Wirtz pumps are really clever

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  • เผยแพร่เมื่อ 9 ต.ค. 2023
  • The first 100 people to use code SCIENCE at the link below will get 60% off of Incogni: incogni.com/science
    This spiral pump uses air lock to push water to great hights.
    Here's Johnathan Deane's paper on the subject: openresearch.surrey.ac.uk/esp...
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ความคิดเห็น • 2.6K

  • @SteveMould
    @SteveMould  6 หลายเดือนก่อน +2141

    Jonathan (from the video) wanted to answer a recuring question from the comments. Adding it to the pinned comment seemed to be the best approach. Here's Jonathan:
    Several comments ask: why not replace the spiral by wrapping the pipe round a cylinder instead? Some suggest this might actually be better than a spiral, but this isn't true.
    To see why, you first need to remember that air is much more compressible than water. Second, remember that, however the pipe is arranged, inside it are 'plugs' of water alternating with plugs of air. The first plug of air after the open end is under low pressure. The second is under higher pressure and so on. The innermost plug is under the highest pressure of all.
    As the air pressure increases, the volume of the plug decreases (this is Boyle's law).
    To maximise the pressure, ideally the plugs of water should be arranged like a set of left-hand brackets (((. Now, the circumference of the spiral decreases as we go towards the centre, and this fact helps to maintain the arrangement of plugs of water as the plugs of air shrink. The shrinking circumference makes up for the shrinking air plug length.
    End of Jonathan.
    That said, cylindrical pumps have been built and they work fine - they're just not optimal.
    The sponsor is Incogni: The first 100 people to use code SCIENCE at this link will get 60% off of: incogni.com/science

    • @1224chrisng
      @1224chrisng 6 หลายเดือนก่อน +31

      🎵 Deja Vu! I've been in this place before (higher on the street) and I know it's my time to go! 🎵🎶

    • @RahulJC
      @RahulJC 6 หลายเดือนก่อน +8

      I paused the video got busy with some work when i went to play it again poof gone... thanks for the reupload!!!

    • @zilog1
      @zilog1 6 หลายเดือนก่อน +3

      Switch to resolve already

    • @dziban303
      @dziban303 6 หลายเดือนก่อน +14

      Also there was an extremely audible fart at 7:37 which has been removed

    • @giefuser
      @giefuser 6 หลายเดือนก่อน +13

      It went away the moment you said ”I’ve never made a misstake in a video before”

  • @syrus3k
    @syrus3k 6 หลายเดือนก่อน +3773

    The fact that guy has it pumping 8 metres up his garden with no power other than the stream is incredible. I love this stuff.

    • @gregw1076
      @gregw1076 6 หลายเดือนก่อน +146

      The other main option is a hydraulic ram pump, Practical Engineering has a good video on that

    • @IRMentat
      @IRMentat 6 หลายเดือนก่อน +19

      Decently mobile driver with some nice big paddles helping the spin.
      Still, it’s learnt been running a while given the amount of miss, etc on the wheel

    • @JustinShaedo
      @JustinShaedo 6 หลายเดือนก่อน +53

      Maybe much quieter than ram pump 🤔

    • @wizrom3046
      @wizrom3046 6 หลายเดือนก่อน +29

      It is a brilliant pump.
      The only 2 problems are input fouling (which exists with any pump)
      And the rotary fluid coupling

    • @ImieNazwiskoOK
      @ImieNazwiskoOK 6 หลายเดือนก่อน

      @gregw1076 I think it would have to be somewhere underground to get the potential it needs, and then maybe somewhere to remove the "wasted" water

  • @ash36230
    @ash36230 6 หลายเดือนก่อน +4685

    I just love the fact he managed to get an entirely nature powered bog garden from a pump

    • @jackroutledge352
      @jackroutledge352 6 หลายเดือนก่อน +651

      I wonder what came first - his desire for a bog garden, or his desire for an excuse to build a self-powered Wirtz pump?

    • @kathorsees
      @kathorsees 6 หลายเดือนก่อน +108

      Agreed. Great taste, terrific idea and an execution to match both. I'm green with envy, tbh! 😅

    • @thePronto
      @thePronto 6 หลายเดือนก่อน +124

      What is a bog garden?
      Edit: I just looked it up, it's a mosquito paradise...

    • @danilooliveira6580
      @danilooliveira6580 6 หลายเดือนก่อน +198

      @@thePronto a proper bog garden shouldn't have still water. and if it does you can just place some fish there to eat the larvae.

    • @3nertia
      @3nertia 6 หลายเดือนก่อน +60

      @@danilooliveira6580 Also frogs

  • @spanishchair
    @spanishchair 6 หลายเดือนก่อน +10

    This is the real life equivalent of bug exploits in video games.

  • @BruceNJeffAreMyFlies
    @BruceNJeffAreMyFlies 3 หลายเดือนก่อน +86

    You're always told to worry about airlocks as an apprentice plumber, but it's so unintuitive that I had to see it for myself to really appreciate how much force it can take to overcome an airlock.
    I installed a shower drain without enough fall, so when the house slightly moved in an earthquake, it started flowing backward. There was baaaaaarely enough room for an airlock to form, but once it formed it could hold a column of water like at least 5 times as high as the height of the hump that the airlock needed to overcome. That buoyant force is HUGE!
    Was worried about my repair, thinking I stuffed up the same job twice, when I got called back. Thankfully the tenants kid had just jammed multiple toothbrushes and pieces of fabric down the drain for whatever reason.

  • @vannomanno1
    @vannomanno1 6 หลายเดือนก่อน +6699

    It's proof of the kind of great man you are when you're able to admit the one and only mistake you've ever made in your life. Props to you! Cheers.

    • @benholroyd5221
      @benholroyd5221 6 หลายเดือนก่อน +697

      I hope that when I make my first mistake, I too will have the courage to own up to it.

    • @thekuba9352
      @thekuba9352 6 หลายเดือนก่อน +253

      the pause after he confessed was gold aswell.

    • @electricpaisy6045
      @electricpaisy6045 6 หลายเดือนก่อน +76

      actually most of the science channels do this. That's a way how you can see if a source is legit or bs.

    • @SlyPearTree
      @SlyPearTree 6 หลายเดือนก่อน +59

      He's not that great, this is clearly a Matt Parker video with a some cameos by Steve Mould but Matt is not mentioned anywhere in the title.

    • @Nico-pb1sr
      @Nico-pb1sr 6 หลายเดือนก่อน +63

      ​@@electricpaisy6045it's a joke that it's the only mistake he's ever made.

  • @Zahaqiel
    @Zahaqiel 6 หลายเดือนก่อน +703

    It's worth mentioning with air locking that air is more compressible than water, which means for the air to exert as much force on the next stage of water, the water behind it has to be exerting more pressure on the air than it would need to on just more water.
    In your three-stage demonstration, the water and air have time to find their natural equilibrium such that the pressure being exerted between each section of air and water equalises with the outside air. So the air inside is uncompressed, and when the water is forced to move again, the air will begin compression before it starts exerting enough force to start moving the next section of water at the same rate as the water behind it. It's kinda like pushing a block of wood with another block of wood via a spring... but also up and over a hill.

