I should mention that since the model 3, Teslas use Reluctance motors (IPMSynRM). So teslas can have AC induction motors and reluctance motors. IPMSynRM are really cool in how they work. I want to do a whole video on them.
I would challenge one comment that you made about ICEs which is a very commonly held misconception.... In a typical automobile the peak efficiency of the ICE is typically about 35% however the average efficiency based on how you actually use them will be much lower than this. With such low efficiency many people wrongly assume the translation from a linear to rotation motion must surely be a major contributing loss and this wrong assumption has been the starting assumption for a plethora of very complex alternative ICE designs. If you do the analysis it turns out that the actual mechanical loss in converting the linear to rotational motion is less than 1% hence you can't use it as an argument for explaining why you typically get less than 20% efficiency from your dinosaur burner under the hood of your car.
@@michaelharrison1093 Very interesting. I’d like to see that analysis if you have a source! Also besides efficiency you can realize a lot of other problems with having to convert linear motion into rotational. It necessarily requires a lot of moving parts. So I think the efficiency is only part of the problem.
It may not be terribly efficient, but it is an interesting way to demonstrate on how a gasoline engine works, without the limitations in models that use fuel.
No. The only relation this has to a gas engine is that it shows pistons go up & down. There is so much more going on with the pistons alone (let alone the rest of the engine) that isn't shown that makes this demonstration about as useful as using a kite to explain an airplane. Cool toy though.
@@JiltedValkyrie it depends greatly on your goal, TH-cam can often be a relatively good source for entry level instructional material for most subjects if you know the right keywords.
There are small model sets that use an electric motor. Basically a starter motor to turn the crank and everything realistically. There pretty cool and don’t need fuel
Well nice engineering but not practical. But maybe it has an element to it? I think he forgot to mention this. Magnets lose their magnetism overtime but electric magnet? I think that's a great idea just like the Maglev. Electric Magnet + Engine Design = great source of power. Of course it's not perpetual but it can run very much that long. Action Lab did a great job in making the model of this!
@Clayton Jones I don't see how this would help. It would make it unnecessarily complex, still probably wouldn't match up well with a manual gearbox, and even if it did, the performance you get out of it would almost certainly be well below what you get from a conventional motor attached to a single speed gearbox
Besides the efficiency and complexity reason: electric motors offer a precisely controllable torque, which allows for better handling. Using reciprocating solenoids would remove that benefit.
@@TheNuclearBolton It would work if you fired 4 of the 8 pistons at the same time like in that model. That way while half the pistons are being pulled to the top, the others are being pushed down at the same time. However like he said you don’t usually want to fire multiple pistons at the same time.
pffft. how typical. how imaginative. how about making the piston from an iron slug, place the coil at the midway point, wrap a single copper ring around the piston, then simply slam some power through the coil when the slug is in the middle, so the crank is at 90 degrees, with maximum torque, and the induced current in the copper ring causes a repulsion that forces the piston down? and up on the return stroke. and you can also have coils top and bottom to fill in the other two half strokes. attraction sucks. repulsion kicks arse. then the return spike of the collapsing magnetic field from the coil being de-energised can be captured into a capacitor and recycled, but thats silly talk.
@@osmacar5331 Dude it's a proof of concept video. He's not trying to revolutionize the engine, he's showing a cool scientific design and explaining why it's inefficient.
Im pretty sure that you can add a transmission straight to a electric motor. They don't do it because now everyone uses automatic transmission. I would LOVE a manual electric car.
I swear I designed this very motor back my senor year in 12. Spent a year on it and it was an amazing motor. Used the 3cylinder tractor motor to build from. Currently use it on a homemade go cart
@Edward Elizabeth Hitler granted mine was a bit different. Custom head with eltromagnets inplace of valves. Once the distributor lit up the magnet it pulled up on the piston which had a fixed magnet. By sending current thru two magnets on the head I could push pull the pistons. By putting in a potentiometer I could controll the force of the magnets.
The most practical application would be for replacement of old gas engines that use a standard clutch. This will allow for some similarities to a combustion engine and would give you different variations of torque and efficiency curves. Which could all be done by a rotor based motor and electronics with complex algorithm and sensors. I kinda want to know what a powerful solenoid base reciprocating motor would behave like. It might be worth the trouble.
its very awesome that more and more youtubers are getting interested in the car industry to make cool videos about them, I thought James would make a video like this and he finally did
It could work as a conversion kits for existing V8 and V6 engines. Could also save thousands of engine assembly jobs and factories. Would be a great alternative for people who don't want to give up their ICE for full electric. Might work better for energy recapture/recharging. Not a totally awful idea.
Huh.. That's totally fascinating!! Did you build this electric V8 for this episode of the The Action lab?? I'd be very interested to see some detailed testing of this interesting electric V8 to see what kind of actual performance stats it has, That would be really fascinating. I bet you could really do some fine tuning on this design and increase efficiency and power output. While rotary electric motors may be simpler and less mechanically complex, it would just be really cool and novel to make a functioning electric V8 car just to say you did and cruise around in it and show it off.
Looked more like a kit, although if he did build it himself, that would say a lot. *I just checked the description and it has a link to the kit that you can buy.
@@MyHandleIsGood I just think that would be the coolest thing to build - for real. Like start with a real lightweight aluminum block V8 engine (from a wreck or wherever), and rebuild the cylinder heads just like in this little plastic kit. You would have to custom machine "pistons" from big huge magnetic blocks of material, and probably sleeve the heads with teflon sleeves or something else really slippery. I just wonder how well that would work, and what kind of power it would consume and what kind of power/torque you could get out of it. Hmmm....
To get a cool V8 sound, the idea can be hybridized. An actual combustion engine with magnetic pistons, that uses real fuel, where the cylinder wall wrapped in electric coils that assist the piston, to make a hybrid electric gasoline or diesel engine with E-boost assist, that can turn the fuel off & run in full electric modes with lower output for low load highway cruise, when going down hills, to recover energy to charge the vehicle battery with regenerated energy
I mean if you could do something like that and reduce the overall force required to push the pistons you could get higher rpms with same amount of wear maybe more of a race thing then an efficiency thing
Actually we can use this configuration to assist internal combustion engine meaning boosting the overall power of the engine without much issue and for the same volume of engine
This is all very impossible sounding. The magnets on the piston will get demagnetized in the extreme environment, and considering the cylinder is metal, the magnetic fields won't even go through to the other side to energize the coils. The best way to go about this would be to attach an electric motor to the engine output shaft through a clutch and using it as a motor/alternator as needed. In other words, a regular hybrid car.
@@kamisama9715 one. why are there magnets anyway. two, i use ferrite magnets to hold tungsten carbide tips as i braze them. they get red hot and stay magnetic. three. why magnets again? last time i looked inside an induction motor, i found zero magnets. thing is... this whole video, this comment thread, these replies... are an example of stuck in the rut thinking. complete misunderstanding of how basic machinery that powers our everyday lives actually works. complete inability to look at things from a new angle a different perspective. i can get a 50mm ferrite slug to repel from a coil with 10A at 12v. it can create 12T of pressure. i use no MAGNETS. i tried figuring out gauss and webers and oesterd once but wow, that stuff just makes it all seem confusing and obscures the simplicity... its for professors to teach, not for people to actually understand and use in practical things. there is no easy way to correlate "so many turns of wire at so many amperes makes a field this strong that can lift so many kg of a ferrous material". its all obfuscated and made ridiculously complex. easier to just fiddle with bits of wire and some logic and use a strain gauge. how much pressure can you get onto a crankpin with a traditional combustion event in a piston engine, with a 50mm piston? take 100bar to be the maximum pressure available, at TDC, when the crank cant really do much... and remember, thast only a brief spike, its well below that by half stroke... so how much torque could i get with my 12T on the same crankpin? when its at 90 degrees rather than TDC? and i can dump that power pretty fast... and it comes back when i turn the coil off!
