Awesome video!! Pro tip: (seriously, I'm a dust collection engineer) Make sure to earth that collapsing flex hoze. The metal wire in there is not to make it springy, but to function as earth wire to avoid static buildup and discharge... I live in a country of merely 11 million people and each year we have 34 dust collection explosions (and consequent total shop losses) caused by failure to properly earth sections that build up static charge... :) I thought that might be a stat that could spark your interest ;) =P (swidt? haha)

@bobsnabby2298

2 жыл бұрын

@sourand jaded Same here, I grounded the sandblaster nozzle directly to earth via wire around the hose, it was constant sparks!

@usertogo

2 жыл бұрын

Could there be a way to control the high voltage somehow and use it for additional electrostatic dust retention?

@wiredforstereo

2 жыл бұрын

I use a bucket top cyclone device to clean out my wood burner. The ash make so much static electricity, I get zapped pretty hard core. The system is all plastic, so there's nothing really to ground.

@GENcELL2014

2 жыл бұрын

And some flex hose like the 4" I'm using is antistatic without a metal wire, just has a rigid polymer helix instead and all the polymer is doped to have a surface resistance for dissipating charge to a ground wire.

@lukearts2954

2 жыл бұрын

@@usertogo no. having static electricity will always remain a huge explosion risk. It's fairly simple: every mixture of air and a combustible product (powder, granulate, gas, flakes,... and some materials that you don't even consider combustible like sand or flower are equally combustible anyway) has a certain concentration where it gets explosive. In the collection container where the mass sticks together, the concentration of the product is 100%, before the inlet of the collection system, the concentration is 0%, so by definition, somewhere in between there's a point at the perfect explosive concentration. ANY spark at that point will ignite the shit. So you absolutely positively want to get rid of all spark sources...

A feature of many cyclone separators is what is termed a 'vortex finder' or 'outlet length'. The outlet pipe dips down into the inside volume of filter. This forces air from the inlet to orbit around the separator surface before exiting the top of the filter. This length is important for adjusting filter performance for pressure drop vs. fractional efficiency. Many papers use terms designated as 1D2D, 1D3D etc to describe the cyclone separator dimensions. The numbers represent the ratio between the cyclone diameter and cone length. Many papers are published which compare filtration fractional efficiency (as a function of particle diameter), pressure drop, and flow rate through the filter for a given Mean Particle Diameter. In general, a higher aspect ratio of cyclone with a large outlet length will filter better because it exposes the air flow stream to longer linear lengths of surface area. The principle is that at the boundary layer, air velocities are slow enough to drop out material against the surface, and the slope of the surface keeps the material from re-entering the fast air stream. Lower cyclone diameters will filter out smaller particles better, at the expense of significant pressure drop. According to ASHRAE, saw dust has an approx mean diameter of 600 micron, and flour dust has an approx mean diameter of 50 micron, for your reference. www.sciencedirect.com/science/article/pii/S0307904X06000291 This was a paper we used to guide our design of these separators. You should check out papers on the subject if you really want to optimize your filter.

@nos9510

2 жыл бұрын

was about to say it :')

@MatthewStauffer

2 жыл бұрын

Wonderful explanation.

@lolaa2200

2 жыл бұрын

Yeah for some strange reason most of the 3Dprinted project on internet get this ratio "wrong", I wondered if it was because of empirical tests that for some reasons makes the result different when 3Dprinting the thing (rough surface, PLA leakage, ...), or just a social reproduction thing where the first who did it just made it this ratio without thinking much (which is totally fine, sometimes you just want to make a quick and dirty thing without research and/or calculation) and the rest of the 3d printing community just followed it as a design trend ?

@Hellsong89

2 жыл бұрын

@@lolaa2200 In one hand i really start to need cyclone filter asap since i have lots of routering coming up near future, but then again i would like to get optimized as possible filter to save those shopvac bags, but then again i really dont have time or interest at this moment to go and learn about these filters that indebt, so has anyone optimized this and is there 3D model somewhere?

@wiredforstereo

2 жыл бұрын

Excellent stuff, I took a class on this in college but I don't remember enough of it to explain it that eloquently.

We used separators extensively in the lab and found through our experimentation that an inlet angle declination of 7 to 10 degrees made for the greatest debris drop-out.

@timramich

2 жыл бұрын

Any experiments on the smoothness of the walls? It seems how rough the wall is may be counterintuitive.

@WilliamEades_Frostbite

2 жыл бұрын

@@timramich All of ours were made by the sheet metal shop on base so they were smooth walled to begin with.