    • @williamsalgado9738
      @williamsalgado9738 6 หลายเดือนก่อน +11

      perfect explanation

    • @chrissinclair4442
      @chrissinclair4442 6 หลายเดือนก่อน +13

      Yeah, that's part of the principle behind a hammer pump. The compressible air acts as a spring.

    • @kyles5960
      @kyles5960 6 หลายเดือนก่อน +3

      Beitiful explanstion

    • @Zahaqiel
      @Zahaqiel 6 หลายเดือนก่อน +3

      @@chrissinclair4442 Got to love the simplicity of the hydraulic ram pump.

    • @Trip_mania
      @Trip_mania 6 หลายเดือนก่อน

      That's incorrect, the air pressure doesn't equalize, otherwise the water would fall back to the bottom of each section. You can see that at rest the water surface is higher on the right than in the left which can only be due to differences in air pressure.

  • @michaelterry1000
    @michaelterry1000 6 หลายเดือนก่อน +76

    ONCE AGAIN, I tip my hat to TH-cam.
    I was a horrible student in school. Even though I have a college degree I chose the path of least resistance in getting that degree. If I were in a class room and someone was trying to teach me the physics of a pump my eyes would just simply glaze over. Here, a combination of the comfort of my living room, the ability to re-watch portions of the video, the lack of stress from worrying about what was going to be on the test and the generally entertaining skills of the hosts and who he interviews results in genuine education.
    Needless to say, that education is also 100% free.
    Hats off to youtube.
    Thank you for your post.

    • @SirMikeyD
      @SirMikeyD 2 หลายเดือนก่อน +5

      Best, most succinct summary I’ve yet seen of the advantages of educational video-on-demand. TH-cam and similar services (Patreon, Vimeo, etc.) are incredibly powerful learning tools for the reasons mentioned.

    • @jacobmarshall5391
      @jacobmarshall5391 2 หลายเดือนก่อน

      Thank you two, for being the silver linings, in a world that loves to complain.

    • @indienag5108
      @indienag5108 22 วันที่ผ่านมา

      @@jacobmarshall5391 aren't they just complaining about actual education?

  • @kimjunkmoon2298
    @kimjunkmoon2298 6 หลายเดือนก่อน +90

    To make the first smaller model work, you could make the diameter gradually smaller along with the radius, so the inner rings have the same volume as the outer rings.

    • @hawkytalkyy
      @hawkytalkyy 3 หลายเดือนก่อน +4

      That could result in the challenge of increased surface tension though, which was one of the challenges he already was facing. But good point!

  • @grahamcracker_wookie
    @grahamcracker_wookie 6 หลายเดือนก่อน +155

    What's really cool is that you don't need any back flow prevention valves with these. The air lock stops the reverse flow of water if it stops. I work in irrigation sales and engineering and this stuff always amazes me. The physics of any pump system and how to create pressure is just cool stuff.

    • @KayleMaster
      @KayleMaster 6 หลายเดือนก่อน +9

      I had one of these. Back flow valve actually helped increasing the head, pretty much double.

    • @vpmojarvideo26
      @vpmojarvideo26 6 หลายเดือนก่อน

      What's really cool is that you don't need any back flow prevention valves with these. The air lock stops the reverse flow of water if it stops. I work in irrigation sales and engineering and this stuff always amazes me. The physics of any pump system and how to create pressure is just cool stuff.

  • @thot_experiment
    @thot_experiment 6 หลายเดือนก่อน +637

    "the 2d fluid mechanisms explanations channel" is my favorite channel and i never miss an upload

    • @HolloMatlala1
      @HolloMatlala1 6 หลายเดือนก่อน

      🥴

    • @_miobrot_603
      @_miobrot_603 6 หลายเดือนก่อน +22

      the 100% that's what water looks like channel

    • @praveenb9048
      @praveenb9048 6 หลายเดือนก่อน +7

      I hear he has a huge number of fans in Flatland.

    • @syrus3k
      @syrus3k 6 หลายเดือนก่อน +2

      I also enjoy your other non fluid videos Steve

  • @zenglom
    @zenglom 6 หลายเดือนก่อน +69

    Wow! This is why my AC leaks inside my room even though the tube is going mostly down. I am close to getting my PhD in physics and I did not know this at all. Thanks a lot for this video!

    • @petersack5074
      @petersack5074 5 หลายเดือนก่อน +8

      Most modern educational programs, leave out ' mother nature '..../ Gravity and atmospheric pressure , function hand - in - hand. THAT, is not taught ! One must know , and understand that relationship. Which is why , any good engine mechanic, can fix any engine . For me, it is small engines / any type . 2 cycle / 4 cycle...diesel, whatever. The gravity -weight / fluid density / surface tension of all liquids, varies. Whatever equipment your using / fixing, you should understand that, and fix accordingly. Carburetors especially - fuel injected, not so much as understanding ' hydraulics '. Anyway....good luck in your studies, SIR ! (brother was electrical engineer, nephew was A+++ chemical engineer - i'm an electronics / computer tech. ))

    • @Psilomuscimol
      @Psilomuscimol 7 วันที่ผ่านมา

      ​@@petersack5074I'm decent with electric powdered stuff. I have a good ebike

  • @emilejetzer7657
    @emilejetzer7657 6 หลายเดือนก่อน +42

    This made me think of how some mechanical vacuum (and probably other) pumps are made, with two interlocking spirals, one static, and one spinning, trapping fluid towards the centre and out (or towards the edge and out, depending). They’re thin enough that they can be stacked and powered with the same motor, getting down to a pretty low pressure.

    • @Chris-du7hi
      @Chris-du7hi 6 หลายเดือนก่อน +3

      Scroll pumps, neat stuff.

  • @TimeBucks
    @TimeBucks 6 หลายเดือนก่อน +1530

    Wonderful explanation!

  • @SimpleEarthSelfReliance
    @SimpleEarthSelfReliance 2 หลายเดือนก่อน +1

    The amount of questions this answered for me about water in my long range water pipes over the hills is priceless.
    Thanks Steve.

  • @atimholt
    @atimholt 6 หลายเดือนก่อน +509

    Just had a thought. You can totally sidestep the problems of a change in radius by wrapping the tubing around a cylinder instead of spiraling inward. It'd also let you have an arbitrarily huge number of windings.

    • @lemonlemonlemonlemonlemonlemo
      @lemonlemonlemonlemonlemonlemo 6 หลายเดือนก่อน +39

      i wonder, would that be more or less efficient?

    • @reaganharder1480
      @reaganharder1480 6 หลายเดือนก่อน +110

      @@lemonlemonlemonlemonlemonlemo As someone who first learned of these pumps in this video, I expect efficiency would be quite similar, if not perhaps a little higher due to all your windings being the same diameter. I'd love to see it tested though, and honestly I am very much wishing that I lived next to a stream/river right now.