3:40 "A Tesla uses an induction motor" Teslas used induction motors until the Model 3, whose IPMSynRM (Internal Permanent Magnet Synchronous Reluctance Motor) has since propagated back to the other models, to include the carbon-sleeved-rotor variant revealed during the 2021 Plaid event.
This is a great sponsor and I bought my wife and I some land in Scotland for our anniversary ! We just got back from there and love it dearly and this is a great way to help preserve it and have some fun too. Thanks for helping me out with a cool gift😅
@Edward Elizabeth Hitler You're welcome and my pleasure honestly. It is the most beautiful place filled with more kind and friendly people that I have seen on Earth so far. I literally cried when it was time to leave.
Would this configuration have a niche application? I mean, a real practical use. For instance, a straight-forward electric compressor would be something like an electric motor powering a piston compressor. However, we could make this process much simpler if a solenoid powers the compressor piston directly.
Well, the other way around, if you have a communal crankshaft of X length, the public can add/subtract modular motors to use it's energy and/or dynamos to add to it's momentum, like energy buyback for electric vehicle parking lots or whatnot
You said in the video the electromagnet attracts the magnetic piston. It looks like the two leds on top of the cylinders flash once each, and at slightly different times. I would guess that the first led flash attracts the piston and the (other) second led flash repels the piston. It makes more sense to me this way giving it twice the power.
Power is limited by amps × coil resistance / period of time to dissipate watts of heat. Powering on the push and pull has current flowing through the coils twice as long reducing the max current to 1/2 of where one has current flowing half the time at twice the current. Just saying one can get the same max power using 1/2 a cycle And doing power on 1/2 a cycle allow one to use cheap steal piston rather than expensive temperature sensitive magnets that loose their magnetic strength over time.
While one LED could be directly powered, the other one might be lit using the movement of the magnet in the solenoid via inductance alone. It would create a more powerful engine to both push and pull the magnet, but I think it was an attempt to be as similar to a combustion engine as possible by having only one powered portion of the cycle.
@@Tsudico I believe that you are right. I think that one LED is showing the switch off due to induction of the magnet. I think it only has one powered portion according to the short description from the manufacturer.
People saying "haha electric cars will always remain bad and that we will never shift because it has no awesome sounds." were exactly those types of people who denied shifting from horses to cars in the first place.
HOWEVER! - Some of the BEST ICE to Electric car conversions have been, where they have simply JUST replaced the ICE motor and connected it to the 4 or 5 speed ORIGINAL manual gearbox! Old Porsches, MG's, Triumph Spitfires, Karmann Ghia, and many more classic cars converted this way have proved to be EXCELLENT Electric drivers cars, none of the 2 pedal instant start/stop, just quieter and you STILL have driver engagement with the clutch and gears... What's more, it depends on how you tune your Electric motors ECU for power delivery, low revs torque for days, or a steady ramp up to max RPM... 😎🇬🇧
Particularly interesting one.. I never thought about the losses when converting linear to rotational motion (especially when the rod is farthest away from a 90⁰ angle to the crank).
@@giovanniquargentan6198 Except there are because the connecting rod is the same length throughout its movement. When it hits 90 degrees, the piston has traveled about 55% of the way down the bore, rather than 50%. This causes uneven forces throughout the movement of the piston, the piston moves faster in the first half of the stroke than the second half. This is secondary engine imbalance. And the connecting rod is stealing power from the crankshaft, from the other pistons, to do this in both halves to make up for those imbalanced forces. The engine is vibrating rather than delivering force to the wheels, which is energy loss. Balancing shafts can be used to reduce this imbalance, but it's a treatment to overall engine vibration, not a cure to the root issue, and does nothing to treat vibrations experienced by the crankshaft itself. You have to fix the connecting rod to fix this inefficiency.
@@KaiserTom you are correct, there are some losses in vibration, BUT they are very very minimal. I suggest you check the replies under the pinned comment of action lab, i gave a much more detailed explanation, also there's a guy named "michael harrison" who also explained it correctly.
Petrol combustion engines are dead but Diesel combustion engines have got a future with Hydrogen and Biofuel as both can be used in a modified Diesel combustion engine
@@moabman6803 (piston (plus 3 rings), arm, crank)x8+2 bearings. Technically this would be fewer moving parts as you don't need camshafts, I think you can reduce the coolant flow with this design, but you'd still need oil flow. no need for a fuel pump...
Crankshaft motor flywheel AC axial Pancakes/, DC tnotor cromotor pancake & flat sun planetary gear or Koensegg direct drive will fit directly to the driveshaft crankshaft belt side Take a look at the flywheel clutch disc V8 Ferrari engine 3D image OMR Automative Stellantis 18 brands badges merge FCA Fiat Chrysler PSA Peugeot Citroen has all my concerns concepts Matching RPM on Also adding micro second immediately on gear shift or manual button electric injection 500w to 1 kw +
Plenty of us are more interested in the novelty than efficiency or power, so I think it's a pretty cool idea personally. It'd actually be "fairly easy" to convert an ice to this. You could use the same rotating assembly, slap coils where the pistons were, ditch the head, etc
4:04 that’s exactly what I hate (and love) the most about my Tesla 😭😭 I hate it because when I quickly accelerate, the car is just completely silent, no aggressive engine roar. But I love it because when going 100-130 it’s still quiet, sure you still have the noise from the wind, the other cars around you and the tires going over the asfalt, but it’s quiet and peaceful.
No, it is not a good idea, but it sure is a cool one. I've got to make one of those, but with a [mechanically] programable distributor so I can play with firing order.
@@lasskinn474 Flatplane is up-down-down-up, whereas on Shelby it's up-down-up-down aimed to achieve the benefits of a typical flatplane V8 while keeping the roar of a crossplane V8
As an engineering employee with a company that was developing a machine that needed the performance and especially the low-end torque of a diesel engine when "bogged down" with a very high load. When we tried using the same rated horsepower electric motor instead, instead of "toughing it out" and coming recovering from an extreme load like the Diesel, it simply threw its breakers and quit. There is a lot to be said for the torque a heavy crankshaft/flywheel combination can give you over the impressive numbers the electric motor manufacturers put out that promise you "indefinite" performance under any condition until it is hit with a "real world" problem.
Could be a relatively inexpensive way to convert combustion cars to electronic without having to replace the entire drive train. Bolt right up to the existing transmissions.
But before I even finish watching I have to ask this question: Why would this possibly be better than any comparably sized traditional electric motor? Now to see what you'll say about that in the rest of the video....
@@falkez1514: Nope, because the power/size ratio is already MUCH better with just a standard motor, doii. But yeah, this is cool as just some kind of novelty thing.
