Axial flux motors - The new hope

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  • Опубліковано 12 гру 2024

КОМЕНТАРІ • 2,5 тис.

  • @lloydprince5085
    @lloydprince5085 2 роки тому +445

    As an electrical engineer by training, I find this an excellent video. However, as a pilot by profession, I was totally distracted by the propellor rotation in the wrong direction for forward travel.

    • @8-7-styx94
      @8-7-styx94 2 роки тому +42

      They just needed to flip 2 wires though and it'd be fine =)

    • @flybyw
      @flybyw 2 роки тому +12

      or change the propeller pitch angle

    • @flybyw
      @flybyw 2 роки тому +20

      "If the wheel rotates faster than the frame rate, then the wheel will appear to spin backward instead of forwards. In each frame, the spokes have rotated and seem to be a few degrees behind the position it was at when the camera last imaged it. This is commonly known as the Reverse-Motion effect."

    • @whoswho6641
      @whoswho6641 2 роки тому +10

      @@flybyw what ? its an animation dude...

    • @flybyw
      @flybyw 2 роки тому +3

      @@whoswho6641 similar concept when the frame rate is relatively low and there is no motion blur

  • @johningham1880
    @johningham1880 3 роки тому +791

    I realise that every little helps, but surely the pitiful power density of the batteries is the limiting factor for aircraft?

    • @wassollderscheiss33
      @wassollderscheiss33 3 роки тому +165

      People just don't like to talk about the actual problems and rather address things that already have solutions or resort to PROMISES instead of reality. That's especially sad here because otherwise the channel is so good.

    • @mattb9343
      @mattb9343 3 роки тому +150

      Bingo. The motor itself is quite brilliant but does nothing about the fact it requires power to function. Power that even modern lithium-ion batteries aren't capable of supplying for long enough for higher energy aplications like aviation, shipping, and heavy industrial equpment.
      For better or worse battery powered vehicles best use case is limited to small passenger cars, and small ultra light air craft. When scaled up to shipping trucks and commercial air craft it stops making sense to use battery power really fast as the expense and weight logistics take over.

    • @ehtuanK
      @ehtuanK 3 роки тому +55

      @@mattb9343 Battery technology limits only a plane's range, not its size, since you can scale up the battery by the same factor as the rest of the plane. If small electric planes are economically viable for short range flights, there is no obvious reason why an up-scaled electrical plane shouldn't work for similar ranges. Same is true for other modes of transport: electric trucks, busses, and ferries already exist.

    • @ChucksSEADnDEAD
      @ChucksSEADnDEAD 3 роки тому +14

      @@ehtuanK EDIT: misunderstood the comment. For short hop flights it wouldn't be viable to use larger aircraft. It's preferable to have more flights with less seats on smaller aircraft.

    • @arcmchair_roboticist
      @arcmchair_roboticist 3 роки тому +79

      it's true, the gas for an efficient car to drive 400 miles weighs about 25kg, the battery of a tesla weighs about 500kg for about the same range. This is doable but expensive in a car, In a plane... forget about it. At least not for the foreseeable future unless some incredible breakthrough occurs.

  • @blackIce504
    @blackIce504 3 роки тому +78

    Another example would be many wind turbines use the same axial flux to generate power at low RPM due to the efficiency of having magnets on both sides of the coil in a Axial flux configuration.

    • @tomg3290
      @tomg3290 2 роки тому

      My brains in a knot...you sure?

  • @AndrewSmart32
    @AndrewSmart32 3 роки тому +847

    On todays episode of "A revolutionary new idea with seemingly no drawbacks which you will never hear about ever again"

    • @y2kmagna
      @y2kmagna 3 роки тому +53

      This is the motor used to spin the record/playback head on video tape recorders, another drives the tape.

    • @joshuasanford6934
      @joshuasanford6934 3 роки тому +89

      That's because they don't like to tell you the drawbacks. You won't see this again because the applications of it have many other issues that do not have a solution yet so thereby making this idea useless.

    • @papermaster7764
      @papermaster7764 3 роки тому +18

      The drawback will most likely not be the motor, but the power supply. If they're trying to replace( or be an alternative) prop engines then they have a long way to go.

    • @martyfrank
      @martyfrank 3 роки тому +26

      @@joshuasanford6934 Yep, A battery to power these motors for the average car would need to weigh 1 ton (imperial) to provide the energy equivalence of 10 gallons of gas (petroleum).

    • @loonyroxxs2482
      @loonyroxxs2482 3 роки тому +7

      @@martyfrank on top of a huge power supply what are they going to do with the old/broken batteries. I'm sure some form of recycling could be used but I don't think that the insides of used up batteries could be recycled (I may be wrong), so the question is where would it go? I feel electric cars and planes are just not the way to go for the future, unless we somehow got a dyson sphere built in next hundred years or if we find a very efficient and clean way to get energy. As the waste of the batteries and the energy cost used to even get battery materials far out way the benefits of the electric vehicles we have today. Though with time and research the idea of all electric cars and now possibly planes could come to reality..... Though now terrorists could just use EMPs to disable everything if that happens. analog is the only way to not get affected by that, that's a whole other topic.

  • @hotdogandahayride9823
    @hotdogandahayride9823 3 роки тому +374

    This is more about the differences between induction motors and EC motors. Most of the concepts presented apply to radial flux EC motors as well. The remark about large induction motors "sniffing up" huge currents at start-up is not only funny, it's also quite misleading. Motors are coupled to loads that often times have more inertia than the motor. The reduced inertia of the axial flux motor isn't what "keeps this issue under control". The motor controller is what limits start-up current. If we provide a controller (VFD or ASD) for the induction motor it too can start without that pesky sniffing up of huge currents.

    • @Jkirk3279
      @Jkirk3279 3 роки тому +12

      Yeah, I was half asleep and that “sniffing up” bit snapped me awake. My impression here is that they’re ignoring Tesla and trying to make a wind turbine generator into a motor.
      The problem being that when the magnets the torque goes dead?
      Tesla always had the leading coil pulling the following coil.
      I can imagine an array that staggers everything so there’s no cogging.
      A friend built a wind turbine generator and the cogging was FIERCE.

    • @gravesclay
      @gravesclay 3 роки тому +25

      Yeah, this video is trash, it sounds big and fancy, but these are literally just 3 / multi phase, compact brushless motors. They are already in use in things from drones, to power tools, to lawn mowers.

    • @titirititiri6360
      @titirititiri6360 3 роки тому +2

      Is that why they need capacitors for start up ?

    • @stellamolloy8907
      @stellamolloy8907 3 роки тому

      Why not offset the front and rear magnets so on start up they will pull towards the stator magnets in desired direction on start up.

    • @steveperreira5850
      @steveperreira5850 3 роки тому +18

      Dear hot dog: as an electrical engineer I am happy to see you clarify the situation and dispel the inertia situation. Although the inertia of the load can vary drastically at start up, as you say mini loads are completely dominant as a fraction of the total inertia. As a designer of electronic controls for electromagnetic devices, I am in total agreement that it is the controller itself that brings the whole situation into a refined condition of Power and energy management. Without electron it controls, the faraday motor is massively complicated mechanically. Hence the dominance of the induction motor for Nearly a century.

  • @w5monkey
    @w5monkey 3 роки тому +940

    I have not been this impressed since Rockwells' Retro encabulator.

    • @Kanken-jl7oe
      @Kanken-jl7oe 3 роки тому +75

      the turbo-encabulator was more efficient though...

    • @kayakMike1000
      @kayakMike1000 3 роки тому +59

      Hey, the retroencabulator would be absolutely nothing with out the panametric fan.

    • @Auttieb
      @Auttieb 3 роки тому +49

      Yeah but this can't synchronize my cardinal ghrammetrs

    • @Goat-vy2bi
      @Goat-vy2bi 3 роки тому +30

      I want a axial encabulator on my paralell energized polarized coil washer fluid

    • @senseisim6268
      @senseisim6268 3 роки тому +9

      Wut

  • @cadmean-reader
    @cadmean-reader 3 роки тому +440

    I remember when I first learned that electric motors appearing to operate so fluidly is just a lot of discrete actions done very fast. Blew my mind for a sec

    • @wybo2
      @wybo2 3 роки тому +31

      It REALLY depends on the type of motor tho. The induction motors shown in this video are hooked up to 3-phase sine-wave that creates a constant magnetic field that is smoothly rotating. Cheap DC-motors found in toys are also contious. Its only these new-fangled* motors with fancy electronics controlling them that have discrete steps.
      *I say new-fangled but these have been in existance since the 70's.

    • @borischan5252
      @borischan5252 3 роки тому +19

      keep in mind that everything in the universe seems like it is moving smoothly but the base of interaction/information is quantized

    • @foobarbecue
      @foobarbecue 3 роки тому +16

      Just wait until you hear about internal combustion engines

    • @AverageAlien
      @AverageAlien 3 роки тому +4

      Still inferior to a nice piston prop. Will always be inferior. Why try to make everything electric? Electric planes and cars are outdated ideas

    • @TheHuntercamper
      @TheHuntercamper 3 роки тому

      How quickly it is done.... amazingly

  • @Lesservector
    @Lesservector 3 роки тому +117

    What a fantastic demonstration. Great explanation on the concept of three phases. I would like to add, people have no idea how powerful shapes are. By simply changing the overall shape of the stator and rotor combination into a disc fashion rather than a traditional cylindrical fashion, you have shown how much more efficient it is.

