Superior Ionic Plasma Thruster Inspired By Nature (BTC Mark 3)

I've mentioned this before, but you need exponential spacing. You are trying to accelerate a 2.8 column of air with another 2.8 stream input. Because you want external entrainment, you might consider an exponential horn housing. Each 2.8 input would force more air into a smaller space, increasing the speed.
Alternatively, each thruster could be exponentially increased in power, to use the same level of input more efficiently. So like cut the first one in half, raise the last one by double. Without external entrainment, you could change the distance between anode and cathode to accelerate the same stream successively but with increased speed each time. The first one would be closest, and the second one twice as separated, but since the air is already moving, the ions would travel much faster covering the doubled distance in the same time.

Man seeing an american engineering channel use the metric system is a breath of fresh air. Awesome project man, this has huge potential

Okay hear me out. If you're not going to do it, I might.
Consider the following:
- A wing profile is revolved radially, such that you end up with a wing profile that's disk shaped.
- The disk is initially stationary with air surrounding the disk.
- Underneath the disk wing, there's 'zero' radial velocity, indicating high pressure.
- Above the wing, there's non-zero radial velocity of air, indicating low pressure.
- The radial velocity of air above the wing is induced by plasma.
- The electrodes are circular rings placed on top of the disk, where the inner ring has a smaller diameter than the outer ring, such that air flow radially from in to out.
- The disk is made using CNC and is supposed to be extremely lightweight, i.e. EPS foam (non-flammable) density of about 30 kg/m3. Preferable thin-walled, perhaps with ribs if there's low stiffness.
- Downward 'Wingtips' around the disk's edge could be used to properly separate the high and low pressures.
- You could use a wing profile that has a very high Cl, i.e. high lift at low speed, since Cl does not rely on airspeed.
- You could subdivide the disk into 4 parts, where each quarter's potential difference can be manipulated, which could help in allowing you to steer.
The idea is to create a solid velocity difference between top and bottom surfaces, to create a strong lift force, where the bottom velocity is essentially zero (stand still). Relying on Bernoulli's principle we can determine the lift force. For a simple rectangular plate with area 'A' being in air with density rho, the lift force Fl = 1/2 * rho * A * (Vtop^2 - Vbot^2).
I've done quick calculations. Considering your and others previous work, I think it's viable starting at ~45 kV. if we can achieve similar airflow speeds, I think we could create the first actual hovering UFO drone that doesn't rely on moving parts.
Some other notes:
- There should be sufficient airflow, such that a 'boundary' layer is formed between the high and low pressure zones. Such that air doesn't leak towards the low pressure zone
- Use foam that is preferably fire-retardant, since the plasma may ignite the foam. EPS should be suitable, XPS possibly not.
- Preferably use foam or another lightweight material for the electrodes. Paint it with graphite spray and use electroplating to make some seriously lightweight electrodes.
- One conclusion I had from watching your videos, is that the air speed doesn't necessarily increase with multiple stages. But it does help in creating a more uniform flow over a larger volume or area. Using multiple electrode rings may create a very uniform flow field above the disk.
Been thinking about this for quite some time, and I am thinking about doing it as a hobby project, but I think this would fit your Channel a lot better and if it works out, it's a world's first! (not considering Aliens did it before we did, lol.)

"my work has paralleled MIT's attempt" is not something many people can say. Congratulations man, good work!

I really think you need to switch to static thrust measurement as a method of comparing efficiency rather than output velocity alone. For example, you might be seeing the same 2.8 meters per second output on two designs with the same power but one could have way more thrust than the other due to the surface area of the output. You might also have a design with lower velocity that is far more efficient than one with higher. You kinda touched on this with liters of flow but a thrust stand will provide more accurate information.
Grams of static thrust per watt is the gold standard of measured efficiency. You should be making more than 1 gram per watt from what I know about ionic thrusters. 4 grams per watt is the highest I’ve ever heard of from research papers.