@usp211816

Жыл бұрын

Did you try a step in the angle?

@michaelrobinson9643

Жыл бұрын

William can you recall what pressure and air volume /min was used and did you try varying those? For some uses high suction, low vol can be ok while in others you want high air volume and lower suction is ok.

@lukearts2954

Жыл бұрын

just to not misunderstand you, when you say declination, you are talking from the airflow's point of view, or the filter's point of view? (so is the air blowing downward or upward at the entrance?) It's good to share any results from experimentation, because there is a lot of trial-and-error in these systems, simply because there are so many variables, too many to run simulations or base solutions on calculations alone.

"It became clear I needed to vacuum my floor more often" Even a genius needs a little help from technology to learn life skills. Love your content and your passion for everything you do.

@davidtuchscherer6276

2 жыл бұрын

How to make a genius vacuum his floor? "You have the right to design and build the vacuum!"

Hey! i've actually done these experiments myself a few months ago. I found that, as you mentioned, a steeper slope was better for larger particulates. But my results were also greatly improved when I elongated the cone and allowed the air more time to circulate. Additionally, I found that sanding the inside to be as smooth as possible helped. Great video, love ur channel.

@matthewsackman

2 жыл бұрын

Yeah, I was coming here to say the same thing - make the inside as smooth as possible. Also, it doesn't have to actually be a cyclone - I built a Thien baffle for my wood shop. Straight sides, but very smooth (bent acrylic), and as mentioned elsewhere, the exit tube comes *way* into the chamber - I think my chamber is about 24" diameter about more than 12" tall, it's 6" inlet and 6" outlet, and the outlet starts about 3" above the base of the chamber. It works very well. But, I've not actually tried to optimise it - very much a case of "well that's good enough then!".

@practicalguy973

2 жыл бұрын

I own the Makita cyclone separator with stick vaccum and my friend has the Dust Deputy they both have a steeper slope. They work well. I think the air velocity also matters in the cyclone chamber. The larger and longer the cyclone is, the more air volume and slowing of the air velocity in the top of the cyclone giving smaller particles a chance to fall rather than getting sucked back up. When you look at Dyson it does really well keeping the filters clean but the CFM on those are only around 60 on turbo so it can be a small cyclone system. A decent 5-6 hp shop vac could be 150cfm and those industrial separators are huge as was shown in the video which would be really high CFM. There would be a point where a cyclone separator could be too big and the vacuum CFM cant form a cyclone to. Another thing would be the way the air enters the cyclone, in the video its a really sharp edge and I would think that is causing a lot of disturbance right by the exit hole The Dust Deputy has a much more gradual way of taking the air and smoothly entering the cyclone. I'm thinking small particles would better make it to the walls of the cyclone with controlled airflow.

@juanit0tackit0tackito2

2 жыл бұрын

Trust in Jesus Christ

@thebush6077

2 жыл бұрын

@@juanit0tackit0tackito2 ok

@steamtraintom

2 жыл бұрын

@@juanit0tackit0tackito2 I dont remember a passage in the bible where he used a vacuum cleaner

Can't wait to see what you cut out with this magnificent thing - level up!

@f_2476

2 жыл бұрын

Wow amazing project thumbs 👍, may I ask you what was the Creality 3D printer was used for this project?

@MatthewNovoselskiy

2 жыл бұрын

SO MANY BOTS WTF

@makingit4741

2 жыл бұрын

I did cut an entire flying wing on my mpcnc, it broke at the maiden flight, but still fun to do! I'll need to improve the design! Here is the video! kzread.info/dash/bejne/gmSC1LenisTLfrw.html

@sebastianmiller7740

2 жыл бұрын

@@f_2476 I think he use a modified cr-10

@truebark3329

2 жыл бұрын

Upload a new video,

The velocity of the air stream, size and density of particles, and slope and diameter of the cyclone matter a LOT more than you'd think. The multi cyclone is essentially optimized for three different particle sizes, since it was done more or less randomly there's no telling what exactly those particles might be.

@Bambinz92

2 жыл бұрын

Yes, I agree, try the Stairmand geometry, you can find the sizing table with google ^^

@HavokBWR

Жыл бұрын

How well do these cyclone filters work with slower speeds with small particles? Ive got a small mushroom farm and during fruiting you get a lot of spores being released, would be nice to be able to use something like this on my air exchanger to cut down on buying filters.