    • @nathangendlephoto
      @nathangendlephoto 2 роки тому +2

      Similar to how disc brakes and drum brakes are

    • @frantzs1077
      @frantzs1077 Рік тому

      It is not. The main advantage is weight. Not really big advantage for cars, but in aircrafts might save enough weight for extra passenger. Hobby RC motors have 90+% efficiency.

  • @douggale5962
    @douggale5962 3 роки тому +24

    4:11 current always ramps as shown due to the effect of inductance. The slope is determined by the inductance of the coil and the voltage. No matter how much voltage you use, it will be a ramp.

  • @gleambrite2679
    @gleambrite2679 Рік тому +7

    I remember reading about this type of motor in 1992 and wondering why it wasn't in use back then. Yet here we are today. I had a gut feeling this would come back. Also with new materials like carbon fiber and titanium, I imagine better turbine engines used as generators. Open field today.

  • @sudeeptKJ
    @sudeeptKJ 3 роки тому +53

    Your Animations always helps to imagine in a very much better way and motivate me to learn physics regularly

    • @lastofthebest5102
      @lastofthebest5102 3 роки тому +4

      "in a very much better way". May want to learn English as well.

    • @BHBalast
      @BHBalast 3 роки тому +4

      @@lastofthebest5102 You should type "You may"...
      ;)

    • @sudeeptKJ
      @sudeeptKJ 3 роки тому +9

      @@lastofthebest5102 I am not a English Grammer Expert and I don't need to be. Someone understand what I am saying that's ok

    • @greenatom
      @greenatom 3 роки тому

      @@lastofthebest5102 You may want to learn some manners and not be a jerk.

    • @TheRealJamesKirk
      @TheRealJamesKirk 3 роки тому +1

      @@greenatom - really. That excrement gets antiquated.
      "Did you understand what Sudeept was communicating?" (yes/no)
      Yes.
      Then shut up.

  • @dasupalouie
    @dasupalouie 3 роки тому +281

    Trying to use the physics hand technique with this model is giving me cramps haha.

    • @mwanikimwaniki6801
      @mwanikimwaniki6801 3 роки тому +9

      Oh no. Now that you mentioned it

    • @robertbush9805
      @robertbush9805 3 роки тому +25

      are you referring to the right hand rule?

    • @pigpiggig
      @pigpiggig 3 роки тому +13

      3rd foot rule

    • @roncrotzer9861
      @roncrotzer9861 3 роки тому +4

      But hopefully only in your right hand...

    • @brainretardant
      @brainretardant 3 роки тому +2

      You should probably get your girlfriend to help you out. Left handed is no good as a rule

  • @Shadowed007
    @Shadowed007 3 роки тому +55

    Mercedes Benz just Bought YASA which designs and manufactures Axial Flux motors.
    And they also said that they will use it for High performance all electric AMG EQ variants
    This move will push Axial Flux motors into the mainstream.

    • @FixItStupid
      @FixItStupid 3 роки тому +1

      Cool

    • @lastofthebest5102
      @lastofthebest5102 3 роки тому +6

      Teslas patent of 1889 for the Axial Motor already made it "mainstream" more than 130 yrs ago, but ok. Seems as though Yasa just outright stole the Idea and claimed it for themselves along with Mercedes and Rolls.

    • @MyDemon32
      @MyDemon32 3 роки тому +2

      @@lastofthebest5102 this is not Teslas motor you bimbo.

    • @blau6832
      @blau6832 3 роки тому +5

      Mercedes buying Yasa means the technology is dead now.

    • @andrewharpin6749
      @andrewharpin6749 3 роки тому

      @@lastofthebest5102 Patents typically last for 25 yrs, not forever.
      YASA's tech is based on the Axial design, with improvements.
      "Standing on the shoulders of giants" comes to mind.

  • @jdlives8992
    @jdlives8992 3 роки тому +201

    I wrote a report about this type of motor in high school and got laughed at by my teacher. It was 1994 and I wrote about it being more efficient. I was heart broken. He said opposing fields bla bla bla. It really did mess me up a little...

    • @appidydafoo
      @appidydafoo 3 роки тому +60

      bad teachers are the worst, sorry you had to live under that shadow

    • @technik27
      @technik27 3 роки тому +6

      @@swingtag1041 Seeking strength in numbers is a smart strategy, and being smart is a quality I like in teachers. Plenty of great teachers in Europe, for example, where unions are just by default. Of course, there are good teachers and bad teachers everywhere. It's a little silly to just pick an orthogonal political issue and pretend it to be the cause for any of them.

    • @bobbellendovich6825
      @bobbellendovich6825 3 роки тому +22

      In 1982 a General Motors representative came to our science class and talked about electric cars, I suggested that they make some sort of system that makes power while the car is rolling. He laughed at me.

    • @technik27
      @technik27 3 роки тому +4

      @@swingtag1041 I'm not arguing with that, really. The school system has a lot of issues. But even if that's the most common answer you got, you still made two logical jumps in your reasoning. The first is assuming that a poorly functioning school system is just because of an abundance of bad teachers, when in reality, there are many factors. The second is equating bad teachers to weakness, to unions, which is just a non sequitur.

    • @gearandalthefirst7027
      @gearandalthefirst7027 3 роки тому +8

      @@swingtag1041 We know why US schools don't actually teach, and it's not unions, it's standardized tests. Basing the public school system off of fascist military schools didn't help either

  • @someonesays8022
    @someonesays8022 3 роки тому +12

    Once opened a lego dc brushed motor from the late 90's - early 2000 (first rcx lego mindstorms had the same motor). I noticed that is was very efficient also as generator, moving another motor connected to it easy. Also showing a very high efficiency. It had axial magnets just like this. The old floppy drives work in the same manner without brushes.

  • @Kriz10
    @Kriz10 3 роки тому +91

    Seeing this Working principle animation reminded me of BLDC Motor Animation made by Learn Engineering 5 years ago.

    • @Metaldetectiontubeworldwide
      @Metaldetectiontubeworldwide 3 роки тому +4

      Two for the price of one 😁😉

    • @nomen_omen
      @nomen_omen 3 роки тому +5

      Aren't they same thing?

    • @ruanrossato9541
      @ruanrossato9541 3 роки тому +11

      It's the same channel, they changed the name some time ago

    • @ldokonal1969
      @ldokonal1969 3 роки тому +2

      The only difference is the form factor. Doesn't matter if radial or axial, the principles are the same.

    • @CockroachSlidy
      @CockroachSlidy 3 роки тому

      So why do we need a custom motor when off the self solutions do the same thing?

  • @MarkBrown-gc6hr
    @MarkBrown-gc6hr 3 роки тому +4

    My final year project was to build an axial flux 3 phase induction motor in 1994. I learned a lot about motors that year.

  • @ArnoldsDesign
    @ArnoldsDesign 3 роки тому +7

    They use axial flux generators on smaller wind turbines too to eliminate the need for a gearbox as shown in Homebrew Windpower by Bartmann and Fink. The generator shown is much like this, though laminated iron cores aren't used. Though it lowers output, it eliminates cogging resonance, which increases life of the blades and other parts.

  • @Vorpal_Wit
    @Vorpal_Wit 3 роки тому +172

    Its the weight of batteries that makes electric aviation a non-starter, not the torque to weight ration of the motors - even common electic motors already have a relatively high torque to weight ratio.

    • @NK-rm7kc
      @NK-rm7kc 3 роки тому +11

      Exactly… this video is good so far imho, but the problem of electryfing any Aircraft is the weight of the battery caused by bad energy density.

    • @phoenixgazette5947
      @phoenixgazette5947 3 роки тому +4

      Would higher efficiency flux/phase modulation and/or shorter duration inputs help power usage? Less power usage seems to be the natural progression if possible.

    • @1224chrisng
      @1224chrisng 3 роки тому +3

      I think they're talking about little Cessnas and sea planes, not transatlantic jumbo jets
      but yeah, it wouldn't be viable for long trips due to the rocket equation

    • @jeffwells641
      @jeffwells641 3 роки тому +5

      OTOH batteries are getting better all the time. Electric aviation is no longer a complete non-starter, it's just not going to replace jumbo jets any time soon. It's already feasible to use them in short range applications, like commuter flights.
      A six passenger commercial plane is already in operation, and pretty much every major airline is committed to developing electric airplanes.
      The benefits of electric are also clear - the cost of electricity is about 1/20th the cost of jet fuel for the same distance flight.

    • @donb7113
      @donb7113 3 роки тому +1

      Though fuel is a huge weight factor in fuel engines.

  • @MYXAHUHU
    @MYXAHUHU Рік тому +1

    As a professor in the field of electrical machines, who has been engaged in axial machines since 1994, I will say that with the same volume of electrical steel, axial machines have 2 times less power due to the uneven magnetic saturation.

  • @ARBB1
    @ARBB1 3 роки тому +17

    The animation quality has greatly increased. Good work.

  • @johannesritter7601
    @johannesritter7601 3 роки тому +10

    Awesome Video. Just stunning work. The amount of detail and information is incredible. Great work!