    • @GiantSavage117
      @GiantSavage117 6 หลายเดือนก่อน +76

      I think this would be less efficient because of how the air locks work. With the spiral design the pressure is more concentrated in the inner radius of the spiral because there is more water pressing on it from the longer parts of the spiral. If you have a uniform radius spiral the pressure will be more evenly distributed and therefor have less pressure to push it up the line in the end. This is just an educated theory though, im no expert with mathematics or fluid dynamics. This needs some experimentation to prove. Great idea by the way.

    • @bgugi
      @bgugi 6 หลายเดือนก่อน +22

      I believe you'd still want a decreasing diameter - because the absolute pressure at each stage increases, the pad of air shrinks somewhat as it moves through the pump. It isn't a huge effect, your pad should lose half its volume at 33 ft of head on the output.

    • @leojohn1615
      @leojohn1615 6 หลายเดือนก่อน +11

      @@GiantSavage117 ok im defintly not qualified to talk on this but could you make up for it by narrowing the pipe as it goes round the cylinder?

  • @ameteuraspirant
    @ameteuraspirant 6 หลายเดือนก่อน +102

    I was so pumped to watch this and then it vanished! I thought I was going crazy.

    • @Donclat
      @Donclat 6 หลายเดือนก่อน +9

      It went bad for me when he was saying "I don't make mistakes in my videos" lol

    • @benholroyd5221
      @benholroyd5221 6 หลายเดือนก่อน +17

      "pumped"
      I see what you did there....

    • @Lord_common_sense
      @Lord_common_sense 6 หลายเดือนก่อน

      ​@@benholroyd5221ye a bad joke but that attract likes easily

    • @bradley3549
      @bradley3549 6 หลายเดือนก่อน +3

      I lost it right when the chap was explaining to Steve why his first design failed. Talk about a cliffhanger.

  • @ericlondon5731
    @ericlondon5731 6 หลายเดือนก่อน +3

    In the 90's I helped a primitive camp site make a water supply .
    It was a 100' deep 3" dia. bored hole in sandy soil with a pvc casing. With no mains power, and only 12 volt solar, we took a small air pump to inject air in to a 100' line which injected its pressure into an ascending 3/4" line up into a water tank, some 20' up above ground level. A check valve at the bottom of the airline prevented water from filling backwards up the air line.
    It worked great.
    The drawbacks being waiting for more water when the supply tank had not filled yet under heavy demand.

  • @AvarFeralfang
    @AvarFeralfang 6 หลายเดือนก่อน +2

    I always wondered about pumping water with a water wheel. Thanks for the demo.

  • @TheRealDrJoey
    @TheRealDrJoey 6 หลายเดือนก่อน +416

    This pump reminds me of a water ram, which has always seemed to me like (almost) getting something for nothing.

    • @misterdeedeedee
      @misterdeedeedee 6 หลายเดือนก่อน +97

      obviously nothing is free, it uses flowing water which is gravitational kinetic energy, but on the human scale it is functionally free since it is energy we would really never be using otherwise nor does it have any appreciable effect on the system or environment (like a dam). its about as "free" as solar and geothermal and such.

    • @TheRealDrJoey
      @TheRealDrJoey 6 หลายเดือนก่อน +55

      @@misterdeedeedee Duh.

    • @misterdeedeedee
      @misterdeedeedee 6 หลายเดือนก่อน +32

      @@TheRealDrJoey then why even bother making your original comment 🙄

    • @TheRealDrJoey
      @TheRealDrJoey 6 หลายเดือนก่อน +73

      @@misterdeedeedee Why bother re-stating, in many more words, the point I'd already made?

    • @prdoyle
      @prdoyle 6 หลายเดือนก่อน +9

      Yeah, they both seem like perpetual motion until you look really closely.

  • @Hogscraper
    @Hogscraper 6 หลายเดือนก่อน +211

    Love seeing Matt Parker doing Matt Parker things and even cooler you both found reason to visit this amazing pump! It's always amazing to see older tech with such a novel approach to solving a problem.

    • @user-gu2fh4nr7h
      @user-gu2fh4nr7h 6 หลายเดือนก่อน +3

      but what if... it's not Matt Parker

    • @NotKyleChicago
      @NotKyleChicago 6 หลายเดือนก่อน

      ​@user-gu2fh4nr7h then it's a "Parker bog" in the sense of "Parker square"

    • @swedneck
      @swedneck 6 หลายเดือนก่อน

      @@user-gu2fh4nr7h matt faker

    • @standupmaths
      @standupmaths 6 หลายเดือนก่อน +18

      I cannot believe Beard Matt is making videos with Steve behind my back.

  • @M0RN1NGD0V3
    @M0RN1NGD0V3 4 หลายเดือนก่อน

    the energy of this video is so positive, calm and friendly thank u for sharing

  • @slickrick3650
    @slickrick3650 5 หลายเดือนก่อน +11

    Hydra-Lock was a term an old boss of mine coined that would happen when torquing bolts when rebuilding transmissions. If there were any fluid in the blind holes, the seal of the part that was being torqued would sometimes fail due to a small amount of fluid being overlooked in the bottom of the hole not allowing matting surfaces to hold proper amounts of pressure.

  • @lanceanthony198
    @lanceanthony198 6 หลายเดือนก่อน +62

    This is honestly the Wirtz pump design I’ve ever seen…

    • @smilerbob
      @smilerbob 6 หลายเดือนก่อน +12

      I think the puns are going to _spiral_ out of control with this video

    • @benholroyd5221
      @benholroyd5221 6 หลายเดือนก่อน +6

      I think its wirtz it though

    • @patricktilton5377
      @patricktilton5377 6 หลายเดือนก่อน +2

      The water comes out the other end in 'SQ'-Wirtz units . . .

    • @copperstaterocketguy1640
      @copperstaterocketguy1640 12 วันที่ผ่านมา

      ...OHHH mannn those dad jokes😜😜

  • @defendermandrake7546
    @defendermandrake7546 6 หลายเดือนก่อน +15

    6:04
    I appreciate the irony that you initially thought surface tension was the problem in the maze video, and then when you make a video showing off a practical use of airlocking, surface tension is what stopped the first version of the pump from working.

  • @neilmcmahon
    @neilmcmahon 5 หลายเดือนก่อน +1

    I love the way the garden pump is using the flow of the river to cause pumping rotation. Quite ingenious.

  • @Andreas-ov2fv
    @Andreas-ov2fv 6 หลายเดือนก่อน +12

    My natural sciences teacher remarked on a similiar effect to the trouble you had with pumping water into the tube. He called it the pipette effect. I'm transliterating that from Norwegian and am not able to find a citation for it, so I expect it's known by another name. As I understood it it shouldn't have happened with a tube that diameter, but possibly the coloring added to the water made it more viscous.
    He was trying to explain to us how water will always, if in continuous contact, level out. Kids' stuff, but he was an excellent teacher so he had made a glass cutway device to demonstrate for us. The device had five vertical glass pipes of varying diameter, the largest probably two centimetres and the smallest in the low milimetres, connected at the bottom by a horizontal channel with a diameter of about a centimetre. The pipes were spaced maybe half a centimetre apart, edge to edge, and open to the air at the top.
    He called out the question of how the water would behave if he poured it into the largest pipe? We were kids, so the theories varied, but in the end most rallied behind the idea of the water levelling. And of course it did - except in the smallest pipe, where it squeezed higher vertically by about a centimetre compared to the other pipes. He said we were in essence correct, but that there were lots of oddities and exceptions in science that were equally fascinating as the truths and rules, and that he didn't expect us to know about or being able to hypothesize "the pipette effect" at age 10. It's funny the things you recall 30 years later.