Point to note: the multi-stage design _should_ allow you to tune the first stage to remove big chunks at a cost of letting the fine stuff through, to be dealt with in stages 2 and 3.

@Arsanthania

Жыл бұрын

I think the particle size being targeted with each stage is probably backwards, probably smallest to medium to largest, but I'd think you'd want to go the other way around.

You should test combining the big mono and a smaller mono, since they both filter out different size particles.

@gnramires

2 жыл бұрын

Yes! It seemed the smaller series version did well with large particles. So maybe have that first and a large cyclone as a second stage, something like that.

@frankthies221

2 жыл бұрын

An unfortunate side effect of a combination of separators is reduced air flow. With light weight foam it may not be as big of an issue.

@Broockle

2 жыл бұрын

don't u need a stronger vacuum then? I think the ideal design takes out all the particles but also leaves you as much power on the vacuum as possible.

@gnramires

2 жыл бұрын

@@Broockle There are losses on each stage. Since the airflow is equal, the pressure drop is about the same at each (equal) stage. The main advantage of multiple stages is probably getting the filtration efficiency really high. Each stage filters a certain fraction of dust so you can cut it down exponentially with more serial stages.

@gnramires

2 жыл бұрын

Also I'm not sure what's the relationship of size and pressure loss and filtration efficiency, there might be some tradeoff involved (again for different particle sizes as well).

If I remember my lectures correctly, you usually have the outlet not at the top but a bit further down the cyclone so the particles are slower. Maybe adding a small tube in the center will help. Would also be a quick print, if not just a cutted pipe is enough.

@willou276

2 жыл бұрын

true he should test it, the result will be much better than a top sucking.

@NotaRobot_gif

2 жыл бұрын

Yes, it should extend down a few inches and have a defuser that resembles a hydroponics growing cup that breaks up the laminar airflow.

This is why I made two separate units in series. The first is your typical dust collector, the second is literally a giant bong. The air goes into water this making it super clean.

I appreciate this. I've been using a 20$ Oneida cyclone for almost 10 years and it's nice to see why it works. The other attempts don't add to the science but they really do help to see why the original design is so effective.

If you look at a Dyson vacuum, each tier of cyclones has a separate collection chamber separated by a seal, also rather than multiple similar sized cyclones each one is reduced in size in order to filter different sized debris, the main shroud for large debris the subsequent in size for finer particles. The diffusion method might be effective as lower airspeed but you have to keep in mind you want maximum power rather than an obstruction on purpose as that not only reduces cleaning performance but also puts strain on the motor which in a non-shop vac vacuum relies on pass through air for cooling.

@lukearts2954

2 жыл бұрын

Actually, most of those motors have external fan blades to circulate air around the motor for cooling. A centrifugal fan can't run the aspirated air over the motor because it's in an enclosed cavity. I understand what you're trying to say in the second half of your comment, but the reality is more complex than that. (the bit about Dyson is correct tho)

We’ve done a fair amount of research on these cyclones for our projects. There are a lot of academic papers out there which pretty thoroughly describe the performance characteristics of these things given different geometries and boundary conditions. A given geometry tends to preferentially separate out particles with a particular density. In other words, a given cyclone might perform great for steel grinding dust but not so well for sawdust. So your results will depend on what you’re trying to separate out. Fun project, thanks for sharing!

@richardprice5978

2 жыл бұрын

id like too see one used on a sub-7L engine and or in slowmo as i 🤔 if the cylinder cycling would let it work 🤔 or with water 💦/humidity. as for his i think 💭 the lines need to be smooth out as the one video frame looks like the parting line or lines is getting in the way and undoing the point of filtering out the junk and adding resistance for the vacuum cleaner

The slow motion sexy CNC and cyclone shots to the music was absolutely hilarious and I replayed it about 5 times, great video! I love 3D printing but never thought I'd sit through a video on a DIY shop vacuum, you made what should be a relatively boring thing into engaging content! Great vid!

KZread has been recommending this video to me for two weeks now. Finally took the hint and watched it :D Definitely worth it and really enjoyed the video!

I appreciate the use of animation, clear acrylic, and inclusion of windows so we can literally see what's going on. Thanks!

it resonates because the tube is ribbed, if the tube was smooth it wouldn’t have made sound. You can use a smaller diameter smooth tube.

@dilbert0815

2 жыл бұрын

But he needs to make sure its suction tubing, e.g. for water pumps. They still have ribbing, but only on the outside.