  • @danielhoffmann67
    @danielhoffmann67 3 роки тому +30

    Comparing an asynchronous electric motor with a permanent induced one is like comparing apples with pears. It would have made more sense to compare this axial permanent induced motor with the radial one. But then it would become very clear that the difference between them is not that big.

    • @denispalmer1937
      @denispalmer1937 3 роки тому +1

      the problem is this design sucks, as it is not taking advantage of any of the advantages that can be achieved with this type system,

    • @zAvAvAz
      @zAvAvAz 3 роки тому

      @@denispalmer1937 What are the disadvantages versus the advantages, in a more advantageous design?

    • @denispalmer1937
      @denispalmer1937 3 роки тому +3

      @@zAvAvAz THE disadvantages of the shown design are heat produced larger size and weight, lower torque and power but add more expensive to build, limited applications,
      the advantages of the updated ( from my patents from the 80s, new patents higher efficiency 99% plus, little to no heat produced, able to position and hold not just rotate, so efficient a 1.5 volt pen lite battery will run a motor with a 300 lb rotor for hours, just to name a few, cost to build, no emi , we have measured outputs to 9 hp with a dyno, and at this time the power in was 900 watts, simply put, the new is beyond these like the difference between a water wheel and a turbine, the new design is so efficient ( no heat produced, in a stalled condition under full applied power for over a hour never got warm ( no cooling required, ) but never lowered torque applied and as soon as the load was lowered to where it could turn it turned, motor and generator, at the same time and as a generator has a perfect 1.0 power factor and no measurable distortion, and emi. . these motors can be plastic molded and our 3 ft diameter one has the capability of over 22000 lbs ft torque, with 60 volts applied and these motors have no inrush current requirements, a motor that has a maximum out put at 20 amps max RPM , at stall used .2 amps, should I go on,

    • @Charles-fn9qy
      @Charles-fn9qy 3 роки тому

      @@denispalmer1937 - sounds awesome, where do I find out more about the motors you are referring to? Are they available for purchase? how about using them as generators for a small wind turbine?

    • @zAvAvAz
      @zAvAvAz 3 роки тому

      @@denispalmer1937 This is fantastic news. i see the formula i made for lockheed and boeing being fulfilled. We shall make great uses of the new engineering for our coming golden age neighbor. Please write me a pm. Heaven is approaching.

  • @ronhoffman2405
    @ronhoffman2405 3 роки тому +31

    Outstanding! Clearly explained advantages. Easily defined control by a microprocessor. Amazing that technology takes an old idea and makes it the most desirable solution for today's propulsion systems.

  • @thall7368
    @thall7368 3 роки тому +1

    I used to work with axial flux motors/generators and they didn't operate on the principles expressed here. They work using the Lorentz force and had an ironless stator, which led to huge improvements in efficiency.

  • @dannywhite132
    @dannywhite132 3 роки тому +24

    These have been around for a while. The complexity, high manufacturing cost and difficulty, difficulty with cooling reducing efficiency, and just the overall design mean that its very hard to make a commercially viable version of these motors, especially when many other motors out there are easy to produce and can be just as fit for purpose

    • @ronaldjanert7456
      @ronaldjanert7456 3 роки тому +5

      Technology isn't static though. As with all technologies, time, experience, R&D, etc. lead to improvements that overcome the challenges and limitations. And we'd probably be light years ahead of current-state development in these kinds of motors if the fossil fuel industry and internal combustion engines hadn't taken over the world.

    • @dustinyoung3069
      @dustinyoung3069 3 роки тому +2

      @@ronaldjanert7456 As the technology matures, we will begin to see specialization. Currently Tesla's new PMSR motor design is a huge leap forward in the automotive transportation sector.

    • @gilbertfranklin1537
      @gilbertfranklin1537 2 роки тому +4

      Daniel, thanks for answering the question that was in my mind; "If axial flux motors are so much better, then why haven't they been in use for all applications?" Now I know. 😏👍

    • @jamescoppe
      @jamescoppe 10 місяців тому

      @@dustinyoung3069 do you think Tesla is actively developing a PMSR Axial motor?

    • @dustinyoung3069
      @dustinyoung3069 10 місяців тому

      @@jamescoppe They might have been, 2 years ago. I have no idea what they're doing now.

  • @andy347
    @andy347 2 роки тому +7

    We’ve been using these on electric radio controlled models for decades - allowed us to get high torque at lower prop speeds and therefore no gearbox required
    .

    • @gertnood
      @gertnood 2 роки тому +1

      And whose motors are those? We've been using radial flux brushless outrunners for a few years. For "decades" we were using brushed can motors. Then brushless inrunners, then outrunners added to the mix.

    • @andy347
      @andy347 2 роки тому +1

      @@gertnood You’re right, it was more like a little over a decade.

    • @andy347
      @andy347 2 роки тому

      @@TheForwardThinker I’ve been out of the hobby for years now…

  • @MsDhanselman
    @MsDhanselman 3 роки тому +17

    My 1994 textbook covers the detailed design of axial flux motors. After having worked on them as well as on more common radial flux motors, they have disadvantages that do not exist in radial flux motors. As a result, they will only ever appear in specialized applications. Even HDD spindle motors are radial flux and you would think that given how thin HDDs are, axial flux motors would be a natural fit, but they are not.

    • @ldokonal1969
      @ldokonal1969 3 роки тому +1

      I am long time fan of your book on BPM motors! It has been a reference for 20+ years and something that I ask anyone that wants to design motors to read before any trial (I have been working in BPM design in the last 30 years, mostly for refrigeration compressors an washing machines).
      I completely agree with you, axial BPM motors have problems hard to overcome and no benefits except on very special cases. Despite of it, time to time someone tries to bring it as a "revolutionary" solution even in applications where it is clear that they are not even a serious contender. Every time I see any respectable company spending resources on it for conventional applications I start to ask myself if they know something special or if it is just another case of a company that has no employee or good consultants for doing the homework (for decades the second case is by far the most common...)
      The bullshit we see around when the subject is electric motor design is something that really amazes me.

    • @escamoteur
      @escamoteur 3 роки тому +3

      What sort of disadvantages do they have?

    • @ldokonal1969
      @ldokonal1969 3 роки тому +7

      @@escamoteur one is heat removal. In conventional motors, most of the heat is generated in the coils and stator core, and both structures are in the external part of the motor, where simple heat extraction is easy to implement. Other is making the rotor and stator parts strong enough so the huge atraction forces don't cause flexions in the rotor parts. There are a few others problems due to manufacturing techniques, but those are harder to explain in not technical terms.
      All these problems have solutions, but solutions that come at a price tag and mass/volume increase that, in an apples to apples fair comparison, make them much less "revolutionary" than people promoting them tell us.

    • @yakir11114
      @yakir11114 2 роки тому

      you can easily reverse the axial motor so that the part the heats up is on the outside

    • @tonyduncan9852
      @tonyduncan9852 2 роки тому

      @@ldokonal1969 _"one (problem) is heat removal."_ - Especially if the motor is in a wheel hub. There is (now) a liquid magnetic oil which helps greatly to redistribute heat to the outside of the motor - however there's less viscous shear area to an equivalent radial flux motor. Heat removal will always be the largest problem.

  • @brianb-p6586
    @brianb-p6586 2 роки тому +2

    At 5:23 the diameter discussion ignores that at surface permanent magnet outer-rotor radial flux motor (model aircraft people call them "outrunner") design achieves the same large working diameter for a given motor outer diameter as an axial-flux design.

  • @hoofheartedicemelted296
    @hoofheartedicemelted296 2 роки тому +2

    Thank you for the plain and clear expanation of the dynamics and function of these motors. The animations in union with the narration certainly cleared things up considerably. All the best Lesics.

  • @jeffarcher400
    @jeffarcher400 3 роки тому +28

    I've been dreaming about a hybrid rotary/electric motor.
    Seems like the Wankel is so close to an electric in design and physics.
    Imagine the rotary's rotor spinning in an electromagnetic field.
    The gas and electric systems are one and friction is possibly zero.
    This could eliminate Apex seal wear which is the weak point of the rotary design.
    This also eliminates the four hub motors at each wheel allowing a normal drive,reducing weight,complexity and exposure to shock and water.
    When I see the hollow center of the axial motor and the method of generating spin it seems like it would work.

    • @Fightre_Flighte
      @Fightre_Flighte 3 роки тому +3

      Friction would still be an issue, to keep a seal with the engine case. And it might even rely on apex seals more...
      Or do I just not understand properly?
      Either way, it sounds like a fantastic idea for a generator, if you get it to work.

    • @thatguyalex2835
      @thatguyalex2835 3 роки тому +7

      Bro, that is an amazing idea. These hybrid Wankel engines could be used on airplanes, or futuristic Mazdas. ;) I hope you can work on this. Are you an aspiring engineer?
      Note: The heat produced by combustion may shorten the lifespan of the electrical components of the motor/generator as the combustion occurs near the electronics. :)

    • @jeffarcher400
      @jeffarcher400 3 роки тому +2

      @@thatguyalex2835 I'm more scientist than engineer. Loved rotaries back in the day but poor mpg and short engine life were it's downfall.
      The feeling of the Mazda was close to the electric slotcars and two stroke dirt bikes I grew up on.
      Just had the idea a couple days ago.
      Heat would definitely be a concern.
      My idea was a cast iron magnetized rotor and the magnets and copper windings in the case protected by the water cooling.
      Combustion would be brief. Mostly on starts,hills and when recharging the electric systems.
      With the combined motor and low weight of a rotary plus good charging power less batteries will be required further reducing weight.
      Don't know who to talk to maybe the local Mazda dealership.