UPDATE to my OP: Yep, my guess was right; there is no benefit of this over purely rotational motors. Otherwise they probably would've been in development already.
Even with that design you'd still need oil in the block for a lubricant and you'd need some sort of lubricant in the cylinder or your rings and cylinder walls would be metal grinding on metal damaging the cylinder walls or the rings which would result in loss of compression
A somewhat interesting idea, save one problem: using the magnets to PUSH the pistons down. When 2 opposing magnets push against each other, the magnetic fields of both weaken over time. That’s why most magnets say to store them north-pole-to-south-pole; so that there’s no destructive interaction between them. A better design would be to have the coil for each “cylinder” at the bottom, where the magnetic field would pull the piston down, thus preserving the magnetism of the piston. Granted, that could have the side effect of the magnetic field of the coil “grabbing” the crank shaft, or potentially inducing a current as the crank shaft rotates… but still; not really a practical design for an electric drivetrain either way.
@@whatnut made in the USA used to be on every single thing that you bought and we were the strongest country on the globe. They put a media blackout on AIDS for 20 years, they put a media blackout on how farmers and everybody else used hydrogen from Water by using their ohm meter and generator on the vehicles and equipment. First came the part, carburetor and fuel injections, then came the gas stations. Before the gas stations and carburetors, everything was H2O
@@whatnut every combustionable engine can run off of hydrogen. I'm talking about using 1880s technology also. No spacecraft, just ancient primitive science
@@banditeastlick2471 no thanks. If it comes down to it I'm going to go to the local junkyard and grab as many old tires I can, heat those babies up to about 800 Degrees and convert them to fuel oil through pyrolysis, then I thank you distill that oil at about 160 to 200° Celsius and it vaporizes all the hydrocarbons into a fine liquid AKA combustible fuel that can run a gas engine. You would have to add a little bit of the fuel oil to the distilled mixture to up the octane for a gas motor. I've seen them doing this in Rwanda, they literally distill gasoline and Diesel using old tires, all that's left is the steel built from the tire and ash. I spent 15 years looking for a 1992 Mazda MX3 Grand Sport with its quad cam v6. I'll be damned if a bunch of hippies are going to stop me from driving my car.
@@ericbeltrami2718 when the SHTF do you really think you will make it with the footprint that will create? I will send you to a link to hippie that will show you how easy it is to run off of hydrogen. It's buried in my "truth is freedom" playlist
@@banditeastlick2471 Hydrogen? not without reprograming the computer to handle the change in fuel density and refitting the fuel injectors. Ethanol would be an easier replacement.
People that want to switch to ev don't realize that in doing so your actually increasing your carbon footprint. Don't believe me? Do some research into lithium mining, refining and battery manufacturing. Not to mention that lithium is far more violently reactive than gassoline
Simple solution: make a pneumatic engine, put in a chemical reaction with H2O2 and KMnO4 in a tank, make a regulator for 2 bars (29psi) and run it up. Integza made one but I saw it work only with compressed air. I thought about it. Hydrogen peroxide and potassium permanganate's reaction reaches up to 60 bar. So you can totally make an engine that sounds awesome and it uses clean energy. The engine's performance is determined by how much pressure is in a tank. so that's why I wanted you to make a video about it
An electric motor might not be able to produce such awesome sounds. But an electric speaker 🔊 can. You can shift from a regular 4 cylinder all the way to v12 if there's an appropriate software ( Mercedes, Audi, VW etc are working on it). Making such software isn't a big deal since it's already there in video games. All it takes is to sync the sound with the accelerator pedal!
Accelerator pedal position, engine speed, and engine load all effect the sound. Not just pedal. But these things are all simple to monitor and implement. Hard part is to make it sound right and be loud enough to be realistic and still fit comfortably in a car.
Cars don't actually sound like cars. Modern internal combustion engines are very efficient (well, as efficient as a linear-to-rotational conversion of discrete explosions can be) and don't make much sound. Not only does this displease people who like old-fashioned engine noise, it is unsafe for pedestrians who can't hear a quiet car coming. Manufacturers use all sorts of systems to make cars noisy again, and "just play engine noises over a speaker" has been a popular solution for several decades now. The field is called "Active Sound Design" if you want to know more.
@@darksideblues135 also, rare earths are disgusting to mine. It pollutes and obliterates the landscape. Perhaps if our ability to recycle most of the rare earth metals in batteries electric motors may be the future, but we are not close to doing this efficiently and effectively.
@@bathhatingcat8626 yeah. That’s not going to happen. The whole recycling thing is bogus. We don’t even recycle anymore in the states. We still are forced to pay for it, keep the blue bin, but it all goes in the land fill. China stopped buying the garbage... so, if there is no money in it, then it doesn’t happen. And really, all this ev push is for politician donors to make money, the government forces these toxic pieces of junk on us to “safe the planet,” which they have predicted wrong for the past 50 years. These car companies wouldn’t be doing these ev’s if they weren’t getting subsidized. They are inferior to gas powered cars in every way... environmentally, convenience, everything... except torque... unless you haul something then the truck dies street 20 minutes from a full charge. No rational person would buy those cars. I’m getting a gas powered v8 next year. Longer range than any ev in the market, and the battery only costs 100 bucks to replace instead of 30,000.
You are not considering back emf could be used to fire each other piston in turn with less losses. Not to mention you could also use compression with valves and add an accumulator tank ?
Not to mention that now you need a drive train, which is also a point in which you can lose energy to heat. Meanwhile you can just control the rotation speed of a regular electric motor with a bit of circuitry.
The other thing is, an electric piston doesn't need a compression stroke. It basically runs in 2 stroke mode. 1 stroke, if you reverse polarity in the coil. That means it would generate power on the down and upstroke. While it can generate less power than a gas cylinder, an electric piston configuration can provide this lower power 4x more. Thus an 8 cylinder version isn't necessary. You might as well create a 3 cylinder, or 4 cylinder with bigger magnets. Lastly, permanent magnets lose magnetism, especially in the use cases of an engine like this, due to heat. It would mean your engine needs new magnets every time. What would make more sense is to replace the permanent magnet with a coil and capacitor, which would work more permanently.
So what if you assisted a diesel motor that uses compression to ignite the fuel. The electric coils could assist on up stroke and down stroke. Meaning higher compression and less fuel needed.. what if you put magnets on turbo outter compressor blades or on exhaust outter turbine blades and make turbo go into boost earlier in rpm range with electronic magnets. It could also spool higher at upper rpm range. Only restrictions would be not enough exhaust gasses to turn the turbine causing restriction. You could do low rpm butterfly exhaust dump valve that opens when just using magnets mainly. Such as at max full throttle rpm. Where exhaust tapped out but turbo electric assisted could spool higher if not restricted by exhaust gasses.
Rods are unnecessarily long. Also these types would work at optimum with a hydraulic drive train and the weights greatly reduced with no need for steel and iron to cast. No high strength materials for things like manifolds and heads are an added plus. Also don’t forget both production of vacuum and pressures can still be created for operations. Lots of potential. Even converting old engines into electrical ones . Take the heads off no longer needed and other tidbits like more precise bearings like those used in space aged tech, I know of one bearing that’s so precisely cut and tolerance and out of roundness is so on point it uses 0 lubricants and can’t because it would just sludge it all down.