    • @salaciousBastard
      @salaciousBastard 2 หลายเดือนก่อน +1

      Was the last pipe a result of some sort of capillary action?

    • @Andreas-ov2fv
      @Andreas-ov2fv 2 หลายเดือนก่อน

      @@salaciousBastard That looks like precisely the right term, in English. The glass he used was remarkably like the one with the blue fluid in this article, except that the diameters were wide enough that only the last pipe showed the effect.
      www.usgs.gov/special-topics/water-science-school/science/capillary-action-and-water

    • @WJS774
      @WJS774 หลายเดือนก่อน +1

      Remember that in the first model, the "pipes" aren't round, so they don't actually _have_ a "diameter". They may appear fairly large in the plane that we are observing from, but they are much flatter than they are wide. Capillary action only requires one dimension to be small to take effect.

  • @Devil-Made
    @Devil-Made 6 หลายเดือนก่อน +214

    I just realized why I like your videos so much. I’m not an engineer. I like to know how things work, but often your topics are a bit advanced for a casual learner like myself (funnily enough, not this video). But I’m still drawn to these videos. I think it’s because I’m a visual learner, and you present everything visually and with great attention to detail. Whenever I explain things to others I often wish I could manipulate the image, or diagram, or make it 3-D, or color different parts, all to make the explanation easier to understand. Even when I’m just explaining a project or setup or something to myself, I’ll often visualize in my head color-coded segments, or identifying numbers, or what the internal mechanisms look like when in action. You do that. The way you present your videos is very similar to the way my brain works. It’s pleasing to watch even if some subjects are a little beyond me. Thanks for so many great videos!

    • @richardwebb2418
      @richardwebb2418 5 หลายเดือนก่อน +2

      Yup. This. 👌👍

    • @dolf1n1
      @dolf1n1 4 หลายเดือนก่อน +2

      well said totally agree

    • @jurajpartl4797
      @jurajpartl4797 2 หลายเดือนก่อน +2

      I am a bit late to the party, but Veritasium has a video titled "The Biggest Myth In Education" about how learning types (such as visual learner) are not correct and do not make a difference. I think it is true that some of us are better at math and some are better in remembering things, but after all, we all learn the best the same way. I really encourage you to watch it, it is very high quality video based on experiments and data, so next time, you will know that we all learn the same way and everyone is and isnt a "visual learner"! ;)

    • @thecoffeeshrine2062
      @thecoffeeshrine2062 หลายเดือนก่อน

      @@jurajpartl4797 My issue with that video is that they try to single out methods by stimulus, when learning typically happens better with repetition and with engaging more senses. Repetition also means you are spending more time receiving the information to commit to memory which introduces 'frequency of a stimulus' to assist in committing information to memory.
      When he showed a visual AND said a corresponding word, generally people could remember the information better; another caveat is that people that initially performed better ALSO used other memorization techniques to enhance/overcome the challenge of just 'rememberizing' using ONLY a visual flash card OR hearing a word.

  • @YodaWhat
    @YodaWhat 6 หลายเดือนก่อน +46

    *You need to have the vertical riser divided into small channels, to prevent the air bubbles rising too easily and rapidly.* I recommend using a bundle of small-diameter tubes. For convenient handling, you can stuff the bundle inside a larger tube. It might even help you to have most of the spiral divided that way too, as narrow channels. @SteveMould

    • @BruceNJeffAreMyFlies
      @BruceNJeffAreMyFlies 3 หลายเดือนก่อน

      What's the downside of not having it divided? Does the water create too much back pressure as it falls, or?

    • @YodaWhat
      @YodaWhat 3 หลายเดือนก่อน +2

      @@BruceNJeffAreMyFlies - The basic problem is explained in the 'airlocks' section around 2:20, where _too great a height_ the liquid must be lifted prevents liquid flow. Similarly for the vertical riser of the output, too great a liquid height will prevent liquid flow, possibly rendering the pump useless. But the liquid previously had air bubbles in it. If the bubbles can be prevented from coalescing and rising to the top, then the average liquid density is lower, so it can be lifted higher by the spiral pump. _Small diameter tubes slow the merging and rising of the entrained air bubbles._ Thus a tubing bundle in the vertical riser will enable pumping to a greater height, without making the pump larger.

  • @thaddeuswalker2728
    @thaddeuswalker2728 6 หลายเดือนก่อน +4

    I did something similar in javascript and browser graphics and made a spiral that goes in faster to maintain a similar volume for the incompressable liquid and a shrinking volume for the gas. I was just thinking in terms of compressing gas and using the raised liquid to also compress in a separate mechanism gas as it returns I had in mind two grooved panels of something, perhaps plexiglass would work for your needs and a sheet of metal for the spiral. It seems to me like teflon coating might be ideal.

  • @spruce1509
    @spruce1509 6 หลายเดือนก่อน +47

    I find the fact his pump is powered by the river as well very satisfying. It's really cool he was so happy to help you out as well

  • @Xiradrem
    @Xiradrem 6 หลายเดือนก่อน +68

    I love these! Here in Brazil we use something called "carneiro hidráulico" - I think it translates to gravity pump in English. But it's a way to move water up from a reservoir using only the water weight from it. You should take a look, I think you'll find it very interesting as it also uses pressure to move things up.

    • @mralistair737
      @mralistair737 6 หลายเดือนก่อน +31

      That is called a ram pump in english, or a hydraulic ram pump. neat things

    • @zorak964
      @zorak964 6 หลายเดือนก่อน

      Boa recomendação!

  • @pierrevillemaire-brooks4247
    @pierrevillemaire-brooks4247 6 หลายเดือนก่อน

    This video is a shinning example of how collaborative work can reach the whole world 😀

  • @ryanhass8716
    @ryanhass8716 หลายเดือนก่อน

    The videos of yours that I've seen have been interesting, informative, and quite laid back. You look to put a lot of effort into your videos and you have a calming voice. Good stuff, sir.

  • @David-yz6kr
    @David-yz6kr 6 หลายเดือนก่อน +22

    I am amazed that after all this years I took an interest in such topics there still are apparently lots of seemingly simple topics and effects I never came across or thought about. Brilliant!

  • @lebeinderbadewanne
    @lebeinderbadewanne 6 หลายเดือนก่อน +76

    Also an interesting pump mechanism ist the hydraulic ram pump. I've seen these pumps a few times here in the Swiss Alps when alpine herders had to pump water to higher ground without electricity.

    • @Rubrickety
      @Rubrickety 6 หลายเดือนก่อน +29

      It’s very cruel to the poor rams, though.

    • @Bbonno
      @Bbonno 6 หลายเดือนก่อน

      How about driving a ram pump with a pump like this? It's probably hard to make that work, but it would remove the need to go downhill from the intake.