    • @jeffarcher400
      @jeffarcher400 3 роки тому +2

      @@Fightre_Flighte I was hoping that if the field spins properly the rotor would float and redirect before it ever goes metal to metal.
      Should run cold since it'll only use gas on starts,hills and recharging and the cooling system water should have plenty of time to cool down.
      Thanks for both of these comments.
      I might go talk to the Mazda dealership today.

    • @thatguyalex2835
      @thatguyalex2835 3 роки тому +1

      @@jeffarcher400 That sounds like a great idea. They might take your idea, so you might want to discuss copyright. Unless, you are open to sharing idea with Mazda. :)

  • @seasong7655
    @seasong7655 3 роки тому +13

    I think in this design the rotor has a larger diameter compared to radial motors. So at high RPM the centrifugal forces become larger and maximum RPM will be lower compared to the radial type. In EVs you will need a different transmission to reach the same speeds as with the radial type. Tesla's motors have max RPM of around 20,000 with a step down gear ratio of 9:1. So at top speed it would be 20,000 / 9 = 2222 RPM at the wheels. If the axial flux motor has a max RPM of 13,000, then it would need a 13,000/2222 = 5.8 :1 gear ratio to reach the same speed. This would also mean you only get 5.8 times torque increase instead of 9 times.
    You would maybe save weight at the motor and at the transmission with the axial flux motor, but I'm not so sure if you would get the same torque at the end.

    • @utsavdhyani8839
      @utsavdhyani8839 3 роки тому

      and to get the same torque, the weight(would nearly become equal to radial) would increase so would the complexities... So, still not plausible for EVs I guess....
      But aren't the axial motors designed to give more torque than radial?

    • @nomen_omen
      @nomen_omen 3 роки тому +1

      @@utsavdhyani8839 yes axial nominal torque is higher than asynchronous motor

    • @SupaKoopaTroopa64
      @SupaKoopaTroopa64 3 роки тому +4

      You could probably just put multiple of them on the same output shaft until their total weight is equal to that of a radial motor. Since they have higher torque densities, they will be able to produce enough torque that they wouldn't need very high of a gear reduction at all.

    • @imeakdo7
      @imeakdo7 3 роки тому +1

      No, axial motors have higher torque due to their larger diameter, so they would need less gear reduction, in the end you'd get the same or even higher torque

    • @seasong7655
      @seasong7655 3 роки тому

      @@utsavdhyani8839 I've read both Lightyear One and Aptera will be using axial flux motors. Aptera seems to be using no gearing at all, and still gets same acceleration as many non-Plaid Tesla models. Although there are many factors besides the motors as well..

  • @Kytes93
    @Kytes93 3 роки тому +263

    I'm gonna tell you this, if you resolve the battery problem, everything else comes second.

    • @sharpfang
      @sharpfang 3 роки тому +26

      Except that's unlikely to happen. Some improvements - 2x, 3x current energy densities - sure. But not much more than that. The materials are getting increasingly unstable and prone to combust/explode at smallest provocation. You just can't squeeze as much energy in so small volume without limits.

    • @kevinbissinger
      @kevinbissinger 3 роки тому +12

      @@sharpfang you say that like that's not true for jet fuel as well...

    • @sharpfang
      @sharpfang 3 роки тому +17

      ​@@kevinbissinger The problem is gasoline by itself is completely inert, no energy to be extracted, next to zero energy density. It needs oxygen from the air for combustion, mixed with it immediately before combustion, and only the gasoline-oxygen mix has that high energy density you see commonly listed as "energy density of gasoline". If you were trying to store oxygen-gasoline mix in car tanks, you'd have cars exploding left and right.And while for extracting electric power out of chemical batteries you could keep separate substrates and only connect them to react in small amounts as you're drawing that electric power - a concept commonly known as fuel cell - there's no practical way to split the product into the original substrates - either it's unreasonably complex, requiring a refinery-sized infrastructure, or too costly energetically, the process consuming several times as much energy as it can produce, or just not technologically viable, be it too dangerous, too polluting with toxic byproducts, or the products are just impractical to store (say, water vapor from hydrogen+oxygen).
      Simply put, a practical reversible fuel cell is not even on the horizon, and classic rechargeable batteries just can't handle these energy densities.

    • @AlexusMaximusDE
      @AlexusMaximusDE 3 роки тому +11

      @@sharpfang You describe the current state of affairs adequately. Then you jump to the absurd conclusion that somehow this current state is near the optimum we can reach when there a advances in material science, proof-of-concept batteries which already put your projection to shame coming out every few weeks. Maybe inform yourself or stick to talking about minecraft or you will look about as smart as the people who called automobiles "devil wagons" in a few years.

    • @sharpfang
      @sharpfang 3 роки тому +13

      @Jan 6 was "Wall Street Putsch" part 2 For cars, it's simple: the energy density stays the same, they just pack more batteries into the chassis. The limit with cars is not energy density but cost, $ per watt-hour, and simple economy of scale can drive the cost down and allow using more batteries without making the car prohibitively expensive.
      And yeah, Li-Ion are getting safer. Without a significant increase in capacity - actually possibly with adverse impact on that.
      And once again, the battery doesn't need to explode spewing shrapnel everywhere to be considered unstable. It may completely safely and quietly short its terminals internally, by developing a bridge of metal ions between the two sides,, discharge completely overnight and refuse to charge ever again - and if it does this within first 100 charge cycles, it's junk. And this is the sort of problems the developers of the new "revolutionary" batteries face.

  • @jakeo1209
    @jakeo1209 3 роки тому

    Wow. Electric motor for the plane. Revolutionary. I don't know about anyone else, but I am looking forward to flying from New York to London in just 30 hours.

  • @rediornot811
    @rediornot811 3 роки тому

    Thanks!

  • @Pokornz
    @Pokornz 3 роки тому +47

    You're comparing apples to oranges - asynchronous AC (induction) motor to axial brushless DC. It would be more useful to explain how it is better than the closest relative, radial brushless DC, which uses the same principles, but geometry is different (radial vs. axial)

    • @jeremytaylor3532
      @jeremytaylor3532 3 роки тому +2

      I wonder if it might be possible to combine both types of dc motors.
      Axial on the outside to provide the lightweight torque and radial in the center hub for starting power and power surge requirements.

    • @crhu319
      @crhu319 3 роки тому +1

      @@jeremytaylor3532 some designs coming that do this.

    • @5353Jumper
      @5353Jumper 3 роки тому +1

      @@jeremytaylor3532 was thinking you may need a center radial for regenerative breaking anyway.

    • @aadhithvarathan5432
      @aadhithvarathan5432 2 роки тому

      Please check out this video.
      m.ua-cam.com/video/detrCRPmzV8/v-deo.html
      It is indeed possible to not only combine axial flux and radial flux, but also in-runner and out-runner in BLDC motor. This motor gives 4 directional flux and hence is known as 4D motor.

  • @philiphall4805
    @philiphall4805 3 роки тому +19

    I remember reading about Citroen putting these in cars some 30 years ago , they were trying out using one alongside the flywheel of a conventional engine instead of an alternator and starter motor set up , it worked so well that it could be used to power the car with the engine turned off

    • @ashleyfletcher2543
      @ashleyfletcher2543 3 роки тому +3

      Exactly and that's why big oil shut it down. Just imagine what and where we could be without human greed!

    • @ZE0XE0
      @ZE0XE0 3 роки тому +5

      @@ashleyfletcher2543 lol

    • @Cyba_IT
      @Cyba_IT 3 роки тому +1

      With Citroen's active suspension, electric motor advancements and god knows what else those guys concocted in their R&D dept those guys were impressive. I see they're still innovating but it's a mystery why they didn't do a Tesla before Elon did it. Maybe a big, established company is too afraid to take such risks.

    • @jeanmartin963
      @jeanmartin963 3 роки тому +5

      @@Cyba_IT no mystery, the cause of the emergence of electric cars is politic. Before the Tesla you had the EV1 from GM. Tesla was not a precursor, it just got the good timing with california rules and a sense of hype that the EV1 did not have.
      And also thanks to the mobile phone and mobile computer tech, batteries tech has improved since EV1 era.

    • @unitrader403
      @unitrader403 2 роки тому

      @@jeanmartin963 you know that GM killed the EV1 for political reasons, dont you?

  • @charleshorseman55
    @charleshorseman55 3 роки тому +18

    Placing axial motors in the wheel massively increases unsprung weight, but may double as brakes if they were so engineered. Also of course acting as regenerative systems under braking. Interesting!

    • @CrossWindsPat
      @CrossWindsPat 2 роки тому +3

      yes they most certainly would need to be located within the vehicle. Nothing a beefy CV joint cant fix.

  • @SALESENGLISH2020
    @SALESENGLISH2020 3 роки тому +12

    Absolutely clear animation and explanation! Honestly, I had completely forgotten about Axial flux electric motors; thank you very much for reminding the value of old gold.

    • @getartsywithyogita8291
      @getartsywithyogita8291 3 роки тому +2

      Thanks Ranbir sir😊. These motors seem to be the new engine for airplanes.