Something I'm surprised I haven't seen brought up here though, is the ability to swap a gasoline car to electric if the platform is in a V8 formation. May not be as efficient. But it would allow some that may not be able to afford a Tesla to swap. Or if someone loves the body/design of their current car, to keep that while switching from gas to electric. I don't think there's enough conversations about swaps from gasoline to electric, instead of just getting rid of a car design you potentially love, just for the benefits of electric.
The entire benefit of electric motors is the instant torque; there's no need for complex mechanical internals because you can just provide power directly to the motors.
The biggest benefit of this with a mechanical motor is that the motor could theoretically also be hooked up to a generator which could in turn recharge the battery. It wouldn't be 100 percent efficient but it would make progress towards it
1:45 Couldn't you just offset the pistons around the crack shaft so that they couldn't fire at the same time (i.e. all pistons are at different 45 degree angles around the shaft)? I'd assume that would make the electronics a little more complicated since the signal would need to be offset as well.
You could and should if you're making a solenoid engine as something to use and not as a model of a v8 engine. In a 4 stroke engine you need 2 up and downs per power stroke and pairing helps with vibrations
Hey all. I'm a nuclear engineer, and I just saw an ionization event in the two seconds between the 3:23 to 3:25 time stamp of this video. If you slow it down, you can nab a screen shot. I assume this is a free electron that is accelerated by the magnetic field (and the electric potential) enough to reach speeds that ionize the air molecules in it's path... beautiful to see 🤗
What's the max rpm? of this V8 configuration? Conversion losses from linear to circular motion is an issue. However, we have the single piston rod. Using 2 electromagnet in a horizontal piston. Its simple design helps with weight and speed control.
So question.. why not go with hydrogen in the cylinder that gets compression assistance if even needed by that example of coils and permanent magnets? Sounds like it can charge by induction by default when idle and provide more power when a load is applied?
I've often thought there was no reason not to have a speaker put out a sound on an electric vehicle, if just to let people know it's moving, so they know to look out for it.
i have always thought this would be a cool idea, too. from what i've read, i know that some cars actually use the car stereo system to play engine sounds for the driver in order to add to the experience, so this would just be the same thing but for full EV's. realistically though, i think the novelty would war off pretty soon and it would just be turned off after that. for example, modern automatics have the paddles which let you shift like a standard, but after playing around with them a few times, who actually uses them for their daily driving? so i think it would be similar to that. if you want a standard to use the gears, people just get a manual transmission, and people who want the engine sound will just get a non-EV. however, it would still be pretty cool if an EV implemented the idea.
I should mention that since the model 3, Teslas use Reluctance motors (IPMSynRM). So teslas can have AC induction motors and reluctance motors. IPMSynRM are really cool in how they work. I want to do a whole video on them.
Can’t wait for that video! Always wanted to know how a Tesla works beyond the standard electric motor!
I would challenge one comment that you made about ICEs which is a very commonly held misconception....
In a typical automobile the peak efficiency of the ICE is typically about 35% however the average efficiency based on how you actually use them will be much lower than this.
With such low efficiency many people wrongly assume the translation from a linear to rotation motion must surely be a major contributing loss and this wrong assumption has been the starting assumption for a plethora of very complex alternative ICE designs.
If you do the analysis it turns out that the actual mechanical loss in converting the linear to rotational motion is less than 1% hence you can't use it as an argument for explaining why you typically get less than 20% efficiency from your dinosaur burner under the hood of your car.
@@michaelharrison1093 Very interesting. I’d like to see that analysis if you have a source! Also besides efficiency you can realize a lot of other problems with having to convert linear motion into rotational. It necessarily requires a lot of moving parts. So I think the efficiency is only part of the problem.
@@TheActionLab hey man I want you to know I've been subbed to you since you had about 200k subs and your videos are amazing, thank you for them!
What I know that Tesla S model used Induction then they use Permanent Magnet and now using hybrid of PM and Reluctnace motor which is IMSynRM
It may not be terribly efficient, but it is an interesting way to demonstrate on how a gasoline engine works, without the limitations in models that use fuel.
Watching TH-cam is not either, but enjoyment is important too.
@@JiltedValkyrie 😂
No. The only relation this has to a gas engine is that it shows pistons go up & down. There is so much more going on with the pistons alone (let alone the rest of the engine) that isn't shown that makes this demonstration about as useful as using a kite to explain an airplane.
Cool toy though.
@@JiltedValkyrie it depends greatly on your goal, TH-cam can often be a relatively good source for entry level instructional material for most subjects if you know the right keywords.
There are small model sets that use an electric motor. Basically a starter motor to turn the crank and everything realistically. There pretty cool and don’t need fuel
Good idea? No, but it's surely very entertaining and educational!
Yep, loved it as always.
Well nice engineering but not practical. But maybe it has an element to it? I think he forgot to mention this. Magnets lose their magnetism overtime but electric magnet? I think that's a great idea just like the Maglev. Electric Magnet + Engine Design = great source of power. Of course it's not perpetual but it can run very much that long. Action Lab did a great job in making the model of this!
... but you could retrofit a petrol engine with this idea😁👍
@Clayton Jones I don't see how this would help.
It would make it unnecessarily complex, still probably wouldn't match up well with a manual gearbox, and even if it did, the performance you get out of it would almost certainly be well below what you get from a conventional motor attached to a single speed gearbox
Why is it not a good idea?
@@minzugaming Many electric motors do exclusively use electromagnets, you just usually can't get as much torque for a given speed and size of motor.
Besides the efficiency and complexity reason: electric motors offer a precisely controllable torque, which allows for better handling. Using reciprocating solenoids would remove that benefit.
Exactly, More noise less efficient and overley mechanically complex.
@@dogwalker666 hence fulfilling the basic requirements of American muscle cars
@@dogwalker666 What if I am stupid but I love the noise, what then?
@@roseCatcher_ We can install some nice speakers in the car.
@@roseCatcher_ then get a V8 right now
By reversing polarity you could make each cylinder pull on upward stroke and push on downward for more torque.
Cool Idea bro.
Wouldn’t that slow the crankshaft or skew the timing of the engine?
@@TheNuclearBolton It would work if you fired 4 of the 8 pistons at the same time like in that model. That way while half the pistons are being pulled to the top, the others are being pushed down at the same time. However like he said you don’t usually want to fire multiple pistons at the same time.
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pffft. how typical. how imaginative.
how about making the piston from an iron slug, place the coil at the midway point, wrap a single copper ring around the piston, then simply slam some power through the coil when the slug is in the middle, so the crank is at 90 degrees, with maximum torque, and the induced current in the copper ring causes a repulsion that forces the piston down? and up on the return stroke. and you can also have coils top and bottom to fill in the other two half strokes.
attraction sucks. repulsion kicks arse.
then the return spike of the collapsing magnetic field from the coil being de-energised can be captured into a capacitor and recycled, but thats silly talk.
The sound explanation fascinated me. I never even thought of it like that before but that is so cool to learn
Instead of turning off the coil, you can reverse the polarity, so you have power transfer in both directions the piston travels.
If you look at the LEDs in slow motion, you can see they alternate. They are being reversed.
Still wasted energy, electric stuff just needs an ESC this is just wasting effort where and engine produces mechanical energy from chemical energy.