    • @tylermcnally8232
      @tylermcnally8232 6 หลายเดือนก่อน +1

      ​@@Bbonno this pump won't generate much head pressure. So effectively a useless pump.

    • @Bbonno
      @Bbonno 6 หลายเดือนก่อน +4

      @@tylermcnally8232 don't ram pump typically triple the pressure by wasting some of the water?

    • @JohnnyWednesday
      @JohnnyWednesday 6 หลายเดือนก่อน +2

      @@Rubrickety - that's the whole point - the swiss famously hate Rams

  • @JethroTanko-kt2ln
    @JethroTanko-kt2ln 6 หลายเดือนก่อน +2

    Amazing explanation, just love the fact that they exist an automatic free water pump that works with just the a stream of water😊

  • @Alistr2001
    @Alistr2001 6 หลายเดือนก่อน

    @SteveMould I remember getting to see you live from a maths / science talk in Manchester back when I was in high school. It must have been at least 7 or 8 years ago. I think you demonstrated the Mould effect with the beads. I'm glad I fond your channel after all this time.

  • @patrickrollinson2724
    @patrickrollinson2724 6 หลายเดือนก่อน +118

    I saw this pump mechanism being used on the White Nile in Uganda, it used the fast flowing water to spin a water wheel on which the spiral was mounted. I have always wondered how it actually worked

    • @user-jo3gj1jx3e
      @user-jo3gj1jx3e 6 หลายเดือนก่อน

      I wonder if this was an Archimedes screw which I've seen used for pumping water from the Nile into irrigation ditches?

    • @Grunttamer
      @Grunttamer 6 หลายเดือนก่อน

      no an archemedes screw is like a ramp that spirals around a central point more like a spiral staircase. @@user-jo3gj1jx3e

    • @ynraider
      @ynraider 6 หลายเดือนก่อน +3

      @@user-jo3gj1jx3e Africans invented this screw...Archimedes trained in Africa...
      It's a Kemetic screw...

    • @vyor8837
      @vyor8837 4 หลายเดือนก่อน +1

      @@ynraider egypt was more Mediterranean in people and culture, not super african.
      It's also from around 300BC.

  • @JohnnyTiscali
    @JohnnyTiscali 6 หลายเดือนก่อน +19

    Honestly the shot of the earlier Wirtz pump is very beautiful, I absolutely love the contrast!

  • @whyjnot420
    @whyjnot420 3 หลายเดือนก่อน

    Never heard of these before but as soon as I saw the image and title I had to concur. That is pretty clever.

  • @philjafo2
    @philjafo2 6 หลายเดือนก่อน +198

    This is remarkably similar to the way a scroll compressor works in an air conditioner

    • @Heretic306
      @Heretic306 6 หลายเดือนก่อน +15

      That's exactly what I thought when I saw the thumbnail. There is clearly some of the same principles at play here. Collecting from the outer edge and moving air/fluid into the center outlet. In one case the pump itself is moving, and in the other there is second scroll essentially performing that function.

    • @truongtran-sl6rh
      @truongtran-sl6rh 6 หลายเดือนก่อน

      ok

    • @phongtran-mw9dm
      @phongtran-mw9dm 6 หลายเดือนก่อน

      zzz

    • @KhueDinh-bd8ym
      @KhueDinh-bd8ym 6 หลายเดือนก่อน

      zzz

    • @nguyennguyen-mt3fe
      @nguyennguyen-mt3fe 6 หลายเดือนก่อน

      zzz

  • @pirobot668beta
    @pirobot668beta 6 หลายเดือนก่อน +23

    I've seen a pump like this used 'backwards' as a gas-meter.
    Gas flows into the center bit, causes the spiral to rotate.
    A counter keeps track of rotations.
    The working fluid part would be an oil of some sort.

  • @dolf1n1
    @dolf1n1 4 หลายเดือนก่อน

    Thanks great video and update on the water maze and handy helpful sponsor!

  • @nickanderson8305
    @nickanderson8305 6 หลายเดือนก่อน

    I will be building one of these for my garden. Thank you

  • @FlaneerBeer
    @FlaneerBeer 6 หลายเดือนก่อน +21

    I love how he could have just used transparent tubing in the first design, but of course Steve built a transparant cut-through version

    • @StarkRG
      @StarkRG 6 หลายเดือนก่อน

      It looks like he already tried with transparent tubing (he showed the guy two versions), but the tubing he used was too small.

  • @SuqMadiq
    @SuqMadiq 6 หลายเดือนก่อน +18

    There is a gold concentrating device that uses a similar spiral to seperate gold from the black sand. Not a plug, but I believe it's called the "gold wheel".
    It doesn't use an airlock, but it does use the geometry of a spiral to carry the denser gold up to the center of the spiral while the black sands are washed out by water.

  • @matthewmiller6068
    @matthewmiller6068 4 หลายเดือนก่อน +2

    Around 3 minutes, you did a way better job explaining why dehumidifier, HVAC, and humidifier drain lines are so critical to avoid any "humps" than EVERYTHING else I've ever read or understood.

  • @1.thomasalmeida
    @1.thomasalmeida 6 หลายเดือนก่อน

    🤯using the mesh was a game changer 🎉thanks for the video

  • @HellecticMojo
    @HellecticMojo 6 หลายเดือนก่อน +8

    "I need to find a transparent version or it's not a Steve Mould video"
    Damn straight

  • @smithno13
    @smithno13 6 หลายเดือนก่อน +45

    I like your logic behind turning it by hand but I think a steady speed is important. Every time you stop and start I saw the top section of water lose it's airlock and flow down into the next - With steady pressure that may not happen. Hopefully you revisit this one someday!

    • @matthewjohnson3656
      @matthewjohnson3656 6 หลายเดือนก่อน

      You mean the part in the vertical tube going up? Depending on your intent and design, it may not matter. Getting rid of the air locks in that section will reduce overall height you can pump but not volume over time. So if your spiral is big enough or the height is small enough, it wouldn't matter.

    • @NoName-zn1sb
      @NoName-zn1sb 6 หลายเดือนก่อน

      its airlock

  • @FunWithBits
    @FunWithBits หลายเดือนก่อน

    I always learn something new on this channel.

  • @voicessamples7396
    @voicessamples7396 27 วันที่ผ่านมา

    What a beautiful garden.

  • @xzendon
    @xzendon 6 หลายเดือนก่อน +44

    Cody's Lab made a version of this that works off of purely thermal gradient. I wonder if you could boost the effectiveness of the pump by doubling up and using both mechanisms at the same time. Additionally, I'd think that this would work best in the form a hose wrapped around a drum.

    • @JRNimmo
      @JRNimmo 6 หลายเดือนก่อน +5

      I'm interested by the idea of the hose around the drum and wonder what it would do to the efficiency

    • @willguggn2
      @willguggn2 6 หลายเดือนก่อน +2

      Intuitively some sort of spiral should be optimal, because the air columns gets compressed more and more with each rotation. The water should _just_ not overflow on every rotation for maximum pressure.

  • @iduncan5424
    @iduncan5424 6 หลายเดือนก่อน +7

    the way steve skips to the pump excitedly at 5:00 is so cute and awesome, truly has a childlike wonder for the things he shows us.