@robertheinkel6225

2 жыл бұрын

I had the same issue with noise. I replaced a vacuum hose, with one designed for sucking water, pool use. The pool one was unbearable with noise. I went back to using two vacuum hoses connected together to get my desired length.

@ikocheratcr

2 жыл бұрын

not only ribs cause noise, also the air speed. In my case I eliminated the noise of a small tube by using a bigger diameter one. I initially used a 1-1/4 (IIRC) electrical flexible tube ribbed and noise was terrible. I moved to a metal one, with external rubber lining that is 1-3/4 and noise went away. I guess the metal and rubber stuff might have something too, but air travel way slower.

Great to see the various configurations tested in a systematic way. Thank you.

I was planning on making a cyclone for my dust collector. I'm so glad I found this video! Very helpful!

Awesome job, I really like the idea of them in series! I actually designed one of these for a project at work. I used it as part of a system that allowed us to lift sand to an elevated hopper. This was placed in the elevated hopper to force the sand to separate from the air. I found that having a tube extending into the chamber a few inches from the exhaust port helped the efficiency dramatically. I was also using a chamber made from a piece of acrylic tub so the walls were vertical with a PVC reducer at the bottom.

This whole video I was screaming out loud "WHY ARE YOU TRYING TO REINVENT THE WHEEL????? I took "Air Pollution Control" in my Master's program for Civil Engineering. Cyclone separators are very simple and easy to engineer, build, and understand. I'm sure you can find stuff online about how to design and build them and what performance to expect based on particle size and density. You could even dissect nearly any bagless vacuum cleaner to get ideas on how they work and the proper proportions. One feature I noticed that was neglected in most if not all the designs, is that the exit pipe in the top center should extend into the cyclone chamber, a certain number of diameters of the pipe, like 1 or maybe a half, I don't remember. I think it's called a "vortex finder." This is a great practical video, I'm glad you made it, and I mostly enjoyed watching it, but you could have started much further ahead than you did with just 5-10 minutes of reading.

@simon-pp5sm

2 жыл бұрын

Some enjoy experimenting and observing on their own. Many learn better this way, and often new discoveries come from this kind of tinkering and observation discipline.

@AppleGameification

2 жыл бұрын

Okay dude

@beqwaam

2 жыл бұрын

Stealing stuff from the past makes sense. But doing it by learning is GREAT FUN and you might invent new stuff not even heard of before. So keep doing by experimenting! Love the video's.

@wiredforstereo

Жыл бұрын

@@simon-pp5sm I get that. Personally, I like to start with something that already works and iterate it into something better, rather than just bash at it until it works kinda, which is what happened here. He stopped before he even had a really good result.

Cyclone being one of my favorite songs to this day. thank you for that!

Omgg the Cyclone outro was a throwback! Awesome video!

Irrespective of Brilliant being an excellent sponsor - thank YOU for recording, editing and producing this content for us for free. It's among some of the most enjoyable content that the internet has to offer these days and I, for one, certainly appreciate it.

So cool, how 3D printing gives "garage inventors" ability to design and test ideas. Daniel, I have a feeling that 3D printing combined with the Stepcraft router will be taking you to a whole new creative level. Go for it!

While watching this video it kept reminding me of one core concept, the scientific method. What a great job! You proposed your idea, researched it, made your hypothesis, tested it, analyzed the results, refined your idea, and repeat. Gotta love the scientific method!

It's so fun being an engineer! You go down all these rabbit holes you wouldn't have thought of and you end up learning so much! That's such an important part of being an engineer!

I think our right about the steeper sides. In your pictures at the beginning the cones are a very steep long cone. I think the mono cyclone was so effective because the larger radius allowed a greater centrifugal effect to occur. I made a dust separator with just a 5 gallon bucket and a wood lid. The entrance was at a very steep angle but still downward and at a tangent to the inside of the bucket. It separated all large items and much more of the sawdust than I though it would. Keep up the great work.

Great project, Daniel! Thought about printing one a few years ago. Was lazy, and bought one :)

@radish6691

2 жыл бұрын

Lazy? Nah, you were smart. To quote myself, “I can do anything but I can’t do everything.” Just because you can do something doesn’t mean it’s worth the time to do it.

LOVED THIS VID, interesting, knowledgable and entertaining! Well done!

