I am absolutely disgusted that you can say your electricity consumption averages 1.8kW 24hrs a day, 30 days a month, without any sign of guilt on your face. I have NEVER in the 53 years of my life used more than 60kWhr a month for a house and engineering shop combined. Even if you drive a battery EV you would need to drive 5hrs per day to consume that much if its any kind of efficient. I operate a cruising yacht with all systems including electric Auxiliary, and tender, with two crew, and we usually require far less than half a kilowatt hour per day of solar generation. Stop pushing for exponential growth of consumption and screwing the planet with your pathological obsessions with compensation for you inadequacies by excessive displays of obscene extravagance and disposable consumer culture.! 😝
Tis the reports they were citing are over 14 years old and been disproven multiple times its a good dream and maybe a reality someday. I think it's because the tech industries know how revolutionary a material like lk99 would be and they want to promote interest in the topic as much as possible
This was the technology used in the movie "The Hunt for Red October". You might be interested that a stream of water can be deflected by an electrostatic charge. I've often thought that this effect could be used to separate fresh water from salt water because only freshwater water molecules are attracted.
Huh! Interesting… 🤔 I’ve always been fascinated by the separation of hydrogen from oxygen by using electricity. And when you burn the hydrogen and it mixes with oxygen we get polluted with water bahahaha Imagine if we lived in a world that wasn’t motivated by greed? But Humans are truly retarded. Watch the movie “Idiocracy” this is literally 💯 the way we are heading until we go extinct. Good riddance!!!
The CONDUCTIVITY of the fluid is crucial. While MHD is useful for some fluids like liquid metals or molten salts, even seawater is a bit sketchy. And you can pretty much forget using MHD pumps for salt-free freshwater. But as always, there could be a place for this, and your videos are great as always.
Would it be possible to add something to the fluids that don't work well which you can 100% filter out afterwards, if needed, that could solve the problem?
I really hope you mention the fact that it only works if you have an ionic solution, and you need a LOT of dissolved ions to be able to make these even slightly efficient, even ocean water doesn't have enough to make this a very efficient pump.
I've been fascinated with MHD since seeing The Hunt for Red October as a kid. I've seen action lab type experiments but no one ever went into depth about the shortcomings.
Definitely interested in more MHD coverage. It’s a fascinating technology. I’m also interested in alternative conductor materials. A material as ductile as copper but with half the resistance for a similar cost would have a massive impact. If we can find one…
The efficiency increase is very interesting. Further, the 'no moving parts' is intriguing. However, where pressure is high, the exit points of the fluid will eventually show wear and should for designed to ease maintenance and repair.
At 9:57, the efficiency formula onscreen, 1573/300 doesn't give the result 0.809.. It works only if you go "1 - 300/1573", which is, of course, a different formula. It's the same at 10:10, "1 - 300/3273" gives the right result.
Yep, I immediately noticed that error. I did know that the higher the temperature difference (or deltaT), the better the efficiency. Maybe the numbers were just shown for illustration purposes, but they really should not be written that way. You need to correct that formula. Otherwise, that was a very interesting video! Now if that room temperature superconductive material is real (which I really doubt), that would make way for some crazy new technologies.
MHD propulsion video - yes please! Gets my vote. Thanks for all your videos Ricky, you take complex tech and make it fun and easy. You are making a difference and many of us love you and your team for it.
A variant that I've seen used in several applications is MHD flow-meters. Small isolated electrodes inside the pipe, surrounded by a strong electromagnet. As the fluid flows, the electrodes can measure the small voltage generated and signal the velocity of the fluid. Using very sensitive electronics that don't require a lot of current, it works with only weakly conductive fluids. Once you have velocity and known pipe size, the volumetric flow rate is easy to calculate.
No, I know that a sensor like that can work. Just don't isolate your electrodes if you actually want current flowing through them, otherwise they're pointless. So like you said, separated is good because otherwise you'd have a short. But isolated is useless @@derrekvanee4567
I am on board with this as long as there are regulations requiring that each power plant equipped with this technology have a 3 story portrait of Sean Connery as Marko Ramius on the outside.