@@osmacar5331 in that too energy gets wasted as heat
@@sdspivey no those are there to show what the valves would be doing in a real gasoline engine
@@osmacar5331 Dude it's a proof of concept video. He's not trying to revolutionize the engine, he's showing a cool scientific design and explaining why it's inefficient.
The engine sound simulation was amazing. Even tho it’s a wood block sound, it still sounded like “American Muscle” 😂
If you like that, check out AngeTheGreat
@@DFPercush never heard of it. Is it good?
@@nugboy420 just type it in the search bar, dude made an engine simulator
@@DFPercush thanks I’ll do that now I’m still up and need something to settle down and fall asleep lol.
@@DFPercush I did check it out btw. And yesss
I really appreciate the sound to better understand the differing pattens for the piston rotation.
I would be down for this. It would be the solution to making an electric car with a cool sound and a manual transmission
Im pretty sure that you can add a transmission straight to a electric motor. They don't do it because now everyone uses automatic transmission. I would LOVE a manual electric car.
@@agoogleuser2619 Not everyone. Maybe in the usa. But there are many other countries around the world where that isn't a problem to shift gears.
@@gergonagy3679nah not in the usa bro theres alot of manual drivers here
The oil companies would have your head.
I swear I designed this very motor back my senor year in 12. Spent a year on it and it was an amazing motor. Used the 3cylinder tractor motor to build from. Currently use it on a homemade go cart
You should definitely make videos
@Edward Elizabeth Hitler granted mine was a bit different. Custom head with eltromagnets inplace of valves. Once the distributor lit up the magnet it pulled up on the piston which had a fixed magnet. By sending current thru two magnets on the head I could push pull the pistons. By putting in a potentiometer I could controll the force of the magnets.
Where you able to hook an alternator and a battery to it?
The most practical application would be for replacement of old gas engines that use a standard clutch. This will allow for some similarities to a combustion engine and would give you different variations of torque and efficiency curves. Which could all be done by a rotor based motor and electronics with complex algorithm and sensors. I kinda want to know what a powerful solenoid base reciprocating motor would behave like. It might be worth the trouble.
Why?
I saw a 4 cylinder kit back in 1998. It didn't have flashing LEDs and was build around a Basic Stamp as the controller.
those will work more reliably like a Toyota
I aint heard that name in a while. My school was passing them out during my time there for arduinos.
Would love to see this scaled up. What was the power consumption vs standard electrical motor at same level?
I remember drawing this idea out as a kid. I had the vision, amazing to see it in use.
its very awesome that more and more youtubers are getting interested in the car industry to make cool videos about them, I thought James would make a video like this and he finally did
It could work as a conversion kits for existing V8 and V6 engines. Could also save thousands of engine assembly jobs and factories. Would be a great alternative for people who don't want to give up their ICE for full electric. Might work better for energy recapture/recharging. Not a totally awful idea.
And have like a a few hp car? And add a few thousand pounds of batteries lmao
Its not at all a possibility if you didn't know
The beauty of an electric motor is the huge reduction in moving parts and the resulting lack of servicing those moving parts require.
used to have an old DC electric motor that sounded a little like that, but it was because the bearings were so worn out that the armature was wobbling
Horribly efficient but a good way to demonstrate the mechanics of an engine and electromagnets
Beside efficiency
This one is so freaking cool for an rc car, they're so damn cool
Without watching it, no it isn't, because of efficiency. Next one please.
Huh.. That's totally fascinating!! Did you build this electric V8 for this episode of the The Action lab??
I'd be very interested to see some detailed testing of this interesting electric V8 to see what kind of actual performance stats it has, That would be really fascinating. I bet you could really do some fine tuning on this design and increase efficiency and power output.
While rotary electric motors may be simpler and less mechanically complex, it would just be really cool and novel to make a functioning electric V8 car just to say you did and cruise around in it and show it off.
Looked more like a kit, although if he did build it himself, that would say a lot.
*I just checked the description and it has a link to the kit that you can buy.
@@MyHandleIsGood I just think that would be the coolest thing to build - for real.
Like start with a real lightweight aluminum block V8 engine (from a wreck or wherever), and rebuild the cylinder heads just like in this little plastic kit. You would have to custom machine "pistons" from big huge magnetic blocks of material, and probably sleeve the heads with teflon sleeves or something else really slippery. I just wonder how well that would work, and what kind of power it would consume and what kind of power/torque you could get out of it. Hmmm....
I didn't build it. I put the link in the description where I bought it. It would be very cool to build a more powerful version of this one
@@deanlawson6880 you could easily exceed the maximum tourqe of the original engine.
Very very easily.
@@TheActionLab my cousin is 15 and interested in this tech. Do you have a similar Action Lab kit?
To get a cool V8 sound, the idea can be hybridized. An actual combustion engine with magnetic pistons, that uses real fuel, where the cylinder wall wrapped in electric coils that assist the piston, to make a hybrid electric gasoline or diesel engine with E-boost assist, that can turn the fuel off & run in full electric modes with lower output for low load highway cruise, when going down hills, to recover energy to charge the vehicle battery with regenerated energy
I mean if you could do something like that and reduce the overall force required to push the pistons you could get higher rpms with same amount of wear maybe more of a race thing then an efficiency thing
Actually we can use this configuration to assist internal combustion engine meaning boosting the overall power of the engine without much issue and for the same volume of engine
This is all very impossible sounding. The magnets on the piston will get demagnetized in the extreme environment, and considering the cylinder is metal, the magnetic fields won't even go through to the other side to energize the coils. The best way to go about this would be to attach an electric motor to the engine output shaft through a clutch and using it as a motor/alternator as needed. In other words, a regular hybrid car.
@@kamisama9715 one. why are there magnets anyway.
two, i use ferrite magnets to hold tungsten carbide tips as i braze them. they get red hot and stay magnetic.
three. why magnets again?
last time i looked inside an induction motor, i found zero magnets.
thing is... this whole video, this comment thread, these replies... are an example of stuck in the rut thinking. complete misunderstanding of how basic machinery that powers our everyday lives actually works. complete inability to look at things from a new angle a different perspective.
i can get a 50mm ferrite slug to repel from a coil with 10A at 12v. it can create 12T of pressure. i use no MAGNETS. i tried figuring out gauss and webers and oesterd once but wow, that stuff just makes it all seem confusing and obscures the simplicity... its for professors to teach, not for people to actually understand and use in practical things. there is no easy way to correlate "so many turns of wire at so many amperes makes a field this strong that can lift so many kg of a ferrous material". its all obfuscated and made ridiculously complex.
easier to just fiddle with bits of wire and some logic and use a strain gauge.
how much pressure can you get onto a crankpin with a traditional combustion event in a piston engine, with a 50mm piston?
take 100bar to be the maximum pressure available, at TDC, when the crank cant really do much... and remember, thast only a brief spike, its well below that by half stroke...
so how much torque could i get with my 12T on the same crankpin? when its at 90 degrees rather than TDC?
and i can dump that power pretty fast... and it comes back when i turn the coil off!
3:40 "A Tesla uses an induction motor" Teslas used induction motors until the Model 3, whose IPMSynRM (Internal Permanent Magnet Synchronous Reluctance Motor) has since propagated back to the other models, to include the carbon-sleeved-rotor variant revealed during the 2021 Plaid event.