  • @tsilmanav
    @tsilmanav 6 หลายเดือนก่อน

    The first 3mins 30sec of this video are the coolest thing on the internet I've seen in the last year!

  • @richardwebb2418
    @richardwebb2418 5 หลายเดือนก่อน +3

    I genuinely love when you call out and correct your mistakes. That's engineering. Theorize iterate redesign, haha plus it's about knowledge over ego. 👌 Also he is Jonathan Deane if anyone else didnt read the description. Lol

  • @stevestarcke
    @stevestarcke 6 หลายเดือนก่อน +9

    Wonderful explanation! I ran into this problem when distilling dichloromethane with a spiral condenser. The multiple airlocks generated enough pressure to pop the stoppers on the apparatus. Now I finally know why. Kudos!

    • @chemistryofquestionablequa6252
      @chemistryofquestionablequa6252 6 หลายเดือนก่อน

      You're only supposed to use those condensers vertically running to your collection flask.

  • @Cerafem
    @Cerafem 6 หลายเดือนก่อน +4

    That pump your friend has is awesome, this is honestly a ton more interesting than just some archimedes screw design. Those separate chambers of air are basically storing energy as pressure between packets of (virtually) incompressible fluid so it makes sense you get so much extra vertical movement out of it.
    I had made a passive drip watering system for a container garden on my deck and learned you pretty much have to always think of it in terms of communicating vessels and +/- pressurized air chambers when you want to imagine what will happen. I didn't vent the 5 gallon bucket feeding the half inch irrigation tubing and the pressure of water pulling out without air pulling in *completely* collapsed it. Like exactly like seeing those metal barrels be heated, sealed, and cooled and watch it crush itself.

  • @ryugar2221
    @ryugar2221 6 หลายเดือนก่อน

    Yes sir, transparency is the most important thing to maintain 🙏🏻🙏🏻

  • @MadMathMike
    @MadMathMike 6 หลายเดือนก่อน +35

    You do some great videos, but this has been my favorite that I can remember recently! Corrections of past videos. Fascinating news concept. On location content from an expert in the field. Really, really liked this one!

    • @SteveMould
      @SteveMould  6 หลายเดือนก่อน +8

      Thank you!

  • @TheZoneTakesYou
    @TheZoneTakesYou 6 หลายเดือนก่อน +27

    Each slug of water also has its own surface tension battle to not get reduced to foam and allow the air to backflow

    • @Njazmo
      @Njazmo 6 หลายเดือนก่อน

      Water doesn't "reduce to foam", water can have 3 different states, solid, liquid, or gas. Foam isn't one of them.

    • @TheZoneTakesYou
      @TheZoneTakesYou 6 หลายเดือนก่อน +6

      ​@@Njazmo Lol. I'm not talking about a phase change.
      There's a point at which the surface tension of the minimum surface is overcome and air bombards through the liquid in channels which 'pulverize' the previously minimum-surface-area miniscus. As this happens, the water particles are knocked about randomly as if they were air particles. You can observe it briefly at 9:22
      The water reduces from plugs with minimum area meniscuses to turbulent foamy slush and then back to plugs when the air pressure reaches equilibrium.

  • @axavia
    @axavia 6 หลายเดือนก่อน

    That’s an absolutely beautiful garden!

  • @ted_van_loon
    @ted_van_loon 6 หลายเดือนก่อน

    very interesting pump indeed.
    it was indeed not the surface friction or such but instead the difference in relative proportions of the segments in general all segments will tend to only take the amount of efficiency/water as the smallest section+a little more due to the drain into the pipe as well as the spring effect of the air. the more stages difference the less of a effect but there remains a effec.

  • @HogwartsBasement
    @HogwartsBasement 6 หลายเดือนก่อน +3

    9:45 haha can you imagine the police walk round the corner at this point with that box full of what looks like blood water

  • @VeeTheGator
    @VeeTheGator 6 หลายเดือนก่อน +7

    I tried to make a spiral algae farm 'solar panel' using clear pipe and very soon had this effect stump me in reverse! The water lock on it was so high that my little eco pump couldnt overcome it from all the areas in the spiral and it didn't work!
    Great video and really amazing explanations as always! Thank you!

  • @tonynelligan1930
    @tonynelligan1930 16 วันที่ผ่านมา

    what really impressed me is this design is just a slightly diff. version of the archimede screw design that was used by the greeks and it was created around 250bc. also we still use the system in grain silos, waste treatment plants and of course pumping water. when this is around 10 times longer then we should be impressed with it.,

  • @rosychinaza6637
    @rosychinaza6637 6 หลายเดือนก่อน +1

    Great explanation

  • @FeastFamine
    @FeastFamine 6 หลายเดือนก่อน +7

    The output at height should be in a reservoir of water too to slow the water lock air bubbles from rising and pulling in atmospheric air; this will result in greater delivery height.

  • @Dynamic-Productions
    @Dynamic-Productions 6 หลายเดือนก่อน +85

    Such a cool idea! You chain them to get higher and use the power of the water to spin them (like a series of water wheels)?

    • @greyw0lv
      @greyw0lv 6 หลายเดือนก่อน +13

      You could probably chain them, but I'd expect it to be easier to just use a larger Wirtz pump if you need more height.

    • @HellaLegitFoo
      @HellaLegitFoo 6 หลายเดือนก่อน +5

      The size isn't infinitely scalable. There's a rather low limit to how large diameter the tubes can be before failure.

    • @nightbringar7558
      @nightbringar7558 6 หลายเดือนก่อน +18

      The main limitation of trying to chain them together is that you would have to power the rotation after a certain height. The flow coming out of even the first one might not be sufficient to force the next one to rotate.
      Once you're independently powering the rotation, in practical uses, you could just use a standard pump.

    • @absolutehuman951
      @absolutehuman951 6 หลายเดือนก่อน +3

      ​@@HellaLegitFooas far as I can see the real limit to the number of loops that could help highten the water level is the compression of air... Air bubbles will become squashed and slip. But you can probably mitigate it to some extent by cleverly arranging the ingoing spiral.

    • @RMDragon3
      @RMDragon3 6 หลายเดือนก่อน +7

      I don't think chaining them would be very easy, as the higher wheels wouldn't have anything to power them. You could pump extra water to create a current by letting some of it go back down, but that would probably be quite inefficient. And I'd guess that using the force from the exit of one pump to move the next wouldn't work (or at least not better than just using the first pump for the whole way) because of conservation of energy. If you had to chain them, your best option would probably be to put water wheels on the river itself and use gears and axles to move the higher pumps.

  • @TwilightMysts
    @TwilightMysts 3 หลายเดือนก่อน +1

    Somewhat to my amusement, I literally just independently invented this concept in my head a week ago. I did have a bit of a head start since I had seen concepts for spiral pumps, but they were limited to the center of the spiral, not several feet above the top. But I randomly got thinking about it and realized you could potentially pump it higher if done right. I actually came up with an idea that could potentially have a reasonably limitless height (meaning as high as you could build most structures that would need a pump, ie several hundred feet). It is purely abstract though, so I could easily have a lot of stuff wrong.
    But even though other people beat me to it by centuries, I think it is cool that I am able to come up with concepts like this on my own as well.