    • @SALESENGLISH2020
      @SALESENGLISH2020 3 роки тому +1

      @@getartsywithyogita8291 Thank you very much, Ms. Gaddam. Truly admirable work You and your team are doing. I am forwarding this channel to old engineers; let's see if they subscribe.
      Wish you all great success.

  • @bonfacemuthuri9840
    @bonfacemuthuri9840 3 роки тому +8

    Great videos, I have watched all of them.👍

  • @bowenshi5326
    @bowenshi5326 3 роки тому +8

    From my understanding, when comparing the flux lines on FEA, the axial flux motor should be simulated along the Magnets array direction (like a linear motor), where the non-interactive flux lines should also been seen in axial flux motor. Feel free to correct me. From your simulation results in 5:05, the results on Axial-flux motor didn't show the return path of the flux.

  • @lofnouk
    @lofnouk 3 роки тому

    Damn! I came here to remark upon the fact that the two spurving bearings were in a direct line with the panametric fan but have been beaten to the punch. Bravo!

  • @cyber_hacker
    @cyber_hacker 3 роки тому +8

    they work especially great as generators, since short cirquiting one of those cables makes it near impossible to move it.

    • @bigcheeezzz7135
      @bigcheeezzz7135 2 роки тому +1

      @cyber hacker, please explain what you mean, I'm not very technical. Move what?. Not being a smart a$$ just want to know! 👍

    • @guesswho6038
      @guesswho6038 2 роки тому

      @@bigcheeezzz7135 Move the shaft when the coils are shorted.

  • @theq-1
    @theq-1 3 роки тому +9

    I tried to do this 15 years ago with a bike wheel... can you imagine the torque 😁

  • @okbridges
    @okbridges 3 роки тому +16

    I've seen this motor design used in some1980's top of the line cassette decks for the capstan motor

    • @imeakdo7
      @imeakdo7 3 роки тому +1

      Yes and also on VCR drum motors

  • @driverjamescopeland
    @driverjamescopeland 2 роки тому +2

    Axial flux motors have the same issues as any other. Their design have inherently high power-to-weight ratio, but dramatically lower duty cycle. In order to increase duty cycle, you either need to build a bigger motor, or increase cooling... To which both options increase size and ancillary demands. For low duty cycle applications, they're a great option. Otherwise, they result in nearly equal power-to-volume ratio, and only slight power-to-weight over midrunner radial designs, by the time you account for ancillary requirements and complexity in manufacturing.

  • @MrTidx90
    @MrTidx90 Рік тому

    Super in-depth. This was just what I needed to understand

  • @f114163
    @f114163 3 роки тому +15

    So given that the rare earth elements needed for permanent magnets are rare and expensive, could you use electro magnets on the rotor?
    Also could you sandwich a rotor between two stators as it seems the permanent magnets are only 'half' used?

    • @dougaltolan3017
      @dougaltolan3017 3 роки тому +5

      You are right. This video is simplified.
      The advantage of axial flux is shortening the distance where the flux isn't used. In a radial configuration it has to travel around the outside. As you have spotted, with axial flux it only needs to hop across the ends with as many rotor / stator layers stacked in between.
      As for energised rotor, I think you get higher flux density and flux per weight from a rare earth magnet than from normal coils.... Superconductors would change the game significantly.

    • @leftaroundabout
      @leftaroundabout 3 роки тому

      “the permanent magnets are only 'half' used” - en.wikipedia.org/wiki/Halbach_array

    • @thatguyalex2835
      @thatguyalex2835 3 роки тому +1

      Even better, could we use these motors on container ships, and use a methanol/ethanol fuel cell to power the motors, and an array of sodium-ion (yes, those exist, but are not very common) batteries and solar panels as backup power? Diesel needs to slowly be phased out. Lol...

    • @richardjelinek5038
      @richardjelinek5038 3 роки тому +1

      No, it's not given. Rare earth elements are not as rare as the name suggests. There's plenty available for the next few hundred years. Also, they are recyclable.

    • @tr33c21
      @tr33c21 3 роки тому

      @@dougaltolan3017 japan is using superconductors in their new magnetic train. It uses additional electricity to cool the material on board of the train

  • @paultreviska9417
    @paultreviska9417 3 роки тому +20

    Looks like a good candidate for in home elevators for the old and disabled. Coupled to a screw jack and some lithium batteries you have a "power cut" (Brownout/blackout) resilient means of going upstairs and downstairs.

    • @thatguyalex2835
      @thatguyalex2835 3 роки тому +2

      Or use the motor in a more traditional elevator system for the elderly, and have a series of cables pull the elevator from the top, and a counterweight. The screw jack may develop a lot of friction if not oiled properly. :)

    • @bene6270
      @bene6270 3 роки тому

      I have not been this impressed since Rockwells' Retro encabulator.

  • @shlomofishman3855
    @shlomofishman3855 3 роки тому +21

    Looks cool, but except the magnets and coils orientation, how is it different from a regular brushless motor? How is it more efficient and powerful than them?

    • @luongmaihunggia
      @luongmaihunggia 3 роки тому +4

      This ^

    • @MiTheMer
      @MiTheMer 3 роки тому +6

      As far as I understood, more of the magnetic flux lines are actually in use than with the traditional design.

    • @BugMagnet
      @BugMagnet 3 роки тому

      The torque per weight is better since more of the material is reciving magnetic flux at any time. The rest of the numbers is either meh or missing to be honest.

    • @electronresonator8882
      @electronresonator8882 3 роки тому

      it uses Silicon carbide transistor instead of Mosfet, it capables of operating on higher frequencies and higher voltage than mosfet, ...and for same power rating like brushless it requires only 1/3 of brushless size, because the copper needed is way fewer, I see the real engine, and the shape of the stator is similar to a sheet of PCB with copper in it also without iron...so it is cheaper to go wider for this engine, therefore the torque also getting bigger, because of radius....if you need speed then gearbox will do the job

    • @shlomofishman3855
      @shlomofishman3855 3 роки тому

      @@MiTheMer But they are not comparing it to the BLDC motor for example, which they've shown in another video. They are compraing it to a rotating flux motor. The principal looks exactly the same, and I'm not sure how is the performance of this motor is so much significantly better.

  • @kingmasterlord
    @kingmasterlord Рік тому

    3:38 you can replace that with a -timing disc- metal circle with holes in it. analog>digital, it's inherently solid state. wind the wires in the shape of the work

  • @freekingawwsome
    @freekingawwsome 3 роки тому

    Been subscribed for a few years keep up the great inovation

  • @54V4
    @54V4 3 роки тому +3

    I love the presentation. It was very pleasant and easy (even for me) to understand. Thank you.

  • @cjjenson8212
    @cjjenson8212 3 роки тому +15

    Weight to weight comparison to hp and torque would be nice.
    Does an axial require a cast housing or will composites be sufficient?
    If radius=power then at what minimum range does an axial become neutral?
    I.E. 55kw vs 250kw.

    • @akkudakkupl
      @akkudakkupl 3 роки тому +1

      I think that water cooling will be mandatory for good power to weight - they stated 96% efficiency, with a 55kW mechanical that's 2.3kW waste heat, at 250kW it's 10.4kW.

    • @andrewkaiser1606
      @andrewkaiser1606 3 роки тому

      At some point you're probably limited by the maximum frequency the wires can carry vs amps it can push.

    • @darthmoomoo
      @darthmoomoo 3 роки тому +3

      @@akkudakkupl Modern general aviation engines like the Continental IO-550 produce 310HP (~230 kW) with just air cooling. Being a combustion engine, their efficiency is < 40%. This means they are dealing with dumping nearly 340 kW of heat. 10.4kW should be much easier to deal with.

    • @TyinAlaska
      @TyinAlaska 3 роки тому

      And what about cooling and the weight of the cooling system?

    • @TyinAlaska
      @TyinAlaska 3 роки тому

      Oh. akkudakkupi mentioned this

  • @paulsutton5896
    @paulsutton5896 3 роки тому +4

    It has to be said that the conventional induction motor is no slacker when it comes to efficiency. But yes. It seems that the axial flux motor is better.
    The problem, especially for aircraft, remains the weight of the battery.

    • @poplaurentiu4148
      @poplaurentiu4148 3 роки тому

      The newer latest types of batteries in full development with 35% added Supercapacitors with new Aluminum-ion cells + new more efficient chemical mixtures compound based on Na sulphur +Fe and with a molecular structure of Graphene will allow the new batteries not just to charge faster, last longer between charges and discharge slower but also will have a reduced overall weight meaning it could be used for aircrafts as well.. ;0)

    • @Markcain268
      @Markcain268 3 роки тому

      @@poplaurentiu4148 Ive been hearing this for years and years, when I'm looking for something I want right now I don't really care that in ten years it will be better, I want it to be better now, this sort of talk is bandied about like shuttlecocks in a game of badminton in ev culture, always seems to either come to nothing or achieve about half as good results as initially claimed, it's a new trend these days saying things will get better in the future, just shows how bad things are today really

    • @poplaurentiu4148
      @poplaurentiu4148 3 роки тому

      @@Markcain268 If you afford right now get any of these cars that are produced this year 2021 after October : Tesla S/3/Y/X performance, Jaguar i-Pace, Rivian R1T, GMC Hummer ev, Lucid, XPeng P7 Performance all these are getting equipped with latest graphene battery with up to 35% added Supercapacitors..