I love that part of the design change is you've moved from 'how fast can we push air' to the more important question 'how much air can we push'.

This series is my medication. Love it. Thanks for showing us this progress!

Dude, a second Channel of just you recording the process of you designing and building the prototypes in long form, like an hour or even longer, would be mad and you’d be able to get a video out sooner, less editing needed because it’s a second channel video, no music is really needed, just pure analysis and prototyping. I’d love to see how you do your process and how your brain works.
I often say you can see Adam savages brain work on the outside as he builds things. And I love the rawness of the content.

I think you should run a design competition and have viewers submit thruster designs and you build and test them.

May you thrust yourself further into excellence. Well done sir, loving your content and brain

your work and rapid-prototyping inspires me so much

Awesome work!
Here are some improvements i suggest:
- measure grams of thrust per watt instead of airspeed
- focus mainly on achieving max thrust at a certain size
- use a single tube design with no holes in the sides of the design to simplify aerodynamics and testing
Robust design like you did was really smart, hope you continue with the ionic thurster. Would love to see this on rc planes or even table fans in the future

Just a reality check: at 4m/s and a cross-sectional area of about 100cm2 you're putting about 0.3W of power into the air; for a 70W input. Because energy rises as velocity squared the second stage of your first prototype is actually _more_ efficient than the first. To maximize thrust efficiency you actually want to move a large volume of air slowly rather than a small volume fast, something ionic thrusters might be suited to. However, due to the nature of ionic acceleration much of the energy input is going into rotational/vibrational states of the molecules rather than velocity, so it's unlikely ionic thrusters will ever be efficient enough to compete with, say, a propeller. But still fun stuff, thanks for posting.

your insights into this topic have been invaluable, thanks!

Super impressive!😊 Awesome work! 👌
I have been following your progress and you have come a pretty long way towards something that might end up being used in a real life application and surpass the model stage. I think you are on the right track. Can't wait to see your next video.

Friends don't let friends get sponsored by Betterhelp

Please drop Better Help as a sponsor man, they sell people's medical info to advertisers :(

thanks for always being so informative and thorough!

1) They need to still be circular. They can be segmented...1/3 or 1/4 circle for each thruster, but a round interior will create smoother airflow and offer larger internal area for objects to fit through without compromising volume.
2) You'll need to find a way to more smoothly merge the flows so that they compound one another. As it is, currently, they're slamming into each other and losing energy. They're not blending together to improve flow, and they're losing velocity in the process. My recommendation would be to find a way to offset the thrusters at an angle, laterally. Instead of merely tilting them so their exhaust is pointed inward, also tilt them so that flow is off-centered, to create a vortex. Then they shouldn't be slamming into one another, but more like merging on a highway.

I have been designing air ducts recently, and one of the very important things is to not restrict the air flow rapidly. For the best results it's best to stay under 10 degrees of restriction. Keep up the good work!

Yeah! Can't wait for OpenSauce! See you there!

Love your improvements

Truly becoming closer to real life Halo every day

Maybe you could try a circular design instead of a triangular design. I feel like it might focus the air a little better.

Super cool! Can't wait to see and talk at open sauce! I need to finish my videos about my projects. I also can't believe it's been a full year since your last version of the engine. Super super cool technology and I love the progress

You are definitely onto something. Dont give up.

Can’t wait to see you at Open Sauce again this year! Had a great time chatting with you at the last one.

Your explanations and commentary are excellent. Awesome video and project.
Edit: I do agree with some of the other commentators that some of the revelations about BetterHelp's data policies deserve scrutiny and push back. Hopefully you can find more responsible sponsorship partners moving forward.

your approach to this subject was so innovative!

This is an awesome project. It would be cool to see a circular (ring-shaped) wing thruster. You'd get the same hollow center you're looking for while also using the support structure to provide lift

There's really no channel I consistently follow every single video EXCEPT for this channel. I love this project and I'm here for this the whole thing. Can't wait for the next update

Better Help? Really?