  • @fikus7879
    @fikus7879 23 วันที่ผ่านมา

    We have something similar at a "waterpark" (it's just a water path with multiple of these mechanisms) near where I live. But ours is different in the way that its open on one side (except for a small lisp to keep the water in) and also it doesnt push water upwards, only to the height of the center.

  • @IRaiIKyU
    @IRaiIKyU 6 หลายเดือนก่อน +15

    It would be quite interesting to do all these tests that work because of the airlock you mentioned with water mixed with soap, because i imagine that these tests would be very different if the water lost its surface tension. Maybe the pump stops working or the maze would fill up all the way because the soapy water could not trap these air pockets anymore

    • @yaksaredabomb
      @yaksaredabomb 6 หลายเดือนก่อน +1

      Great idea!

  • @_ninthRing_
    @_ninthRing_ 6 หลายเดือนก่อน +20

    In many ways this seems to be a version of the ancient Archimedes Screw, relying on gravity to provide some of the energy for the motive force moving the liquid.
    I'd be interested to see what modulations of the head pressure (water height) could be achieved by doing things like: changing the diameter of the vertical tube, adding a one-way valve, adding an air bleed valve, etc.
    Also, what effect having the spiral formed from a tapering cylinder, with quite a wide mouth (rather than the parallel-walled tube) would have on the system.

    • @fliegeesser4665
      @fliegeesser4665 6 หลายเดือนก่อน +2

      This is what I also concluded

    • @JosueReynoso
      @JosueReynoso 6 หลายเดือนก่อน +2

      The Arquímedes screw is the basic approximation, but this one is enclosed, so the physics in the system are very different. In Archimedes screw, the whole system operates at atmospheric pressure and water cannot travel higher than the screw itself. The pump in the video takes advantage of "air locks" to build pressure up, which is the whole point of the video.

  • @mikevanblommestein5726
    @mikevanblommestein5726 4 หลายเดือนก่อน

    Thanks for the clear explanation, I have a gravity feed water system to feed 3 troughs for some cattle, every now and then it stops working and it is an airlock situation , I have put a tap in the air loop so I can bleed off the air and then it starts flowing again :)

  • @shellsterdude
    @shellsterdude 6 หลายเดือนก่อน +36

    This is really interesting. It would be cool if you could also cover hydraulic ram pumps. I'd be curious which one is more efficient as well.

    • @RowanHawkins
      @RowanHawkins 6 หลายเดือนก่อน +5

      A hydraulic ram pump works off a high head pressure to get the water hammer happening. And then it can use that energy to push up much higher than the head side.

    • @the11382
      @the11382 6 หลายเดือนก่อน +4

      Since hydraulic ram pumps don't use air, they should be more efficient. Air is compressable, water is not.

    • @bosstowndynamics5488
      @bosstowndynamics5488 6 หลายเดือนก่อน +3

      ​@@the11382This depends on how you define efficiency. Ram pumps might use less energy per se, but they also waste water outside of the source reservoir, whereas this pump delivers 100% of the water that enters it to the endpoint.

    • @TaserFish-qn2xy
      @TaserFish-qn2xy 6 หลายเดือนก่อน +4

      The Wikipedia article for ram pumps says they can be built very efficiently. Like 60-80 percent in terms of energy efficiency.
      The problem is that you need a substantial speed/pressure difference. So they work best if you have a little dam rather than an open stream.
      Then you can divert a sizeable fraction of the whole stream.
      This pump can likely be built nearly 100% efficient in the tube part. But the waterwheel driving it is just the absolute bottom rung of hydropower - on the flip side, the ecosystem is undisturbed.
      If you drove it with a dam and a Kaplan turbine it would likely be more efficient than the ram pump. But at that point you're totally overengineerimg it.
      There are reasons why neither of these pumps are commonly used in large scale water infrastructure.

    • @TaserFish-qn2xy
      @TaserFish-qn2xy 6 หลายเดือนก่อน +4

      It still needs to "waste" the water to drive the wheel. 99% of the water is not ending up in the garden.

  • @cortx7
    @cortx7 6 หลายเดือนก่อน +7

    Keep up the awesome content, Steve!

  • @heartpirates245
    @heartpirates245 4 หลายเดือนก่อน

    Wow thats so weird (but also cool) to see. Jonathtan was my classical dynamics lecturer a few years ago when I was in uni. He did good for his students which was much appreciated and its great to see he is still passionate about his field!

  • @Erhannis
    @Erhannis 6 หลายเดือนก่อน +6

    It sorta looked like the river version had a thick tube in the river, leading to a thinner output tube. I wonder if that'd let you pump the water higher, and fix the problem where your air bubbles were escaping past the water in the vertical tube, compacting the load?

  • @joda7697
    @joda7697 6 หลายเดือนก่อน +61

    So basically, the height that you can pump water to is proportional to the diameter of the tube rings times the amount of winds? (assuming they're all at relatively the same diameter, as in not going toward the middle like your first failed pump)

    • @Pystro
      @Pystro 6 หลายเดือนก่อน +16

      Actually, about twice that product. (Because of the entrapped air that is mentioned at 6:27.) In fact, the actual height equals the diameter (of the windings) times the number of windings divided by the fraction (of the scoop's trajectory) that is below the water level. (Or something like that.)
      [edit:] This is assuming that the air doesn't bubble up in the vertical pipe. In reality the air will go up past the water in that pipe and the water will flow down past the air, limiting the height. In the worst case the height is indeed just the diameter times the nr of windings.

    • @fabeboggli4719
      @fabeboggli4719 6 หลายเดือนก่อน +3

      We all want to see the limts

    • @landsgevaer
      @landsgevaer 6 หลายเดือนก่อน +9

      @@Pystro the air also needs to be pressurized, and then decreases in volume, so it should be a bit worse than that. 😉

    • @hazza2247
      @hazza2247 6 หลายเดือนก่อน +2

      @@landsgevaerokay mr.🤓
      i was going to say the same thing

    • @thezyreick4289
      @thezyreick4289 6 หลายเดือนก่อน +3

      kind of, the stream still needs to be strong enough to turn the wheel.
      the more windings you have, the more water you have in the wheel, the heavier it weighs, and harder it is to turn.
      If you notice that guys setup, he has some pretty massive fins on his wheel, and that stream is flowing at a pretty good speed, but his wheel is turning very slow in comparison to the stream

  • @giga-chicken
    @giga-chicken 6 หลายเดือนก่อน +5

    If you're interested in pumping systems like this you could do a video on the physics behind a ram pump, great way of turning flow rate into head pressure.

  • @Billytomtom18
    @Billytomtom18 5 หลายเดือนก่อน

    Hello Steve I truly appreciate your knowledge and videos, we all need to learn how to think outside the box 😉

  • @X2yt
    @X2yt 6 หลายเดือนก่อน +5

    Not gonna lie, this is probably the coolest non-electrical way of water delivery I've ever seen. Placing this pump in a river to be powered by water flow is completely ingenious.