This is a great sponsor and I bought my wife and I some land in Scotland for our anniversary ! We just got back from there and love it dearly and this is a great way to help preserve it and have some fun too. Thanks for helping me out with a cool gift😅
@Edward Elizabeth Hitler You're welcome and my pleasure honestly. It is the most beautiful place filled with more kind and friendly people that I have seen on Earth so far. I literally cried when it was time to leave.
Would this configuration have a niche application? I mean, a real practical use.
For instance, a straight-forward electric compressor would be something like an electric motor powering a piston compressor. However, we could make this process much simpler if a solenoid powers the compressor piston directly.
Well, the other way around, if you have a communal crankshaft of X length, the public can add/subtract modular motors to use it's energy and/or dynamos to add to it's momentum, like energy buyback for electric vehicle parking lots or whatnot
You said in the video the electromagnet attracts the magnetic piston. It looks like the two leds on top of the cylinders flash once each, and at slightly different times. I would guess that the first led flash attracts the piston and the (other) second led flash repels the piston. It makes more sense to me this way giving it twice the power.
Power is limited by amps × coil resistance / period of time to dissipate watts of heat.
Powering on the push and pull has current flowing through the coils twice as long reducing the max current to 1/2 of where one has current flowing half the time at twice the current. Just saying one can get the same max power using 1/2 a cycle
And doing power on 1/2 a cycle allow one to use cheap steal piston rather than expensive temperature sensitive magnets that loose their magnetic strength over time.
While one LED could be directly powered, the other one might be lit using the movement of the magnet in the solenoid via inductance alone. It would create a more powerful engine to both push and pull the magnet, but I think it was an attempt to be as similar to a combustion engine as possible by having only one powered portion of the cycle.
@@Tsudico I believe that you are right. I think that one LED is showing the switch off due to induction of the magnet. I think it only has one powered portion according to the short description from the manufacturer.
Nice video with a good explanation! But please ditch Established Titles!
People saying "haha electric cars will always remain bad and that we will never shift because it has no awesome sounds." were exactly those types of people who denied shifting from horses to cars in the first place.
This video: is making an electric v8 engine a good idea? No. But you can buy a piece of land and become a lord or lady. Thanks for watching.😊
I'm still waiting for someone to go try to claim their 1 sq ft of land and just stand there like "this is mine!" lol
@@DFPercush Good luck building a castle on it with the typical setback requirements. Perhaps they could build a moat?
@@SmallSpoonBrigade The tadpoles will protect meeee
HOWEVER! - Some of the BEST ICE to Electric car conversions have been, where they have simply JUST replaced the ICE motor and connected it to the 4 or 5 speed ORIGINAL manual gearbox! Old Porsches, MG's, Triumph Spitfires, Karmann Ghia, and many more classic cars converted this way have proved to be EXCELLENT Electric drivers cars, none of the 2 pedal instant start/stop, just quieter and you STILL have driver engagement with the clutch and gears... What's more, it depends on how you tune your Electric motors ECU for power delivery, low revs torque for days, or a steady ramp up to max RPM... 😎🇬🇧
Particularly interesting one.. I never thought about the losses when converting linear to rotational motion (especially when the rod is farthest away from a 90⁰ angle to the crank).
Because there aren't actually any losses due to that
@@giovanniquargentan6198 Except there are because the connecting rod is the same length throughout its movement. When it hits 90 degrees, the piston has traveled about 55% of the way down the bore, rather than 50%. This causes uneven forces throughout the movement of the piston, the piston moves faster in the first half of the stroke than the second half. This is secondary engine imbalance. And the connecting rod is stealing power from the crankshaft, from the other pistons, to do this in both halves to make up for those imbalanced forces. The engine is vibrating rather than delivering force to the wheels, which is energy loss.
Balancing shafts can be used to reduce this imbalance, but it's a treatment to overall engine vibration, not a cure to the root issue, and does nothing to treat vibrations experienced by the crankshaft itself. You have to fix the connecting rod to fix this inefficiency.
@@KaiserTom Thanks. Very interesting information there. I would love to learn more about this.
@@KaiserTom you are correct, there are some losses in vibration, BUT they are very very minimal. I suggest you check the replies under the pinned comment of action lab, i gave a much more detailed explanation, also there's a guy named "michael harrison" who also explained it correctly.
@@HeyChickens check out the channel "driving 4 answers", he's a nice guy who knows what he's talking about
Petrol combustion engines are dead but Diesel combustion engines have got a future with Hydrogen and Biofuel as both can be used in a modified Diesel combustion engine
Very cool to watch, but too many moving parts non-efficient and will wear out too quickly.
But like I said it's very fun to watch.
I see very few moving parts.
@@moabman6803 (piston (plus 3 rings), arm, crank)x8+2 bearings.
Technically this would be fewer moving parts as you don't need camshafts, I think you can reduce the coolant flow with this design, but you'd still need oil flow. no need for a fuel pump...
The fact that this man was able to explain just exactly how different firing orders make distinct sounds blows my mind
I came up with this exact idea one day at work and then thought to myself it wouldn’t be nearly as effective as current methods of EVs.
Crankshaft motor flywheel AC axial Pancakes/, DC tnotor cromotor pancake & flat sun planetary gear or Koensegg direct drive will fit directly to the driveshaft crankshaft belt side Take a look at the flywheel clutch disc V8 Ferrari engine 3D image OMR Automative Stellantis 18 brands badges merge FCA Fiat Chrysler PSA Peugeot Citroen has all my concerns concepts
Matching RPM on Also adding micro second immediately on gear shift or manual button electric injection 500w to 1 kw +
Plenty of us are more interested in the novelty than efficiency or power, so I think it's a pretty cool idea personally. It'd actually be "fairly easy" to convert an ice to this. You could use the same rotating assembly, slap coils where the pistons were, ditch the head, etc
I don't care if it's impractical, it's really freaking cool and I want it to be a thing
You can replace the pistons for long travel strong bass speakers, they do the same job basically
4:04 that’s exactly what I hate (and love) the most about my Tesla 😭😭
I hate it because when I quickly accelerate, the car is just completely silent, no aggressive engine roar.
But I love it because when going 100-130 it’s still quiet, sure you still have the noise from the wind, the other cars around you and the tires going over the asfalt, but it’s quiet and peaceful.
It must feel like toy when you can't feel power building up 😂.
But how do I do a pops and bangs tune on a tesla?!?!?!
@@currycel470 it does. The throttle feeling is garbage.
That the point of EV but i get what u mean though
Still can't escape from those beautiful engine roar
I find it ironic that petrolheads downplay EVs to mere toys only for them to cry about them not having sound they wanna hear right after.
I was thinking of this kind of engine 2 years ago in highschool. I didn't expect for someone to actually make it. Nice!
James: The V8 engine has 8 pistons so it has a lot of power.
V12 has joined the chat
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@Radin i wonder how many pistons could uniquely function in a single cam rotation
@Radin v69
V∞ enter the chat
V ktor
This is a good alternative for people who want a sound of an engine but have to go electric even at the efficiency costs
No, it is not a good idea, but it sure is a cool one. I've got to make one of those, but with a [mechanically] programable distributor so I can play with firing order.
Use a powerful flipping magnet flipped using a cam, all ran mechanically. If done properly, would it work?