    • @Markcain268
      @Markcain268 3 роки тому

      @@poplaurentiu4148 I prefer super unleaded in my car, pity they don't sell the old 5 star 101 octane leaded fuel anymore, my old rover V8 ran beautifully on that, wish I still had it!

  • @chuvvyyk
    @chuvvyyk 2 роки тому

    Best explanations is on this channel! Thank you very much!

  • @friddevonfrankenstein
    @friddevonfrankenstein 3 роки тому +1

    It's basically a pancake shaped BLDC but the change in shape makes perfect sense and really seems to do the trick. Awesome :D

  • @valyokolev7841
    @valyokolev7841 3 роки тому +11

    This type of motor was invented 50 years ago after almost all Japanese cassette decks have built-in miniature motors for fast rewinding of the tape, and the speed of rotation is monitored by feedback based on Hall's magnetic sensors.

  • @ronwest4522
    @ronwest4522 2 роки тому +8

    I like this design, and I believe the power output can be doubled without having to increase the current usage. The concept is simple and it works. I already built a proof of concept that shows it's possible.

    • @jonibeYT
      @jonibeYT 2 роки тому +2

      Most electric motors are pretty efficient. Since the maximum outputpower is determined by the inputpower this motordesign wont be able to even nearly double the outputpower compared to other motors.

    • @tonyduncan9852
      @tonyduncan9852 2 роки тому +3

      _"I believe the power output can be doubled without having to increase the current usage"_ - Then you don't understand EM motors and don't know their history. :)

  • @zodiacfml
    @zodiacfml 3 роки тому +9

    I don't know...but it appears most of the advantages come from the larger radius of the design. A radial motor can match an AF motor in efficiency if given a larger radius. I think a radial flux motor that almost looks like axial flux motor are those from wind turbines without a gearbox.

  • @NathanaelNewton
    @NathanaelNewton 2 роки тому

    I didn't recognize them at first but suddenly I realized I've seen these before inside of floppy drives that I took apart when I was a kid!!
    Great video, subscribed!

  • @Furredface
    @Furredface Рік тому

    Excellent video! Clear and understandable, and I know nothing about electric motors.

  • @garyha2650
    @garyha2650 3 роки тому +12

    When a coil turns off, an amount of time is required for its magnetic field to collapse. During that time, isn't it true there is electrical pressure (voltage) in the wire coil of the opposite direction that is wasted? Why not use switching to capture and re-use that energy? 💡

    • @dopeamine3897
      @dopeamine3897 3 роки тому +2

      I think that it gets radiated in heat

    • @ringmutt
      @ringmutt 3 роки тому +10

      In electric motors the time to build those fields are usually way way faster than the time the motors other magnetic fields take to ‘pass by’, you in fact use a flywheel diode/synchronous switch to let current continually flow by pulsing the applied voltage (See PWM) - correct control of the motors winding current means the collapse of the field should have been cancelled by the other magnet at the point you stop applying current, if you don’t , you’re right - the field energy goes nowhere and turns into heat.
      With an open coil with no other big magnetic fields to pass by - using a capacitor to capture field collapse energy and then return the energy is the basis of an RC resonant tank - and when correctly stimulated ( e.g. by PWM at zero current crossing ) can be used for long-distance wireless power transmission with very low losses. These are usually in the area of at least 100s of kilohertz to MHz, look up resonant transformers
      An electrical motor is in the 100 to 1000 Hz area
      For motors the deeper shit is :
      The flux building up and energising the coil pulls a movable magnet into the field lines of the coils space, the field lines of that moving magnet by definition are then simultaneously moving into the space of the original coil, making an 'alien' changing field seen by the coil, inducing opposing electromotive force, in other words generates an opposing electrical voltage in the original coil, ( this is how work is transferred, the lower the opposition the more work is transferred to the moving magnet as force.)
      This alien induced voltage is called the 'back emf' (BEMF) related to the speed of the motion of the external field or the speed of the motor
      The changing alien field opposes the voltage being used to make the current that generates the original field - which reduces the current in the coil, thus ‘nulling ’ coil energy/current. A controller obviously needs to stop applying voltage when the attracted magnet is fully in line with the coil ( in phase) . Otherwise the coil would then be trying to slow the magnets motion once it has gone past. So the coil field needs to be completely cancelled at the passing point. The coil is ideally fully turned off = no current is flowing. The next coil along needs to start being energised to attract the magnet further along the direction you want the motor to go. You in fact also reverse the field in the original coil, by reversing the current /applied voltage, to push the magnet away, and obviously all the field lines of the magnet entering the original coil is now changing as a collapsing field thus making BEMF in the opposite direction .....( against the now reversed original current )
      - but if the motor is slowed because is having to pull some mass?
      The slower motor = less speed = less rate of change of ‘alien’ field and then less BEMF = less voltage opposition so MORE current is pushed into the coil if the applied voltage is the same, generating more original field attracting the magnet harder, so this means more work is put in as current for the same applied voltage.
      In truth if you have full control of the switches in a brushless motor , you control when the phase of the two field interact and thus the flow of power in or out of the motor, as force and speed, so it can even return energy as a generator or kill the magnetic field when it is doing no work. But throughout all of this the wire has resistance losses which always generates heat, and the hotter it gets the more losses it has and thus it gets even hotter. Cooling is key .
      If you lock a badly controlled motor solid with full voltage applied, there’s no back emf and generally the motor makes a noise , starts to glow with bad smells and then burst into flames.
      It’s a while since I’ve done this shit so I did this for my own head - but when you get into it some Reeeeellly clever control goes into stopping the issue you mention becoming poitnless losses in motors.

    • @Trihalo42
      @Trihalo42 3 роки тому +3

      One man, years ago, proposed using an extremely long wire for coils to delay the back spike, so it wasn't wasted between gaps or between brush contacts in DC motors. It creates an extremely efficient motor, though the design in this video is more about torque.
      Some have claimed that using the back spike can create a free energy device, but it would have to be frictionless, have no thermal loss, and not be operating under a load to get anywhere near that, so it's unrealistic. But even suggesting it could be used as a free energy device is probably enough to scare oil corporations enough to suppress those designs. Paranoia over a loss of profits suppressing technology. Same reason they burned Nikola Tesla's tower down.

    • @JimmyAlzen
      @JimmyAlzen 3 роки тому +4

      This is already done every time you drive a BLDC motor today. It's necessary to capture the voltage spike to protect the drive electronics and the only good place to direct it is the battery. That said, there is not that much energy in these spikes because they are very short.

    • @garyha2650
      @garyha2650 3 роки тому

      @@JimmyAlzen Where can we read about it?

  • @brianb-p6586
    @brianb-p6586 2 роки тому +4

    At 4:29 the axial motor flux paths are incomplete - they need to be complete circuits (just like electrical current flow), not just lines ending in a permanent magnet. You can see this (poorly) in the FEA illustrations that follow. The incorrect illustration falsely gives the impression of short flux paths.

  • @VTdarkangel
    @VTdarkangel 3 роки тому +25

    One question I have is how does this motor scale in size? Does the diameter get wider or does it get deeper as the coils get thicker. I'm sure both happen, but which is the dominant direction.

    • @shreyas5724
      @shreyas5724 3 роки тому +2

      That's the same question I got

    • @JasminUwU
      @JasminUwU 3 роки тому +6

      The easiest thing is to just add more layers

    • @SoYFooD2
      @SoYFooD2 3 роки тому +4

      as with most engine's, if u want to build them up u keep relative proportions. if u want more output make it bigger in all directions and adjust the gearing to get the speed and torque u want.
      but as u have seen the best way to use these motors is as a direct drive. this means u need to fine a balans between torque and sen-tripedal forces.
      this is very limited tho.
      that is why i see them cluster the motors.
      if u offset the pols u can make them run smoother and have a smoother power draw spikes.
      also in start up u can just use 1 to limit the in rush current.
      the drawback is u need 2 or more frequencies controllers witch makes it expensive.

    • @scorpio6587
      @scorpio6587 3 роки тому +2

      You can also grow them along the rotational axis by adding more discs.

    • @sloopjohnb7271
      @sloopjohnb7271 3 роки тому

      You have more than one question. I would suggest that the Power to Weight ratio applies. They stated that torque increases with size of radius. Power as in used power will increase with thickness. Efficiency of the motor give the results. One over another. So size will in fact be regulated by the use requirement.
      It is stated it is a lighter motor and more efficient. Direction of the motor will be determined by how it is set up by electronics and design for purpose.

  • @Sven2157
    @Sven2157 2 роки тому +1

    Um ... 🤔 (0:06) Why is that propeller spinning backwards? Pitch and rotation indicate thrust pushing on nose, not pulling!

  • @JazzbLu
    @JazzbLu 3 роки тому

    Thank you for teaching us about axial flux motors.

  • @phillm156
    @phillm156 3 роки тому +8

    Problem with batteries in an aircraft is weight. An aircraft using fuel will get lighter and more efficient as the fuel load is used up. With batteries, you are hauling the same mass from takeoff to landing.

  • @Morlev44
    @Morlev44 3 роки тому +29

    Can it be used as generator? If yes, would it be more or at least as efficient as current generators?

