ones have front and back fins on an angle, so 3 pairs shows all six sides. Your printed ones have the front and bottom fins directly on top of each other, so they only show 3 fins from the front straight on.
Doing a fan.. I mean propeller show-down? Neat!
YES! LOVE that we're going to get a "Fan Showdown" for props! shoutout @MajorHardware!
Love your scientific research videos like the data breakdown is my favorite 😂
Hey, notice the huge air trail from your toroidal propeller downstream of the bulbous center? And how it’s so much larger than the ones from the traditional propellers? That’s drag. And the shape has everything to do with it. Give it the same cone shape as the traditional propellers and you’ll see a fairly big change in efficiency.
Phase current is a proxy for torque.
It was still a valid test for efficiency of torque to speed
On bigger ships they use Azipods and those are always mounted the otherway around then the way you mount the propeller. Just an observation.
@rctestflight testing community propellers sounds like awesome idea. I'd like to see some 'bionic propellers' thrown in the mix.
Nice video, glad you've revisited the torroid
You are doing the science the rest of us wish we had time to do!
There was a study recently that explored a more jagged design of props, mimicking whale fins with barnacles. I’d be interested to see how those performed as they’re supposed to cut down on underwater noise.
the evaluation on this video is so in-depth
I feel like the unmanned board could be useful as an emergency lifeguard, since it can tread water much faster than a person could.
Also, I think you need some new Teva's. They're lookin pretty bare.
People at the marina wondering what’s happening. “Ohhhh, that’s just Daniel. No worries!!” 😂🤣👍🏼
One big difference I see between the "MIT" props and the Sharrow is that the Sharrow is raked significantly aft so that the effective diameter at the leading edge is quite small, achieving maximum diameter near the trailing edge. I wonder if this may have something to do with the efficiency?
Looking forward to the prop competition episode.
Propeller Showdown Season 1. Lets go!
Lol the sup when it wheelied. Classic rctestflight
The negative tip bit was great.
cute nail polish @11:31
A word of caution. Although paddle boards generally do not, all mechanically propelled vessels do require registration. Along with requiring a registration, comes the need for code compliand lighting, and mandatory lifejackets.
You will probably not have any trouble, but you could get ticketed if spotted on public waterways.
I still believe that the biggest selling point of toroidal propellers is still the lower noise level in drones, and they would not be as efficient as conventional ones.
Could you take a look at tubercle propellers? There's a guy on here called Robert Murray-Smith who's making tubercle fans and turbines, which is interesting. They take inspiration from the lumps on whale fins.
If you do another RC boat waypoint journey, then could you do a demonstration of how bulbous bows improve efficiency? I've always found it unintuitive that adding one massive lump to the front of a boat improves efficiency so much compared to a knife-edge.
This might support what you say at the end "which is more efficient in general?" I think the point of the Tordial is it's not most efficient at peak, it's efficient across the range.
Correct they are only efficient at a small specific speed range so he has to design the prop to operate at a certain Rpm to achieve a higher efficiency.
I love the idea of a prop design competition. Major Hardware did a similar competition with PC fans. Might want to check it out. He had some very wierd submissions.
There 'was' a firm called 'Innerspace' that did ROV props, among other things. The guy that ran it was instrumental for reducing noise on subs. The props were a side gig done in a corner of his shop. - old family anecdote.
Interesting video and cool builds!
If they dont operate on same rpm, motor efficiency will vary, maybe significantly. Must measure torque multiplied by rpm for power output. In other words, different propellers put different loads on the motor, resulting in different operating conditions for different results. Maybe propellers are good, just need different gearing or a different motor.
its always a great day with @rctestflight!
Researching sharrow's propeller, it claims to be more efficient at the RPM that boats run at 80% of the time (3000 engine RPM), both lower and higher rpm was less efficient in third party tests. So maybe a RPM test to see if their is any differences in performance? Love your videos!
Your three-bladed toroidal propeller doesn't look like the one in the pictures that you shown. They look like they would have been a 6 blade propeller with the end tips connected. So if you move the bottom three blades to the center gap of the top blades it might be better and more efficient.
to compare fairly you must print several diameter of each design and run the test with constant battery power
You need a test cell! If you keep going down this rabbit hole into propellars, which is totally cool, you need better testing and data collection for how many props you are making.
I have a few suggestions. I might suggest getting one of those large metal pig troughs at your local farmgoods store to put in the backyard or garage for testing propellars. I might mount a motor/prop assembly at the bottom of a swing arm mounted to the top of the water trough, so that the arm hangs down into the water. You would then run the motor/prop in the water and have the arm pull on a force sensor, then convert that force to find the force exerted by the prop at the end of the arm. You should then divide that force by the power you are drawing to get a specific unit, like newton/watt, that you can use to compare everything, like even high speed and low speed efficiency for different sized props at different speeds. I can't think of a way to convert that to water speed somehow, but I would be very interested to see comparisons between low speed and high speed efficiencies, since I vaguely remember that ship's fuel consumption increased ^3 with speed. Was that equation only for vessels moving through the water, or does that cubic fuel efficiency equation count for propellars too?
On the test cell arm, you should pick a motor assembly you like very much that is well made and replacable, then don't change it, for repeatability. I wonder if you could couple the test motor to an identical motor and read the power produced on the other side, like a dynamometer, to measure losses in your motor to compare different speeds or different motors. You could also use the test cell to measure parasitic losses from linkages between motors and props. With a test cell, you could use a bench-mounted power supply for your test motor, like they have in school, for better consistency and to be easier for data collection on power draw.