Amazing! You're part way to a turbine engine with no moving parts. It's possible there is turbulence happening between each stage as you're compressing air and then running the next stage at the same size. It might make sense to reduce and move the 2nd stage to the size of the covergance point of the first stage. Not sure of the 3 stage, maybe the same or go larger than the first stage, like and afterburner, with a case the diameter of the largest stage, assuming it ultimately needs to be fit as such in a plane.
Also, redesigning it circular as opposed to triangular will reduce internal turbulance, adding a slight twist to the blades to create a vortex should also stabilize airflow.
Just spit balling, you're doing great stuff.❤

I haven't been here for a while and you really came far!

Been with the channel since 800 subscribers and man how it has become better and better :)

Cool video. Shitty sponsor

As someone in psych, you really gotta dump BetterHelp as a sponsor.
For everyone else on PC, don't forget about sponsorblock.

As a product designer, my advice is to research what was already done in the "moving air business". Aka fans, vacuum cleaners, blowers, coolers... There are a vast amount of research in aerodynamics applied to those products. Just look what Dyson does by shaping the air flow and utilizing centrifugal forces. They are great source of information.
It's great to see your improvement!
Congratulations!

this design is also very good for stacking it ! or making a wide straight surface.. looks awesome!!

It's always a good day when this guy uploads something. Thanks for the knowledge dump, love your pursuit with this project.

Drop the betterhelp.

This guy is good at what he does.. I just hope his Mr Wonderful character wont ruin it.

i have been fascinated by this project. keep nerding ;)

So in all honesty if you have a taper after all stages are done with a reduction of 15-30% and some splines/fins to reduce turbulence towards the exit and get some better linear flow you can get a massive boost to your velocity.
Love the videos best of luck.

Sorry but dropping my sub until better help is no longer a sponsor. Not a nice comapny that predates on peoples mental health to sell their data to third parties.

Been waiting. Nicely delievered.

It looks futuristic! :)

You could take inspiration from axial compressors, and have your cross-section slowly reduce for each stage to improve and achieve a set pressure ratio by the end. One reason why in your case more stages doesn't seem to help is that all stages are identical. However, downflow stages will need more power and a different geometry since they are fighting a higher pressure. Then, your high pressure flow could go through a converging nozzle to accelerate even further (or just add more and more smaller ionic stages along the way, it might work as well).

Hi Jay. Did you measure the thrust force in newtons or grams. To check the thrust to weight ratio?

I love seeing Excelon products in your videos. 🥰

if you think about it, having a hollow center has the additional advantage of using bernoulli's principle. Since there's moving air at the tail end of the thruster, surely there's a low pressure cavity in the center front section which is also contributing. Though I would think the individual thruster unit (one side of one triangle) should be a little shorter to maximize that effect.

you should angle each of the 3 segments in each phase to form a vortex in the middle

I share my knowledge: NIM engine. (Negative-Impulsive-Magnetic) Engine. (Because you build things, so why not help a bit)
Nice idea with the waves but you didnt use it yet in your thruster. You recognized some air is sucked into the thruster, although it thrust air out?
What is missing is the consideration of how the air consist and what actually move the air... electrons. Electron speed is determined by the voltage.
If multiple thrusters are in row, it accelerats the air with the voltage-plasma but not beyond the voltage.
Also the distance of the accelerating parts could be 1 factor at your build, also try to get lower ampere with same thrust results.
In SHORT: Air volume calculation, air consistance calculation, thrust calculation with air, thrust efficiency by testing the best volt to ampere ratio, Thrust Frequency.
Air(A): volume x consistance, Thrustfactor(Tf): volt x ampere, ThrustOutput(TO): Tf x A x TF (Thrust-Frequency)
Think of the electrons AS if its waterdrops. Always make the plasma visible once to see where its flowing (helps alot).
Also a magnetic field guides the electrons, because these are negative charged.