I'd love to see more experimental videos on dust separators. This was really cool

Always appreciate your videos!!! The collection efficiency of cyclones varies as a function of particle size and cyclone design. Cyclone efficiency generally **increases** with (1) particle size and/or density, (2) inlet duct velocity, (3) cyclone body length, (4) number of gas revolutions in the cyclone, (5) ratio of cyclone body diameter to gas exit diameter, (6) dust loading, and (7) smoothness of the cyclone inner wall. Cyclone efficiency will **decrease** with increases in (1) gas viscosity, (2) body diameter, (3) gas exit diameter, (4) gas inlet duct area, and (5) gas density. A common factor contributing to decreased control efficiencies in cyclones is leakage of air into the dust outlet (EPA, 1998).

@ThiagoR7767

2 жыл бұрын

Any books or texts that you recommend on the subject? I'm trying to learn more about it

Simply routing the air through a larger tube will drop the air velocity since Q/A=V where V is velocity, A is area and Q is flowrate. If you bump up the area the velocity goes down proportionally. The middle of the tube will have a much higher velocity (especially since this is 3D printed and doesn't have a smooth surface) so it would require a series of diffusers to make sure the velocity field is uniform. You'll need the bottom to be open to the bucket for the dust particles to descend and accumulate. If you get an anemometer (they are like 20 bucks) you can measure the velocity of the flow in your vacuum tube which combined with the cross sectional area can give you an estimate of how large the dust collector tube would need to be to drop the air velocity. The surface area of the opening in the diffusers should be equal to the original (non enlarged) tubing size. Basically the particles fall downward at a fixed rate decided by gravity and their drag. The velocity inside the collector must be low enough that a large portion of particles (>95-99%) have plenty of time to fall downward out of the moving air stream.

@terminus9897

Жыл бұрын

I might have read this wrong, but doesn't the high velocity of the air generate the centripetal force that separates the heavier particles. This also might just be one factor, or I could be completely wrong.

@lukearts2954

Жыл бұрын

@@terminus9897 ummm. Centripetal means striving to the center... Since this comment is about axial flow, not about any kind of rotation, centripetal forces are not at play. @Entropic0 is right that the slowing of the air will make the dust get caught by gravity if the speed drops slow enough. The smaller the particles, the slower it needs to be. But also, the smaller the particles, the slower they fall because of the ratio between friction, drag and the load capacity (which increases with speed). So it's not enough to calculate a lower speed, but you also need to calculate a minimum length of this wider section. For fine dust, these numbers would go up so high that it becomes unrealistic to implement. So it's a great idea for the larger size particles (except the diffusers, as they will capture particles and eventually clog up the sides, increasing the speed in the center until a point where it's fast enough to prevent the particles for getting caught, which will also be where the particles will no longer drop out of suspension.)

@geordonworley5618

Жыл бұрын

There was a Practical Engineering video on this for settlement bins, but it was for waste water treatment. Fascinating stuff!

You are just the coolest person. Clever, talented, funny, and capable. Shine on.

This fella right here CANNOT miss

Большая работа проделана!!! Спасибо большое за познавательное видео! Думал так же делать, но Вы хорошо проверили мои идеи и они оказались неэффективными, Вы сохранили мое и не только мое время, спасибо!

cyclones are a massive help in this use case. I made one myself and had some issues with the container seal... so I put clingwrap on the container as a separator, sprayed eurathane foam into the lid and clipped it on. Cure, cut off excess and now have perfect seal. Increased rigidity to prevent vacuum collapse and perfect seal.

Great video! If you look at the 2nd generation Dysons, they have over a dozen on tiny cones. The tinier the lower end of the cone the higher the speed, but also the higher the resistance to the airflow, thus the massive parallelism. As mentioned elsewhere the inside of the cones should be as smooth as possible, to keep the speed up and reduce resistance of the filter (acetone vapor might help here). Also both the low cost and industrial filters I know of, have the air outlet at the top hang down a bit, for you that would be about 2". I like your serialization, have been thinking about that, but haven't tried it yet. I think two phases with the second being much smaller might give better performances: one big cone surrounded in Dyson fashion by a dozen of tiny ones.

I'd use first a gravity based (maybe mechanical theough some big mesh) filter and then the monocyclone for the rest. So basically into a bucket for the heavy big stuff, out of it and through a tube to the monocyclone. Pretty cool tests you did there 👌

Rapidly becoming my favorite KZread channel

Progetto e approfondimenti sorprendenti! Complimenti e ottime analisi...

Great video! It would be interesting to see if there is a noticeable difference between a smooth surface in the cone, compared to the ridged cone due to the printing layers. Also, it would be interesting to see if there is a noticeable difference if the top cylinder section was a bit taller, before it becomes the cone. I've seen designs where the cylinder height is actually taller than the cone section.