There is actually one modern V8 which has this same up-down-up-down crank profile like on this solenoid engine, I believe on the 2014 Mustang Shelby
Flatplane
@@lasskinn474 Flatplane is up-down-down-up, whereas on Shelby it's up-down-up-down aimed to achieve the benefits of a typical flatplane V8 while keeping the roar of a crossplane V8
@@mihan2d
Yes, You are right.
But it is still a flatplane.
As an engineering employee with a company that was developing a machine that needed the performance and especially the low-end torque of a diesel engine when "bogged down" with a very high load. When we tried using the same rated horsepower electric motor instead, instead of "toughing it out" and coming recovering from an extreme load like the Diesel, it simply threw its breakers and quit.
There is a lot to be said for the torque a heavy crankshaft/flywheel combination can give you over the impressive numbers the electric motor manufacturers put out that promise you "indefinite" performance under any condition until it is hit with a "real world" problem.
Could be a relatively inexpensive way to convert combustion cars to electronic without having to replace the entire drive train. Bolt right up to the existing transmissions.
Not whatsoever.
This has been a hell of an informative video
But before I even finish watching I have to ask this question: Why would this possibly be better than any comparably sized traditional electric motor?
Now to see what you'll say about that in the rest of the video....
only benefit i can think of is the power/size ratio which isnt even that much better
V engines are super cool tho lol
@@falkez1514: Nope, because the power/size ratio is already MUCH better with just a standard motor, doii.
But yeah, this is cool as just some kind of novelty thing.
UPDATE to my OP: Yep, my guess was right; there is no benefit of this over purely rotational motors. Otherwise they probably would've been in development already.
@@HelloKittyFanMan. yea its just some cool idea i guess lol
Great explanation, the video is very well done and very educational, I love your videos
When I first started watching the video i was like "hey, yeah why don't we use those!?" Then I came to my senses 😅
Even with that design you'd still need oil in the block for a lubricant and you'd need some sort of lubricant in the cylinder or your rings and cylinder walls would be metal grinding on metal damaging the cylinder walls or the rings which would result in loss of compression
The oil would last a very very long time because there are no combustion gasses. This is actually a great idea.
I don't think so, we are losing a lot of force in V6 because transformation of force
A somewhat interesting idea, save one problem: using the magnets to PUSH the pistons down. When 2 opposing magnets push against each other, the magnetic fields of both weaken over time. That’s why most magnets say to store them north-pole-to-south-pole; so that there’s no destructive interaction between them. A better design would be to have the coil for each “cylinder” at the bottom, where the magnetic field would pull the piston down, thus preserving the magnetism of the piston. Granted, that could have the side effect of the magnetic field of the coil “grabbing” the crank shaft, or potentially inducing a current as the crank shaft rotates… but still; not really a practical design for an electric drivetrain either way.
Problem is that you'd have to have a super short stroke because the range of magnetic force drops really quickly.
You can just pull the ”pistons” away from the crankshaft.
This is the motor that will drive us to the stone ages
@@whatnut made in the USA used to be on every single thing that you bought and we were the strongest country on the globe. They put a media blackout on AIDS for 20 years, they put a media blackout on how farmers and everybody else used hydrogen from Water by using their ohm meter and generator on the vehicles and equipment. First came the part, carburetor and fuel injections, then came the gas stations. Before the gas stations and carburetors, everything was H2O
@@whatnut every combustionable engine can run off of hydrogen. I'm talking about using 1880s technology also. No spacecraft, just ancient primitive science
@@banditeastlick2471 no thanks. If it comes down to it I'm going to go to the local junkyard and grab as many old tires I can, heat those babies up to about 800 Degrees and convert them to fuel oil through pyrolysis, then I thank you distill that oil at about 160 to 200° Celsius and it vaporizes all the hydrocarbons into a fine liquid AKA combustible fuel that can run a gas engine. You would have to add a little bit of the fuel oil to the distilled mixture to up the octane for a gas motor. I've seen them doing this in Rwanda, they literally distill gasoline and Diesel using old tires, all that's left is the steel built from the tire and ash. I spent 15 years looking for a 1992 Mazda MX3 Grand Sport with its quad cam v6. I'll be damned if a bunch of hippies are going to stop me from driving my car.
@@ericbeltrami2718 when the SHTF do you really think you will make it with the footprint that will create? I will send you to a link to hippie that will show you how easy it is to run off of hydrogen. It's buried in my "truth is freedom" playlist
@@banditeastlick2471 Hydrogen? not without reprograming the computer to handle the change in fuel density and refitting the fuel injectors. Ethanol would be an easier replacement.
People that want to switch to ev don't realize that in doing so your actually increasing your carbon footprint. Don't believe me? Do some research into lithium mining, refining and battery manufacturing. Not to mention that lithium is far more violently reactive than gassoline
It would be cool to see a full size one anyway.
Just moved in to my 1' x 1' plot. It's a little cold over here, and all my neighbors are trees...but I love it.
Not a good idea, for sure, but... the pistons look cool 😎
Why is it not a good idea?
It's basically a waste of energy
@@Alasswolf Why? Solenoid motors can be very efficient
How good is the torque when under load though? Magnets only have so much resistance in a coil
The video was fine until the established title scam
Simple solution: make a pneumatic engine, put in a chemical reaction with H2O2 and KMnO4 in a tank, make a regulator for 2 bars (29psi) and run it up. Integza made one but I saw it work only with compressed air. I thought about it. Hydrogen peroxide and potassium permanganate's reaction reaches up to 60 bar. So you can totally make an engine that sounds awesome and it uses clean energy. The engine's performance is determined by how much pressure is in a tank. so that's why I wanted you to make a video about it
An electric motor might not be able to produce such awesome sounds. But an electric speaker 🔊 can. You can shift from a regular 4 cylinder all the way to v12 if there's an appropriate software ( Mercedes, Audi, VW etc are working on it). Making such software isn't a big deal since it's already there in video games. All it takes is to sync the sound with the accelerator pedal!
It's cool but would it be weird I mean its not real after all
@@Space.s.2017 what really matters is that you'll be able to feel the performance.
Accelerator pedal position, engine speed, and engine load all effect the sound. Not just pedal. But these things are all simple to monitor and implement. Hard part is to make it sound right and be loud enough to be realistic and still fit comfortably in a car.
@@ninefingerdeathgrip Absolutely. I think it'll come soon if it has demand
Cars don't actually sound like cars. Modern internal combustion engines are very efficient (well, as efficient as a linear-to-rotational conversion of discrete explosions can be) and don't make much sound. Not only does this displease people who like old-fashioned engine noise, it is unsafe for pedestrians who can't hear a quiet car coming. Manufacturers use all sorts of systems to make cars noisy again, and "just play engine noises over a speaker" has been a popular solution for several decades now. The field is called "Active Sound Design" if you want to know more.
4:12 that sounds of electric engine gives me goosebumps.🥵🥶😂
Electric motors may be the future, but nothing will beat the sound of a gas powered V8. Great video. 👍
They aren’t the future. Why would anyone want a car that takes a day to charge, a range that depends on temp causing massive drops in range.
@@darksideblues135 also, rare earths are disgusting to mine. It pollutes and obliterates the landscape. Perhaps if our ability to recycle most of the rare earth metals in batteries electric motors may be the future, but we are not close to doing this efficiently and effectively.