I think you need different voltages in every thruster in increasing order It helps to thrust lower energy to higher energy i just don't know if it can work or not but i hope you can try its thrust will increase

Man - the fact that you are putting all of this R&D out there before ever getting a single patent in hand, you sir are a gentleman - or just extremely brave. Amazing work!

Yay more ionic thrusters!

Lot's of cool comments and ideas here. I don't have access to equipment currently, but for someone who does, here's what I'm picturing and can't get out of my head: Take the current turbine design, hanging under the wing, and gut it. With the shell, the housing we have left, a cup that compresses as its moves forward, and now all along the inside of the cup, scoops, spiraling towards the back, each with an internal thruster plane to pull air through it's channel, which exits a smaller outlet than the scoop, outside the housing. Lot's of thrusters, pulling air into scoops then through channels from inside to outside, all inside a giant compressor scoop. Any thoughts??

"Science is not a perfect science" -Jay Bowles
Seriously enjoy watching the evolution of the BSI and I very much appreciate you sharing the entirety of your iterative process including the setbacks. Things don't always go the way we hope but thats what drives us to find new solutions and get to better outcomes. Keep up the great work!

BetterHelp sells medical data to advertisers. Do you want to be a part of that?

I have an idea !!! Why don’t you make a hybrid ionic thruster ! One with metallic rotating blades and the blades are positively charged and also being driven by a motor and there are bunch of grounded wires at the end
Airflow would be fan+ ionic thruster

I just have to say I have been a Bill Oddman fan for years now and the fact that the chaotic menace that he is has brought people together for OS is kinda amazing. He’s like the general no one can predict.

Idea: what if each stage of thruster was closer to the central stream? The pass-through benefit would be sacrificed somewhat, but it may provide significant improvements. And what if each stage had a different angular placement relative to the thruster's longitudinal axis? So the airflow would get deflected at almost 45 degrees at the first stage, narrowing down to 10 or 12 degrees at the end? Or maybe in reverse? And what if the angle and spacing was variable while in operation? You could find the most optimal placement and angle at every airspeed and automate them somehow so the thruster automatically scales thrust with speed?
Like others have said, I think this design would also greatly benefit from exponential spacing.

the problem with Ionic thrusters is that the situations where they are better than a simple propeller are very rare.
I would also love to see a thrust per watt stat.

My “physics nerd common sense” is telling me that a circular shape might help with a more uniform flow, as the three streams coming from the triangles are probably converging in a pretty awkward way. Also some way of directing airflow from each peripheral thruster(like a duct or something) into a smaller output area in the center would likely help reduce turbulence and increase the velocity of the airflow (assuming you are building this for velocity and not displacement ). I am a high school senior so take this with a grain of salt lmao

You could change to a design similar to a Dyson Fan, with a small inlet at the front surface. Curved surface and using an aerofoil design to reduce pressure further back in the ring design would create a venturi effect allowing the air to move faster, you can then recombine the two streams of air both now traveling faster together, increasing the pressure again, as they combine with the outside air you should gain a larger net air throughput. Ensuring the outer and inner surfaces are smooth and dont cause too much air turbulance.
You could also create multiple voltage points.
Entrance 2xV, V, GND
Any air that entered without being energised can then be energised at intermediary steps. This would keep the voltage differentail in one direction, otherwise you could end up with a second stage causing a counter effect.

Few design changes I would make
1.) less steep angle so less loss of energy when the air streams collide
2.) the sequential thrusters have diminishing returns, but are more efficient. Using multiple sets of 2 sequential thrusters converging into one stream would give a more efficient and powerful flow I believe.
3.) use a circular thruster and angle the outputs of each set of thrusters in a way to produce a vortex inside the body of the thruster.
Just some ideas.

when you stack them in series, the electric fields could be interfering with one another.
just as the air can be pushed forward, if you put another thruster in front it could add to an opposing force.

it would insanely cool to see a lightweight drone that can hover using these.