    • @danmallery9142
      @danmallery9142 3 роки тому +12

      Basically, any electric motor is also a generator by reversing polarity. In an electric car, this is how regenerative braking works. By electronically reversing polarity during braking, the motor actually re-charges the batteries and also contributes to the braking of the vehicle. I have a C-Max plug in hybrid and while driving the downgrade on mountain roads, I have recharged my main traction battery (the 7.6 Kw one) on long downgrades enough to give me several miles of drive time by the time I get to the bottom of the hill.

    • @Morlev44
      @Morlev44 3 роки тому +4

      @@danmallery9142 "Basically, any electric motor is also a generator" only if it has permanent magnets. This one has so I guess it can be used as generator. I'm still unsure if it would be any more efficient than current generators we have, probably not. But given that it's a motor that supposedly generates high torque, supplying high torque to generator version would result in high voltage. Seems like perfect match for low revving, high torque applications like wind turbines.

    • @jasontti
      @jasontti 3 роки тому +7

      @@Morlev44 Bigger generators don't nees magnets. Same effect can be made with electromagnets also. It's more complicated design, but offer great weigth reductions.

    • @kensmith5694
      @kensmith5694 3 роки тому +7

      @@Morlev44 Induction motors work as generators. If you have an induction motor connected to the mains and use some external power source to spin it faster than the synchronous speed, it delivers power back into the mains. This is basically how some small scale hydroelectric plants have been done. It takes a lot less complexity to run such a power plant.

    • @deltaxcd
      @deltaxcd 3 роки тому +2

      No it won't be more efficient unless you use very oversized motor or generator.
      efficiency of any motor or generator pretty much depends on power density higher power density means less effcisncy

  • @markfabre7682
    @markfabre7682 3 роки тому +14

    So this is like the pancake motors on the HO scale race cars we had 50 years ago. Only difference is they had brushes to switch the coil polarities rather than fancy electronics.

    • @JackpineGandy
      @JackpineGandy 3 роки тому

      you'd have to see how the motor was wound. Brushes indicate a wound rotor and a fixed field

    • @markfabre7682
      @markfabre7682 3 роки тому +2

      @@JackpineGandy You are correct. In the case of the micro-pancake motors of old, the rotor was wound and the field were permanent magnets.... but then, this was 1950's toy technology.

    • @JackpineGandy
      @JackpineGandy 3 роки тому +1

      @@markfabre7682 these axial flux motors are a whole 'nother animal, and they are absolutely dependent upon the computer to make them work. There is a variation also in the skunk works, using a wound field on the rotor instead of permanent magnets. It will use an induction setup to power the field on the rotor instead of permanent magnets because of the perceived shortage or expense of the rare earth minerals need for the magnets. The windings can be aluminum wire instead of copper, so no expensive copper is needed.

    • @RelianceIndustriesLtd
      @RelianceIndustriesLtd 3 роки тому +1

      brushes will wear out, electronics wont

    • @JackpineGandy
      @JackpineGandy 3 роки тому

      @@RelianceIndustriesLtd electronics routinely fail in multiple ways

  • @vaislaj
    @vaislaj 3 роки тому

    I had a dream and project if this motor in 2012, which i never finished, but now i can see it’s possible, it can be used in future antigravity

  • @savagex466-qt1io
    @savagex466-qt1io 3 роки тому

    Im a grown man and when a SMALL electric engine scares me ! I get so excited ! Instant power !

  • @ProlificInvention
    @ProlificInvention 3 роки тому +4

    A practical Axial Gap Flux motor of very high efficiency was invented by Cedric Lynch . The AGNI/Lynch motor is highly efficient and interesting.

    • @avacreativemedia
      @avacreativemedia 3 роки тому +2

      Yep - and here’s a kart I designed and built working with and using an LMC Axial Flux Motor 😊👍 ua-cam.com/video/F9MXBcGKVY0/v-deo.html

    • @ProlificInvention
      @ProlificInvention 3 роки тому +1

      @@avacreativemedia That's an excellent video. Very nice work all around. I acquired my AGNI motor from a 2 seater rental cart. So far I've had it on that, a hand tractor, a bike, now I'm putting it on a boat motor. It's a powerhouse, very efficient, and works well with a variety of voltages and controllers including cheap PWM.

  • @laurisikio
    @laurisikio 3 роки тому +69

    The whole world seems to be constructed only out of pluses and minuses and still it's so complicated

    • @eclipse369.
      @eclipse369. 3 роки тому +12

      They all equal 0 though

    • @TheNikhilmishras
      @TheNikhilmishras 3 роки тому +9

      @@eclipse369. That's very deep.

    • @ToxicityAssured
      @ToxicityAssured 3 роки тому +4

      @@eclipse369. I disagree in a kind hearted way. If the "big bang" was just pluses and minuses that added to zero, then we wouldn't be sitting here confused in the comments section of nerd videos. Yes to the pluses and minuses of quantized energy, but it's just way more complex than our current guesses. Do you ever watch PBS Space Time or Sabine Hossenfelder? Our model of the everything is flawed. Germs growing in a jar don't get my level of things. We are just bigger more complex germs in a cosmic bottle. (I may have over replied to your comment.)

    • @elciefssn2690
      @elciefssn2690 3 роки тому +4

      @@ToxicityAssured Actually the "Big Bang" was also supposed to be the same amount of pluses(Matter) and minuses(anti-matter) which were supposed to zero out themselves(collide and turn into energy). But it didn't. where did the minuses(antimatter) go? we still have no clear idea but som hypothesis some of which seems too far-fetched.
      So yeah I agree with the last statement "we just germs in a cosmic bottle" and despite being such germs most of us overestimate ourselves.

    • @ProfessionalGasLighting
      @ProfessionalGasLighting 3 роки тому +2

      @@ToxicityAssured entropy

  • @patrickward8543
    @patrickward8543 3 роки тому +19

    Until we overcome the energy density limitations of current battery technology, or develop lightweight self-contained electric powerplants using next-gen fuel sources capable of high energy output, it's all pretty much moot what motors we use, unfortunately

    • @jefferyshall
      @jefferyshall 3 роки тому

      Just have to wait until we have the technology to shoot a laser beam at something and collect/use that energy. Then we don't need much battery, maybe enough for an emergency landing if something happened to the laser beam powering the aircraft.

    • @beli3ver
      @beli3ver 3 роки тому

      Why can't we work on beta-voltaics

    • @bene6270
      @bene6270 3 роки тому

      I have not been this impressed since Rockwells' Retro encabulator.

    • @wingracer1614
      @wingracer1614 3 роки тому +1

      Exactly. While there is certainly nothing wrong with improving the performance and efficiency of electric motors, that is not going to solve any problems. Current electric motors are already EXTREMELY efficient. Further development on these lines is only ever going to gain a few percent. And I don't mean a few percent this year and another few percent next year and so on until we can eventually go a million miles on a AA battery, I mean only a few percent for the rest of human history. There just isn't much room for improvement. The inefficiencies in electric power are all in the power source and transmission, not in the motor itself.

    • @5353Jumper
      @5353Jumper 3 роки тому

      Hydrogen Fuel Cell?

  • @DMRH69
    @DMRH69 3 роки тому

    I recall an inventor showing me his home made Axial flux motor back in 1990.
    Located in his workshop. SYD, Australia
    So powerful & yet so small compared to standard motors
    No company was interested in financing his invention & he actually sold the engine & specs to an arab from Saudi Arabia.
    30YR later & the motor was obviously shelved for "vested interest"

  • @paddle_shift
    @paddle_shift 2 роки тому

    Haha, I love how the simulated vehicle is shown driving over the yellow lane divider! (@ 5:58) Something very sublimal about that!

  • @milaanpatel4997
    @milaanpatel4997 3 роки тому +23

    What about the RPM of these motors? Strong magnetic field will cause more self-inductance increasing the time constant(RL) for charging and discharging of coil. This along will mutual inductance (the tiny bumps in voltage line) may negatively affect the efficiency at high RPM. It would be interesting to see the reliability of pulsed circuit compared to phase shifted sine wave circuit commonly used.

    • @delta4phoenix4
      @delta4phoenix4 3 роки тому +2

      I think that is not much of an issue. You can always add some gears, though it does add a point of failure and weight

    • @johncunningham4820
      @johncunningham4820 3 роки тому

      For Driving a Propeller or Road wheels on a Vehicle High Revs are not required . Do some Arithmetic .
      A VERY FAST car only has wheel RPM of about 400 . These Motors would need Reduction Gearing .

    • @toolazy4340
      @toolazy4340 3 роки тому +8

      @@johncunningham4820 A normal car wheel is about 800-900 rpm at 60 mph (about 100 km/h). A 53 inch (1.3 m) tall tire is needed to get that down to 400. Still need reduction, but not as much. Airplanes are better off, since props are normally in the 2000-3000 rpm range.

    • @babydriver8134
      @babydriver8134 3 роки тому

      @@johncunningham4820 on 20" wheels?
      My ford does more that 700 RPM at 60 mph.

    • @babydriver8134
      @babydriver8134 3 роки тому

      @@toolazy4340 Thanks for more clarity than I was offering.

  • @kaischmelzle547
    @kaischmelzle547 2 роки тому +3

    3:26 now it is completely wrong!