@@darksideblues135 they already are the future.
No new internal combustion engines in Europe from year 2035.
@@jareknowak8712 Yeah. It’s going to fail. And by the way. EV’s are older than gas powered cars. They were stupid back then, they are stupid now.
@@bathhatingcat8626 yeah. That’s not going to happen. The whole recycling thing is bogus. We don’t even recycle anymore in the states. We still are forced to pay for it, keep the blue bin, but it all goes in the land fill. China stopped buying the garbage... so, if there is no money in it, then it doesn’t happen.
And really, all this ev push is for politician donors to make money, the government forces these toxic pieces of junk on us to “safe the planet,” which they have predicted wrong for the past 50 years. These car companies wouldn’t be doing these ev’s if they weren’t getting subsidized. They are inferior to gas powered cars in every way... environmentally, convenience, everything... except torque... unless you haul something then the truck dies street 20 minutes from a full charge. No rational person would buy those cars.
I’m getting a gas powered v8 next year. Longer range than any ev in the market, and the battery only costs 100 bucks to replace instead of 30,000.
Imagine reinventing the wheel and making it square in the process
It's an awful idea, but, it's Hella cool
You are not considering back emf could be used to fire each other piston in turn with less losses.
Not to mention you could also use compression with valves and add an accumulator tank ?
Not to mention that now you need a drive train, which is also a point in which you can lose energy to heat. Meanwhile you can just control the rotation speed of a regular electric motor with a bit of circuitry.
The other thing is, an electric piston doesn't need a compression stroke. It basically runs in 2 stroke mode. 1 stroke, if you reverse polarity in the coil. That means it would generate power on the down and upstroke.
While it can generate less power than a gas cylinder, an electric piston configuration can provide this lower power 4x more.
Thus an 8 cylinder version isn't necessary. You might as well create a 3 cylinder, or 4 cylinder with bigger magnets.
Lastly, permanent magnets lose magnetism, especially in the use cases of an engine like this, due to heat. It would mean your engine needs new magnets every time.
What would make more sense is to replace the permanent magnet with a coil and capacitor, which would work more permanently.
I am the first viewer of this video.
Fake
Who asked
Who
I don't know bro, sounds more like Mr. Crabs 2:32
Interesting
Not even close to practical, but real fun to see it running. Now connect it to an alternator to make a perpetual motion machine
So what if you assisted a diesel motor that uses compression to ignite the fuel. The electric coils could assist on up stroke and down stroke. Meaning higher compression and less fuel needed.. what if you put magnets on turbo outter compressor blades or on exhaust outter turbine blades and make turbo go into boost earlier in rpm range with electronic magnets. It could also spool higher at upper rpm range. Only restrictions would be not enough exhaust gasses to turn the turbine causing restriction. You could do low rpm butterfly exhaust dump valve that opens when just using magnets mainly. Such as at max full throttle rpm. Where exhaust tapped out but turbo electric assisted could spool higher if not restricted by exhaust gasses.
Can you "throttle" that V8 Solenoid engine or is it just one speed?
Should be able to tune the speed by altering the voltage.
Cause I really needed this maybe someone else would appreciate it as well.
2:19 "Bubbly firing pattern"
2:34 "Non bubbly firing pattern"
Rods are unnecessarily long. Also these types would work at optimum with a hydraulic drive train and the weights greatly reduced with no need for steel and iron to cast. No high strength materials for things like manifolds and heads are an added plus. Also don’t forget both production of vacuum and pressures can still be created for operations. Lots of potential. Even converting old engines into electrical ones . Take the heads off no longer needed and other tidbits like more precise bearings like those used in space aged tech, I know of one bearing that’s so precisely cut and tolerance and out of roundness is so on point it uses 0 lubricants and can’t because it would just sludge it all down.
Something I'm surprised I haven't seen brought up here though, is the ability to swap a gasoline car to electric if the platform is in a V8 formation. May not be as efficient. But it would allow some that may not be able to afford a Tesla to swap. Or if someone loves the body/design of their current car, to keep that while switching from gas to electric. I don't think there's enough conversations about swaps from gasoline to electric, instead of just getting rid of a car design you potentially love, just for the benefits of electric.
This is the fifth channel I’ve seen sponsored by established titles
The entire benefit of electric motors is the instant torque; there's no need for complex mechanical internals because you can just provide power directly to the motors.
All the disadvantages of pistons! Brilliant ! Undoubtedly some people would buy it!
The biggest benefit of this with a mechanical motor is that the motor could theoretically also be hooked up to a generator which could in turn recharge the battery. It wouldn't be 100 percent efficient but it would make progress towards it
right...recover some of that energy....
1:45 Couldn't you just offset the pistons around the crack shaft so that they couldn't fire at the same time (i.e. all pistons are at different 45 degree angles around the shaft)? I'd assume that would make the electronics a little more complicated since the signal would need to be offset as well.
You could and should if you're making a solenoid engine as something to use and not as a model of a v8 engine. In a 4 stroke engine you need 2 up and downs per power stroke and pairing helps with vibrations
i dont see the benefit with this... a normal brushless motor works just as fine if not better...
this is more like a fun Novelty item
That was pretty cool!!
Hey all. I'm a nuclear engineer, and I just saw an ionization event in the two seconds between the 3:23 to 3:25 time stamp of this video. If you slow it down, you can nab a screen shot. I assume this is a free electron that is accelerated by the magnetic field (and the electric potential) enough to reach speeds that ionize the air molecules in it's path... beautiful to see 🤗
I was wondering when someone was going to point that out!
How much power does the selonoid use vs a normal electric rotational engine? Is the use of a capacitors an idea to push the sylinder harder?
What's the max rpm? of this V8 configuration? Conversion losses from linear to circular motion is an issue. However, we have the single piston rod. Using 2 electromagnet in a horizontal piston. Its simple design helps with weight and speed control.
I just can't give up that purr of a V8 and you throw a 6pack on top amazing
So question.. why not go with hydrogen in the cylinder that gets compression assistance if even needed by that example of coils and permanent magnets? Sounds like it can charge by induction by default when idle and provide more power when a load is applied?
4:20 Remember when someone was selling plots of land on the moon?
im so glad i got your Chanel, you put out excellent content. Thanks.
This was so damn nice to watch! Thanks again ❤
Ponytail is coming in nicely my man.
I've often thought there was no reason not to have a speaker put out a sound on an electric vehicle, if just to let people know it's moving, so they know to look out for it.
i have always thought this would be a cool idea, too. from what i've read, i know that some cars actually use the car stereo system to play engine sounds for the driver in order to add to the experience, so this would just be the same thing but for full EV's.
realistically though, i think the novelty would war off pretty soon and it would just be turned off after that. for example, modern automatics have the paddles which let you shift like a standard, but after playing around with them a few times, who actually uses them for their daily driving? so i think it would be similar to that. if you want a standard to use the gears, people just get a manual transmission, and people who want the engine sound will just get a non-EV. however, it would still be pretty cool if an EV implemented the idea.
NHTSA actually mandates that now and has for a while
This is the first ad read for Established Titles I've seen that makes it clear that these are novelty titles and not functional titles 😀🖖
It can be efficient if the air intake is provided in cylinder. Piston can be pushed downwards with the help of air and electric coils