This is my favourite project on RUclips

Great video, can you make a video on this for a bladless fan for those hot summer days?

Aero engineer here:
See 3:12
E=0.5mc^2 so your % increases are being underestimated.
Energy @ 2.1 ~ m*2.1^2 = m*4.41
Energy @ 3.2 ~ m*3.2^2 = m*10.24
So delta energy ~10.24-4.41=5.83.
This indicates the second stage is actually more efficient than the first. AND considering you are entraining more air, the mass is probably higher so this is already underestimated.
Hope this helps!

better help is a horible company taking advantage of people at their worst. Iv been unsubing and refusing to watch videos aponsored by them. Hopefully you will drop them as a sponsor because your content is quite good.

You could also use air flow guides they're like wing-shaped things that direct the flow of air through the center of course it would remove it being Halo but it would streamline in it you could also use something similar to what Dyson does for their fan Airstream to remove turbulence from combining the airstreams

It's possible that the triangle shape is creating too much interference, causing the air to fight itself to get out, ie drag. I don't know how you'd test that though; confetti in a fire resistant room?
Maybe try a box, with thrusters on just two opposing side. Or, if you wanna keep the three sides of thrusters, you could try the bestagon approach, and connect them with three equal blank sides.
Likewise, you may wanna try containing the entire unit in a sleeve. You can get cardboard tubes of varying diameters at the local hardware store.
For shits and giggles, you could try funneling the exhaust.

"And what yould you do if someone attacked your ionocraft with a peice of fresh fruit?"
"Wot if 'e 'ad a gun?"
"Wot if 'e 'ad a point-ed stick?"

In the first 10 seconds, you got me to dislike the video already. Betterhelp is not a doling or helpful in any way. I am disappointed that a great RUclipsr like you would *ever* accept a sponsorship from them! Do some research before accepting a sponsorship next time!

Incredible!! Amazing work! ❤

A really important thing is thrust and drag coefficient. You could measure and add them to the next video. That would be useful in comparing different designs.

Come on better help is a really horrible company. They don’t even use real therapists

the triangle shape also allows for a lot more a steerable thrust as well. more voltage on 2 sides vs 1 should direct air flow directions.
it also seems like it would benefit from being able to adjust the gaps at run time. like say adjustment threads using a non conductive metal.
since it looked like voltage / gap = trust able to adjust more variables during runtime should help with experimentation time. and might uncover extremes that weren't expected.

This is so cool! I have a question though, could you vector the thrust by adjusting the voltage of the side thrusters?

You really made the Tony stark New-Element Arc reactor of ionic thrusters.

about the sequential design providing diminishing returns +50% +25% in speed but ifbyou think in terms of energy you have +130% and + 48% energy (for +100% and +50% power input). or +244% energy for +200% power input overall. it would be interesting to measure thrust too.
I think rhe issue with sequential design is the closer you are going to accelerate an aircraft the output velocity, the less efficient the multiple stages are going to become and its the reason why propellers on planes are never used sequentially but in parallel

I think having the stages that close isn't allowing the streams from each stage to converge before hitting the turbulence from the next stages. May want to try spacing them farther apart, but with shielding to prevent more air coming in, but have SOME air input to prevent a low pressure / vacuum area formation between stages. That would allow each stage to fully converge before being added to or even wrapped with the next stage column. As I was typing this, I also thought that, if you alter the angles of each stage, you may get coaxial flow where the stages can "wrap" the column of the previous and allow for, maybe not more velocity, but more total mass flow, resulting in more overall power output. You can't totally think of the velocity alone, but how much air is being moved at said velocity. 2m/s for 3 L/s is going to be more power than 4m/s for 1L/s. You simply have more kinetic energy being output. Air is approx 1.2g/L, so for the above you would have 60mN vs vs 47mN, respectively.