  • @HeisenbergFam
    @HeisenbergFam 6 หลายเดือนก่อน +9

    You know the video is hella good when Steve felt compelled to reupload this fine piece yet again

    • @Alpine_flo92002
      @Alpine_flo92002 6 หลายเดือนก่อน +1

      I was kinda worried about that since I recently got some really weird "time skipping" cuz if being stressed like hell

    • @Goku17yen
      @Goku17yen 6 หลายเดือนก่อน +1

      - 🤖

  • @nerosy7983
    @nerosy7983 3 หลายเดือนก่อน

    just love the way you get me hocked up for a video with me even noticing i satrted watching :D

  • @joe2mercs
    @joe2mercs 3 หลายเดือนก่อน

    Two observations. The first is that If you used PTFE tubing this would minimise the adhesive effect of the water molecules on the tube lining. The second is that perhaps the tubing does not need to be a diminishing spiral but might consist of drum of equal diameter coils set along side each other; the last coil bridging the radius to a central rotary outlet. A further refinement might the use of a non-return valve at the rotary outlet to avoid the need for surface tension within narrow exit piping to perhaps allow a water butt to be filled at an inlet at its base. Fascinating stuff.

  • @smity25ca
    @smity25ca 6 หลายเดือนก่อน +24

    I remember one of these on my grandpa’s farm, attached to a water wheel 7 or 8 feet in diameter. But it started out as 4” diameter and shrank in diameter, the closer the spiral got to the centre where it was about a 1” output 🧐

  • @stevensaunders1502
    @stevensaunders1502 6 หลายเดือนก่อน +12

    Great video Steve as always, demostrating the multipling effect of air fluidity in a sealed system, created by the air lock and water. As a mechanic this is something we try hard to avoid in cooling systems and Brake/ clutch systems as the air is compressable and leads the poor clutch and brakes or overheating. interesting to see it working in a positive way! As a mechanic there is something that is part of my daily work routine that has always confused me and would love to see you make a video explaining what is going on. I inflate car tyres to a given pressure while it is suspended off the ground and yet when I put it down and the weight of the car is pushing on those tyres, the pressure remains the same? Surly the 1 ton or so pressure of the car should increase the pressure in the tyre, yet it doesn't! why?

    • @sibbert1
      @sibbert1 6 หลายเดือนก่อน +1

      Apologies, just commenting because I'd also like to know the answer to this

    • @ratykat
      @ratykat 6 หลายเดือนก่อน +1

      Well now I need to know too! I wonder if it's because although there's extra weight, you're not changing the actual volume of air inside?

    • @fewwiggle
      @fewwiggle 6 หลายเดือนก่อน +4

      I think this 'analogy' works as a pretty good approximation of what is going on:
      Let's call each tire a torus. Let's say the car weighs 4000lbs. So each tire supports 1000lbs.
      The surface area of the tire torus is about 1000 sq in
      That 1000lbs it is supporting is trying to burst that tire, and its force is spread over 1000sq inches -- so, each sq in is only feeling 1 psi (pound per square inch) extra pressure.

    • @SimonASNG
      @SimonASNG 6 หลายเดือนก่อน

      I think it probably does go up, just not much relative to the total pressure. But yes, it would be interesting to see it studied more closely.

    • @bgugi
      @bgugi 6 หลายเดือนก่อน +2

      I think @@fewwiggle pretty much has it. The pressure has to go up, but it's only going to be proportional to the "smoosh" on the bottom of the tire. When the bottom of the tire flattens out to support the load, it slightly compresses the total volume of air inside the tire. The absolute pressure will rise inversely with its new size...
      i.e. if you had a 30 psig (gauge pressure) tire and it compresses 2%, the new pressure would be 44.5 psia (absolute) / 0.98 = 45.9 psia, or a 1.4 psi increase. If you had a precise gauge, and could properly control for cooling and leakage, i bet you'd be able to see a difference.

  • @miscellania4263
    @miscellania4263 หลายเดือนก่อน

    Thank you so much for shedding light on this early 'modern' technology! It's somewhat similar to another incredible water technology used almost two centuries ago in the North American West's mining bonanzas; that is Lester Allan Pelton's famous 'Pelton Wheel' of which there is a working replica at Disney's California Adventure in Disneyland Resort. His was a refined version of the water wheels mining companies were using for power, but the Pelton Wheel is unique in that it can draw incredible amounts of energy from even slow moving, or very low streams/rivers. They're actually still *very* popular in off-grid homes in Northern Canada like Yukon Territory and remote parts of Alaska where the mountain ranges give copious gravity-fed water sources in the spring and summer and are also STILL IN USE commercially in developing parts India and Asia much like the oldest parts of the British railroad in India/Pakistan.

  • @AASlayden
    @AASlayden 4 หลายเดือนก่อน

    Thanks! Great video as always! I humbly request, if convenient, that you update the maze video description with a correction regarding the reason for the liquid not fully draining.

  • @FetchTheCow
    @FetchTheCow 6 หลายเดือนก่อน +8

    I think you need a smaller diameter rising pipe. You can see starting at 12:02 that there isn't enough surface tension to support the weight of the higher slugs of liquid, so they slowly spill downward through the adjacent air gap.

  • @benoit-pierredemaine3824
    @benoit-pierredemaine3824 6 หลายเดือนก่อน +5

    0:57 chain fountains ?

  • @Aj-po9dc
    @Aj-po9dc 6 หลายเดือนก่อน

    Huh! I didn't know that air lock was cumulative.
    Thanks for teaching me something new!
    I work with water transfer and on the odd occasion, even with a diesel pump running, the source water wouldn't enter into the pump and be pumped to where it needed to go and I never knew why.
    This, I believe answers that question!
    The solution was always to remove the atmosphere from the water system, but this explains WHY!

  • @manuelneves248
    @manuelneves248 8 วันที่ผ่านมา

    Bravo, vous êtes génial ! Merci.

  • @u1zha
    @u1zha 6 หลายเดือนก่อน +6

    Would be great if this was taught in schools. The same lesson where you learned about joined vessels and levels being the same... would totally blow kids minds with a plot twist where air enters the tubes and changes the picture completely. Like at 1:40

  • @TimAyers
    @TimAyers 6 หลายเดือนก่อน +4

    Excellent video! What happens if you coil the pipe helically rather than spirally?

  • @jaylunoc6541
    @jaylunoc6541 6 หลายเดือนก่อน

    amazing how you've never made a mistake in a video before and also how my family is completely safe

  • @jaredtandle2596
    @jaredtandle2596 6 หลายเดือนก่อน +1

    Home inspectors need to watch this.

  • @dpearson80808
    @dpearson80808 6 หลายเดือนก่อน +6

    This reminds me of when I tried to get water out of a great length of coiled 1 1/4” plastic pipe. It was difficult. But I just kept rotating the coiled pipe

  • @harpintn
    @harpintn 6 หลายเดือนก่อน +3

    Since you like to do videos on fluid dynamics, I would like to see you talk about "bubble rings". How they are formed, why they rise to the surface so slow, and how they can merge.