  • @justme-n-gracie
    @justme-n-gracie 3 роки тому +7

    Maxwell may have invented it but as usual, Tesla did it better: "based on a design that Nicola Tesla researched and patented in 1889. An axial flux motor places the permanent magnets on the face of the rotor, and puts the stator in front of the rotor. To balance the magnetic forces, two rotors are often used-one on either side of the stator. The flux loop starts at a magnet on the rotor and passes through the air gap between rotor and stator. The flux passes axially through the first stator tooth and immediately arrives at a second magnet (when dual rotors are used). Unlike the radial flux motor, the flux path is one-dimensional, allowing the use of grain-oriented magnetic steels for greater efficiency:
    ".

  • @yv7584
    @yv7584 2 роки тому +1

    I installed these on my car tires. Now it's flying.

  • @jistconsulting2246
    @jistconsulting2246 3 роки тому

    The motor shown is a single phase 3 pole pair machine- it would have pulsating torque with dead spots when the magnets are directly under the coils. That's why the animation has to ignore two of the magnets. In doing so it becomes a kind of 2 pole pair 3 phase machine with a gap in the magnet. To correct it you need to represent the rotor as 4 pole magnet so that each pole pair corresponds to three stator phases as required. Or use a 2 pole magnet and three stator coils to make it even clearer.

  • @Observ45er
    @Observ45er 3 роки тому +13

    It shouldn't be compared to an induction motor, but rather a DC brushless motor. I think this would make it a more fair comparison.

    • @montiacpontana41
      @montiacpontana41 3 роки тому +2

      That's funny, a brushless motor is an induction motor. Even if you use it with a DC power source. A brushless motor always runs on Ac.

    • @Blox117
      @Blox117 2 роки тому

      @@montiacpontana41 induction motor usually refers to motors that do not contain permanent magnets. the axial flux is a permanent magnet motor

  • @dartagnin
    @dartagnin 3 роки тому +7

    I watched 30 years ago as engineers at a Servo systems company built as they called them "Pancake" motors for robotics, some of which you can find on some robotic arms. They ran into problems with "Magnetic resonance" build up in the motors when the stacks were built. I agree with others about using an Induction motor for comparison, not apples too apples. The main difference with the motors besides permanent magnets, is the Induction motor is pulled by the electric field, were as most brush-less Permanent Magnet motor rotors are pushed by the electric field.

    • @PaulSpades
      @PaulSpades 10 місяців тому

      All types of rotating electric motors simultaneously push and pull.

  • @suzukirider9030
    @suzukirider9030 2 роки тому +8

    Thanks for the explanation! Although for aircraft, it's not the motor but the battery that's weight-prohibitive. Conventional brushless motors already have power/weight much better than internal combustion ones, as well as very good efficiency in the 90%+ range, but alas, Li-Ion's energy/weight density is 30 times less than gasoline's. Total useful output like 7 times less considering gasoline engines only output 25% of what they burn as torque, the rest wasted as exhaust heat.

  • @geronimo5537
    @geronimo5537 10 місяців тому +1

    I like what took a company tens of millions of dollars to develop. Was simply what kids in school have been playing with for the last few decades.

  • @appstourtech7891
    @appstourtech7891 3 роки тому

    Superb explanation !!! Well done !!

  • @ldokonal1969
    @ldokonal1969 3 роки тому +15

    Axial brushless permanent magnet motors are far from being a novelty and have a lot of problems that make them much less attractive than they look at a first glimpse. Noise control and heat extraction are just two of them. By the end of the day, they are not better than conventional in most applications, electric vehicles are good examples.

    • @seytanuakbar3022
      @seytanuakbar3022 3 роки тому +3

      And they need fragile electronics to work. You can repair classic motor if it is burned, without need for replacement parts and electronics.

    • @kensmith5694
      @kensmith5694 3 роки тому +4

      @@seytanuakbar3022 Electronics can be made very robust. It is just a matter of budget. Go cheap and it is fragile.

    • @mckenziekeith7434
      @mckenziekeith7434 3 роки тому +2

      @@seytanuakbar3022 there is no electric motor type which can be used in vehicles today without some form of electronic speed control. Sure, brushed DC motor controllers are a bit less complicated than three-phase controllers, but the motors themselves are also heavier and less efficient, so that is not a great design trade off.

    • @seytanuakbar3022
      @seytanuakbar3022 3 роки тому +2

      @@kensmith5694 Everything today is made cheap with short life span so you have to buy new one every year. That is called capitalism.

    • @CaseAgainstFaith1
      @CaseAgainstFaith1 3 роки тому +2

      @@seytanuakbar3022 Cars today last for MANY more miles than they used to.

  • @MrThatguyuknow
    @MrThatguyuknow 3 роки тому +7

    A better solution overall, but you can still tell how much room their is for improvement given the tangential force vectors and overlapping wave forms (But hey, 96% is still pretty incredible). It's amazing that centuries later we're still perfecting something so conceptually simple yet essential to the modern world. I'm very curious to see where we'll be in even a few decades. We'll be miles ahead soon with the money being pored into it.

  • @ethanebang8902
    @ethanebang8902 3 роки тому +21

    Isn’t this just a BLDC motor with more steps?

    • @raloed.363
      @raloed.363 3 роки тому +8

      Yeah it is a BLDC motor but most BLDC motors like the pc fans and the ones used on drone propellers are radial flux. This being an axial flux one is better. Axial generators are also better

    • @ryanrinn4041
      @ryanrinn4041 3 роки тому

      This does remind me of BLDC. The BLDC motors I have seen have Permanent magnets around the electric magnet, not next to it.

    • @nathanwest2304
      @nathanwest2304 3 роки тому +1

      @@ryanrinn4041 the rotor of a BLDC motor contains magnets while the stator contains the coils, same principle, just slightly different

    • @bene6270
      @bene6270 3 роки тому

      I have not been this impressed since Rockwells' Retro encabulator.

  • @bill4639
    @bill4639 3 роки тому

    These motors have been manufactured for like 50 years. I theorized this working in flying saucers like 20 years ago.

  • @jistconsulting2246
    @jistconsulting2246 3 роки тому +2

    To make the machine 3 phase whilst keeping the rotor as-is would require 2 more sets of coils (phases), each one displaced 1/3 of the 120 degree pole pitch- i.e. 40 degrees.

    • @brianb-p6586
      @brianb-p6586 2 роки тому

      No, the illustrated motor is a 3-phase machine.

  • @VacuousCat
    @VacuousCat 3 роки тому +13

    The lamination orientation of the stator core can be expensive I think.
    And it doesn't need sinusoidal input?

    • @lewis2553
      @lewis2553 3 роки тому +1

      No.

    • @margolish8220
      @margolish8220 3 роки тому

      A good axial flux motor dont use laminated steel.

  • @clip3923
    @clip3923 3 роки тому +24

    Sounds like a better version of switched reluctance motors.

    • @jameshoffman552
      @jameshoffman552 3 роки тому

      Hmm is the axial flux reluctance motor a thing? I have an idea about how to make one by perforating the stator cores.

    • @CockroachSlidy
      @CockroachSlidy 3 роки тому

      More like a BLDC motor with extra steps

  • @danielvanced5526
    @danielvanced5526 3 роки тому +15

    This design appears to use large quantities of rare earth magnets compared to other designs. Whilst they have been used for many years in high performance motors I thought the industry was trying to minimise use due to cost and availability.

    • @christophorus9235
      @christophorus9235 3 роки тому

      Reluctance machines with cast aluminum windings are gaining in popularity.

    • @bene6270
      @bene6270 3 роки тому +1

      I have not been this impressed since Rockwells' Retro encabulator.

    • @aadhithvarathan5432
      @aadhithvarathan5432 2 роки тому

      We can make Axial flux motors free of rare earth magnets just by replacing the magnets with solid Iron Nails. Now it becomes a Switched Reluctance Motor. Also, the controller needed to run this motor is a simpler one.

  • @El.Duder-ino
    @El.Duder-ino 3 роки тому

    Thank for sharing the explanation behind these type of electric motors!

  • @fifaham
    @fifaham 2 роки тому +2

    @4:08 have anyone ever thought to use low pass filter in this case in order to minimize the spikes and thus improve the motor efficiency? Low Pass Filters can be made from passive components such as LC circuit and may cost less than the current control method, I am guessing someone may have already tried it but it is not mentioned in this video? What is your take on that?

  • @macoppy6571
    @macoppy6571 3 роки тому +4

    Leave it to Rolls-Royce to market their R&D for a MORE expensive to produce electric motor. The video says "INvest", while the comments say "DIvest".

  • @hoplahey
    @hoplahey 3 роки тому +6

    In a video like this you should mention the downsides of the consept. If there was only positive sides with this motor, it surelely would be the standard? So what makes is so that induction motors have 99% of the market and this practically zero?

  • @solarfluxman8810
    @solarfluxman8810 3 роки тому +3

    The part I'm having trouble with is, there are six coils and six magnet poles shown. They all line up at the same time. This seems like a single phase arrangement, to me. Yet, it's being used with a three phase input. Help please.

    • @RT-js4tz
      @RT-js4tz 3 роки тому

      The first set of magnets can be phase a and b, the second phase a and c the third set phase b and c. The key is the controller allowing the rectified voltage at the right time and right polarity. The controller doesn't care if it's fed with single or three phase, just fire the scr's at the right time into the right magnets.