@blackc1479

2 жыл бұрын

I was wondering the same, as far as smooth vs stepped, or even if you had ridges spiraling down to direct the airflow? Anyway, very cool, just got my first printer for xmas, so good project ideas👍

10:19 flows always follow the path of least resistance, so adding valves to each outlet allows you to control and split that precisely. Once you know you can then design smaller nozzles for the first chamber to the larger nozzle for the last chamber

@fdsman

2 жыл бұрын

I kept scrolling to find someone who would finally mention the path of least resistance, this is a problem that tends to be extremely pervasive in the 3d printing community. You have people with a lot of passion and willingness to get into CAD and start designing; but when it comes to implementing rather basic scientific principles into the design to save you having to print endless iterations, hoping you stumble on a design that conforms to these principles, the community can be a little lacking.

@12:45 you got bars!!! I see you also are channeling the spirit of Rick Flair Wooo!

The carpet in your shop gave me the shivers. Awesome video btw.

I use a commercially made cyclone on the input to my shop vac. Some really small stuff makes it through, but it saves on filter bags as most of the waste ends up in the bucket and not in the shop vac. Some big bits still orbit the cyclone without falling down, I wondered whether some vertical fins around the edge to stop them rolling would work, however since my cyclone does not come apart I cannot test this idea. However if I use it to sweep the floor and the intake get blocked, it sucks the bucket flat, so I had to make a vacuum relief valve to stop this, it also jeeps the circulation going in the cyclone. I note that Dyson do something similar.

This video was actually very interesting. You make it seem so simple. Since you do planes and boats.. I would LOVE to see a GPS guided submarine, heck even a remote controlled one would be amazing (I don' think you've made a sub yet as far as I'm aware)

@YohanHadji

2 жыл бұрын

That would be amazing, not sure about how to get GPS signal underwater though

@SodaWithoutSparkles

2 жыл бұрын

GPS underwater? I dont think thats a good idea. You might need a floating repeater for that.

@MayankJairaj

2 жыл бұрын

Isn't DIY perks making this?

@ThatGameGuyy

2 жыл бұрын

you're gonna need to launch you're own satellite constellation using visible light if u want to pierce the water. alternatively, buoy.

@SodaWithoutSparkles

2 жыл бұрын

@@ThatGameGuyy I think the idea isnt gonna work. The wavelength of visible light makes it hard to concentrate to a small area. Even if you use laser, the projection on earth would be a few meters in width. A floating repeater above water could be a good idea, then it could use i2c or 1 wire to deliver the data to the sub. Or you could use sonar to detect the bottom of the sea/lake, then use that as location data? Or use 3 lasers onshore to shine a beam to the sub. If they could rotate freely, they could know how far and at what angle the sub is. Using three could triangulate the location. Or use sonar boardcasting on the sub, then three recievers to measure the delay, like the black box of planes if they fell in water.

Great finishing song! Very interesting builds, thanks for sharing.

Thank you very much! You have saved many hours of testing for other people!

When it comes to cyclones, bigger is always better simply because you have to match the angle of the cone with the speed of the air, so having one thats bigger means you dont have to worry too much about the angle as it will slow down the air alot. At my work we have a few of them and they do very well with both very fine metal dust and metal shavings simply because they are about 7 feet tall and 3 feet wide.

I absolutely love that you are testing cyclone separators! Your design skills are insane! I use a handful of these in my little machine shop, and a two cyclone setup for my floor vacuum. One thing that I've found that helps is at the port that goes from the cyclone top to the shopvac hose, to have a portion of the tube protrude a half inch to an inch into the cyclone top (down into the cyclone chamber) rather than it being a clean port into the shopvac hose. To be honest, you may have done this already, but I wanted to share this in case you hadn't tried it already. I think the idea is to give the solids a wall that needs to be hopped in order to make it into the shopvac hose. Granted, it looks like your designs are working pretty good, especially the large one. I would imagine that the shape of this barrier could play a role in how much gets past the cyclone too, as the solids mainly stick to the surfaces. (I think the original clear plastic dust cyclone has this little barrier, if you need a better visual than what I'm explaining) It may not improve the solid collection a whole lot, but any little bit that helps keep it out of that shopvac filter keeps suction as close to 100% as you can! I have managed to keep my shopvac filters nearly pristine for a few years now. Also not machining foam either though.. which is probably the toughest thing to keep out of your vac filter! Awesome stuff!!!

This is definitely one of the most informative videos in KZread!