Hey just a thought, 3d cylinder tesla valve for the air, create a path of least resistance for one direction flow but have that resistance feature to catch any unwanted deviations

Hey Jay! Love your videos! Hope you make great steps forward in creating a real-world ionic thruster. Something I thought worth mentioning is back on your video for your Bluetooth plasma speaker, not related to this video, I found that the DC Flyback transformer I use plays music inside itself and the AC flyback that you put in your links I bought also plays music inside itself, but not through the arc stream, most of the time, no sound at all. Does not matter what resistors I use for the audio out on the Bluetooth receiver board. Have you encountered this? There might be something in your schematic that I am missing or a mistake. I would like to know so I can get it working. Thanks!

My grandfather used to build model airplanes as a hobby.
I used to love watching when he'd heat treat the laminate that covered the wings.
Perhaps you could achieve a significant weight reduction by replacing several of the plastic "wall" segments, with some sort of laminate covered exoskeleton.

Awesome work, thank you very much!

Love these ion thruster videos, looking forward to seeing you put them on a boat!
Btw, you've probably already seen this, but you may wanna do some more research on your sponsors beforehand.

Awesome, please continue!)

These inventions remind me of cogmind devices art. So cool.

Hey Jay. I’m always looking forward to seeing your next video. The new triangular topography made me wonder if arranging the triangles in a helix with a logarithmic decrease in angular offset between the 1st, 2nd, 3rd thrusters could amplify the convergence and/or amplification of air flow. Like those giant funnels that you can roll a coin or BB and as the coin gets closer to the centre of the funnel it rolls faster and faster around an ever decreasing diameter.
or even using a constant pitch helical topography instead of a triangle to create a spinning effect (like water going down the plug-hole). Just a thought. Thanks for another great video. 👍🙂

Point of convergence for each stage, if you put in a cullander or nossel half the size of your initial opening, you will concentrate more of the air flow, and cause less of a "blow out" increasing the overall column of air's strength, if the nozzle is too small, it will result in blow back as it forces air back out the inlet. By my understanding, a slight adjustment, should make the central hole into a vortex blend, believed to increase the max compression of the air column. Still, no moving parts added.

The design of the Mark 3 reminded me immediately of triangular Arc reactor from the Iron Man 2.
When you mentioned that nature "roundhoused you in the face", I had crazy ideas of a tornado vortex shaped thruster. It became so complex in my head, that I thought that nobody would want to build that nightmare of a design. 😂

Curve the output towords the rear of the engine, slightly twist the output as to get air to flow in a circular way. This will create a stream of air that is way less turbulent and easier to control. Circular airflow also stops the turbulence created by the merging of air from the second and third stages of the engine. That turbulence is killing performance. Best scenario you twist it enough as to create laminar flow and allow for unbroken stream to exit the engine. From this you might come to see that air is moving faster at the edges of the engine instead of in the middle for this im not so sure tho

Use tubes to converge the flow, then use a nozzle on the big tube to accelerate even more

A few people are mentioning measuring the thrust. Meaning measure how many pounds/grams/kilograms/newtons are pushing. Dividing by watts gives you efficiency. Or dividing by weight of motor is interesting as well. Velocity is of course important as if it is only 3m/sec and doesn't improve much in a headwind then your airplane can't go faster than 3m/sec. But I recommend concentrating on static thrust. grams of thrust per watt. You can use a kitchen scale or, better, get a load cell and build a test stand. Calibrate the load cell with a kitchen scale, suitcase scale, or similar.

This is cool, try circular design with this if financially possible, hollow out the centre, add all three stages with increased power at each stage. This should give more velocity push like bladeless drone.

Well done bro!!! Just wonder if there's some simulation software you could use to speed things up? Instead of prototyping each stage? I know it's not as fun but it could speed up your results exponentially.

Great content learned alot loved the video besides the prederhelp ad