I think it is time for a good test cell, maybe even one that could double as a hot tub - that reminds me, use the same water temp between tests, for conistency with viscosity. A good test setup will make it easier and faster to compare prop designs and dig deeper into the subject with better results. It would be a good for a cheap winter time project too. Then, I'd love follow-up videos to get comparisons between force per watt versus distance traveled out on the open water. This method would also make it easier to compare drag created by different boat hulls.
I love your show, man. I watch every episode when I see them. Your cadence, filming, and editting are on point, don't change anything like that. Just keep doing neat shit like you always do, and you're gonna be great.
the propellor tip on the toroidal was huge compared to the standard props, maybe that is why the efficiency was worse? You could see a much larger cone of turbulence with the toroidal than the standard props
Your videos just get better and better! Love to see your projects and it's fun to see where you test stuff since I live near Seattle.
information 1:28 in this configuration, the motor does not have Mechanical Advantage over a large part of the load that it experience; that being, the part of the load that occurs at a Radius that is greater than the radius at which force is produced inside the motor. eg., the radius at which magnets move past coils. consequently, you should consider using an inrunner motor (with cooling) and reduction gearing in the differential.
Instead of the fan showdown, it's gonna be the Prop Showdown!
Another option for testing would be to fix the speed and measure/log the current draw.
It might be interesting to do this at a few different velocities to see if the data is linear and if not, perhaps curves will intersect?
Props.. this is a very informative an interesting video! Respect for your effort!
The v8 was definitly running with a less than ideal fuel mix, theres probably a good bit more power in that engine than you experienced before. But as always, electric does make for a simpler setup.
If you expect to go through with the propeller contest, a bit more rules would be required. Something like @MajorHardware did with his fan showdown.
On a different note, would it be more fair to have a different gear ration for larger props, so they get more torque, but less RPM, while getting the same amount of power?
Maybe you should add a gear reduction to drive a big propeller. Turning it slower would result in less drag and also less thrust but I suspect the drag will decrease more like the square of RPM while thrust will be closer to linear.
*Summary*
- 0:00 Sponsored video about propeller efficiency testing on an electric boat
- 0:06 Previous toroidal propeller designs were inefficient compared to traditional propellers
- 0:31 A third toroidal propeller design tested on a V8 paddle board showed superior performance
- 0:45 Converted the V8 paddle board to electric to collect precise data for scientific comparison
- 1:02 Designed and attached an electric skateboard motor to the paddle board
- 1:43 Tested various propellers, including a large B series and toroidal propellers
- 2:01 Found the toroidal propeller was efficient with electric setup, unlike earlier tests
- 4:18 Conducted proper propeller efficiency tests by controlling for power (set to 200 watts)
- 7:34 Used software to ensure the motor did not exceed 200 watts regardless of the propeller
- 8:15 Discovered that a 6-inch high pitch B series propeller was the most efficient for the test setup
- 9:34 Conducted an endurance test and calculated efficiency in Wh/km
- 11:34 Found out the paddle board could travel significantly far on a full battery
- 13:04 Performed Full Throttle testing, achieving higher speeds without a rider
- 14:18 Explained that a bigger propeller was too big for the specific motor used for testing
- 15:10 Clarified why the ESC setup affected initial propeller efficiency tests
- 15:57 Concluded that controlling for battery wattage provided more useful efficiency results
- 16:40 Acknowledged assistance from Oscar of ODrive for technical motor insights
Get the prop as close as you can to the surface. Less drag. You could even look into surface prop desin where one blade is always above the surface.
Not possible with this kind of 3d printed plastic prop I should think. Neither close surface running and absolutely not surfacing.
I'm sure one can design a toroidal prop that is more efficient at a given speed, but there's clearly alot to making that work. No doubt recovering tip losses is a worthwhile goal.
I do wonder how efficient a sub screw is, you know, the ones designed to not cavitate. There are pictures of quasi modern ones online if you dig for them, might be something interesting to take a crack at.
Got a deign idea for ya! Put extended points on the leading edge of the prop blades like a humpback wale fin. Good luck!
Seems ideas get around v=WezeLNC32sA&t=2s
What a great way to wake up new rc test flight
Was noticing some ventilation happening around the 15 minute mark, you may want to think about adding a cavitation plate (horribly named but that's what they are called) to increase efficiency and the life of your propellers.
For liquid applications you need a really LOOOONG front plane before sharply coming back to complete the toroid.
Looking forward to the "fan showdown of propellers" 😂
All credit to you and your efforts rc ! Keep it up and really like the freshness and immediacy of your approach. Given the potential of your influence, and for the sake of your safety in case you get tossed, would really like to see you wearing an LJ and set a really good example!!!!
Hey Daniel, there is a very obvious difference between your toroidal prop and the other ones you showed. Yours, when you look from above it looks like a nominal propeller, but theirs you can see the loops from above. which I think would make it behave very differently, then having them directly one above another. Just a very obvious difference I thought I'd point out.
Thanks.
There's a PC channel that runs a fan showdown where he tests user submissions for several statistics, might be an interesting format to try out for this too.
The prop competition is just like Major Hardware's fan showdown
I'm liking the rctestprop series.