Good singer as well... Great job with this collectors. Thanks for sharing.

My suggestion for a future cyclone would be to print a series of spiral splines that force the particles down as they travel around the inside of the cyclone. Kind of like a thread pattern inside the cone.

Your 3D printing skills, cnc skills, modeling skills, and videography skills are off the charts man! Holy cow what a great video!

Love your persistence.

what a journey! good job man OMG those lyrics

I think you need some more distance vertically between the inlet and outlet to the vacuum I think you need more volume between them so that the particular matter has more time to drop . Also try your three component model with three large containers that are connected by pipe to regain the volume but keep them seperate . Absolutely loved this video .

Nice video buddy 👍

Your video is awesome, and also are the comments with tips and tricks for improving your dust cyclone separator design backed up by scientific and real world data. Just reading the comments already made me wiser by a bit. Keep up the good work and I'm also looking forward to see what stuff did you made with that nice CNC router. Cheers!

Subscribed because making a song for your video shows some serious effort, good job man, two thumbs up!!

Great vid! I was just learning about James Dyson today! Too bad he didn't have a 3d printer, would have made prototyping his original design much easier! He apparently went through 5,127 prototypes! P.S. Idea for next video: "Testing 5,128 Different Cyclone Air Dust Separators"

Awesome job. I’m going to add one of these to my lab setup! What kind of glue do you use for the PLA?

Awesome analytic and iterative descriptions. I'd worked this very topic about 10 years ago and was struggling with many of the same issues that you were able to visually expose. The biggest reason for 'short circuiting' or bypassing the centerfuge effect is not having the proper pressure drop in the chamber. Adding an extension tube to the clean air exit that's past the tangential entrance helps quite a bit. Another is having the correct aspect ratio of height to width based on your entrance velocities. Scaling the cyclone up or down works to a point...when debris is being passed through the cyclone or even being sucked up the center vortex you have too little of a pressure drop...you need a larger diameter cyclone to compensate for the velocity of your system. If you play with Dyson vacuums you'll find they have precisely scaled cyclones for their velocities. They don't have near the flow or suction of a shop vac but have near perfect separation and filtering because they tuned the entire system. Your shop vac is your control point... The cyclone needs to be tuned for your shop vac.

Excellent information, this kind of experiments are my favorites, thank you!

Interesting. Given volume in equals volume out(roughly), I would suggest your air flowing in should have a smaller hose and the bottom of the cyclone should have a bigger hole, also the hole exiting the top should be larger as this will reduce the escape velocity of the material and hopefully minimise the amount of really fine particles remaining suspended. Another really interesting way to go is utilising water. Dust hits like a water wall and then is captured. I use this for sprays. Edited - elaborated what was implied by v originally. Mawyman below gives more of an explanation for volumetric flow. In essence your vacuum cleaner generally always pulls the same volume of air through it. If you have the straight pipe with no attachment on it you pick up some stuff, i you change it for one with a smaller opening it pick up most stuff.

@Mawyman2316

2 жыл бұрын

Well technically the continuity equation is Ain*Vin = Aout*Vout or in other words Qin = Qout where q is volumetric flow rate. It’s clear you understand the areas impact but I figured I’d just clarify for future peeps.

@cjcro6456

2 жыл бұрын

@@Mawyman2316 haha yes, rightly put. In my haste I've suggested in the opening line that v in equals v out. I meant to imply volume but see where there could be a clear issue. Just wanted to imply that what goes in as volume must for the most part come out. Been a while since ive done fluid dynamics haha 😄 thanks for clearing that up though 😀

@Mawyman2316

2 жыл бұрын

@@cjcro6456 I’m a recent mechanical engineering grad so fluid dynamics is painfully fresh in my mind haha.

@cjcro6456

2 жыл бұрын

@@Mawyman2316 congrats mate. Finished civil about 10 years ago. So a vary bare bones shell left of the knowledge. I did smash Laplace Transform though haha

Have you considered changing the injection angle more downwards so the particles start with more downward momentum?

Yes, it sang to you! Love it. Great video.

made complete sense on how it works and ive seen this before but never completely understood it so cool vid i learned new stuff

LOVED IT! Amazing and entertaining video [as usual]. Thanks for doing this for us. I want to see a BIGGER funnel, with STEPPER sides - Do it please! P.S. I've been following your channel for years, and enjoyed them then and now! Keep up the hard work - I know for experience, it can be quite the grind!

I find this topic fascinating. Would be interesting to see if restricting airflow to the vacuum could filter out different particel sizes and densities (like metal dust).

@lukearts2954

2 жыл бұрын

it does :) but you really don't want to experiment with mixed dust (metal and wood)...

@OperationDarkside

2 жыл бұрын

@@lukearts2954 Oh, but I do >:-)

@lukearts2954

2 жыл бұрын

@@OperationDarkside hahahaha, I think you need a different channel. I'd suggest Explosions&Fire for example =)))

Wow, great walkthrough of your journey 👍😃

This helped me so much to define what type of cyclone I need to build.

You are missing a crucial part. The outlet needs to have a tube reaching down into the cyclone . About 1,5-2x the diameter of the intake . Also : the smaller the diameter of the cyclone is , the finer are the particles these get separated . Don't make it so small though that the air out of the intake smashes into the outlet tube . The upper part needs to be cylindrical and only a couple of outlet diameters under the outlet tube it needs to taper in . There must not be an airflow from the solids-outlet into the cyclone or it won't work, airflow out of the solid outlet needs to be kept to a minimum . There are some simple Formulars for dimension ratios to get decent results out of them and there are some way over the top complicated methods of modelling them . I did a cyclone separator to separate oil from. A stream of CO2 in my thesis . If you want to go into detail on how they actually work , I would gladly give you some info .

@AtimatikArmy

2 жыл бұрын

Wow, great info! I'd be interested in anything you wished to share on this subject.

@bigdfig6083

2 жыл бұрын

Seconded. I did some r&d on a separator several years back, but settled on a dust deputy. I drill bolt holes in concrete quite often and the dd in front of a hepa filter does the trick. Now, I just so happen to be searching for the perfect air/oil separator on a turbofied car engine. Any detailed info you might have would be welcomed here.

Maybe try having the cyclone open up a bit at the bottom or try introducing a bend at the dust exit (2 separate ideas)

@grimfpv292

2 жыл бұрын

Yeah, wider bottom of the cyclone, and install a baffle under it. That should do wonders, it does with water filtration I think.

Was not expecting the song near the end. Well done!

Dude ! Loved the remix song at the end!!! Hysterical 🤣

This was truly intriguing and one of my favorite videos in a long time. You earned my sub

Love the video. Since the pitch of the cone changed which particle sizes it gathered most efficiently, have you thought about making a multi-stage separator, similar to the series separator except the pitch of the cones change to accommodate for the size of particles most likely not caught by the prior stage(s)?

The music bit was classic...omg.. well done. And it was great rabbit hole you toke....i think i do something similar to my stepcraft....

I have an Weird fascination with vacuums so please keep iterating!

i cant wait to start 3d printing. that router machine and stuff looks so cool how you can carve wood and all that.

Your videos are amazing and inspire us to go curious and try things out on our own!

Not only damn interesting and helpful but also awsome and beautiful footage, well done!

I love that the simplest design is also the most effective.

That sick song at the end just earned my sub.

That cyclone parody could not have caught me more off-guard, absolutely mental. Subscribed!

This was really fascinating to watch, especially because I was thinking of printing one for my normal vacuum, and this had some really interesting results to ideas that seemed so good on paper :o

This was actually really interesting and insightful. Thanks!

Awesome! And those soundtracks in your videos are cool! :)

Thank you for doing so much work!

im not sure what happened where i stumbled on a 14 minute video of dust separator tests by an rc enthusiast at 3am but i have no regrets. intriguing content!

Great video! Other than increasing the steepness, consider making the subsequent cones with a smaller radius to increase the centrifugal force on smaller particles.

I loved the song! Great video, I appreciate your effort

Commercial particle separators have aggressive vertical sections before the cyclone allowing more heavy material to drop out, have an exhaust tube intaking below the cyclone intake port, have a plug in the dust port producing annular discharge (like a turbine), and sometimes use a smooth downward curve in the ceiling to introduce the vortex into the vertical segment. In the extreme cases this warps it from a "funnel" shape to a sort of fungal bloom, with a perforated internal riser instead of a conical segment, and a ball at the top allowing recirculation before dropping into the separator proper. I'd love to see more science and less art here, but I appreciate your time and funds wouldn't fit testing 200 extremely similar designs either. Great work so far!

Super interesting, gonna go build one myself. Thanks!

Great Video , very interesting how the different cyclones work 👍 I use a mono cyclone with a self made case out of wood on my CNC. Works good for me. 🙂

Дякую автору за чудові експеременти. Вони довели, що все геніальне просто)

Awesome Daniel!