I'm thoroughly excited by all the possible applications of MHD you've talked about here. I look forward to seeing a future of looking up to see plasma powered aircraft exhaust overhead, like it's total sci-fi. I highly recommend the @PlasmaChannel video on designing and testing a table-top scale MHD water thruster! I'm also curious how an MHD generator would work at the end of a fusion reactor, being a source of superheated plasma.
As sea-water is conductive; would MHD generators be able to generate power anywhere in the coast? Yes an MHD propulsion video would be very cool to watch.
Thank you for tying the recent super conductor with MHD. I instantly wondered about the connection. Please keep exploring all the possibilities such break throughs offer. Mankind (and me) need the hope.
It also sounds like it moves the upper limit for speed. Just as ion thrusters could accelerate spacecrafts to really high velocities higher than conventional engines. Could a long enough magnetic pump increase a fluid to super high velocities? Could a long enough one create a negative pressure such would "stretch" a liquid into a gas?
I LOVE this channel. Its one of my top science related channels. Its a great place to get the basics of a complex new tech and still have details for the tech geeks.
@@TwoBitDaVinci No, Thank you for this channel. I sub to many science channels and yours is the channel I share with non science types to share my love of science. Other channels are more technical or How-to style, and those are great but sometimes you need a channel that specializes explaining things in a way that focuses on the basic understanding of something, and why something is important vs getting nerdy. You channel makes science more accessible to everyone and not just engineering geeks and science lovers. You channel is one of the few channels me (science nerd) and my wife (non science nerd) can check out during breakfast and both enjoy the knowledge dump. Keep on with what you are doing. Thank you again!
Don't need superconducting electromagnets for decent MHD drives anyways, so once it comes it can be an efficiency boost, until then there are solvable solutions.
Speaking of silly UA-cam videos... you remind me of my brother; always excited about fantastical future breakthroughs while ignoring all the reasons they are impractical or impossible - somewhere north of optimism. He's my amiable dreamer. You're like him only you endeavor to sell these ideas to others, for a profit. Still, I watch. Keep up the (good) work!
That's what you get when you try to cover a bunch of topics and never quite scratch the surface deep enough to get to core issues. Look at how successful he is anyways, his demeanor doesn't matter because the outcome he's aiming for is to popularize topics and induce different thinking patterns (and invest in different technologies). If he wanted to be a citizen scientist or an independent researcher or journalist, the format would be different to reach that outcome.
About the propulsion part, spaceships use ion thrusters for some decades now, and this seems a similar technology. The problem with ion thrusters though is that they lack the force needed for takeoff, so this technology seems more suited for in atmosphere flight
Yes. And some of the dialogue indicates that, in the mid-Eighties (the period of the story and film), they would have been using liquid helium to cool superconductors. "I have to find out what's wrong first! It could be a problem with the liquid helium or even the superconductors!" - Capt. 2nd Rank Melekhin, chief engineer And of course in that era, if it had been well-enough developed, only a nuclear-powered ballistic-missile submarine could have afforded the power requirements. Then again, the very mission of a "boomer" requires that kind of silence, so I can well believe that the Soviet Navy of that era - or the Russian Navy today - would invest in that kind of project. Those Russians love to build 'em big, and even today they build the deepest-diving submarines in the oceans today. I've seen no report - yet - that the Russians have built a boomer, or a fast-attack, with an MHD drive. But the Japanese never stopped experimenting with it, and I believe they built an experimental submarine.
🎯 Key Takeaways for quick navigation: 00:00 🚀 Magnetohydrodynamics (MHD) is a real field of physics that can be used to create propulsion systems for ships and spacecraft, as well as pumps and electrical power generators. 01:06 🔬 MHD works by using electromagnetic induction and the Lorenz force to move fluids like water using magnetic fields and electric currents. 02:30 ⚙ MHD pumps have no moving parts, making them simple, compact, silent, and able to work at high temperatures. They are more efficient and require minimal maintenance. 03:13 🔌 MHD pumps are not practical for pools or home water systems due to flow instabilities, but they are ideal for industrial applications like pumping molten metals and coolants. 06:01 💡 MHD propulsion systems, which use fixed pumps to move objects through a fluid, have been built and can be used on boats and even in aerospace craft.
From what I've seen about the new "Superconductor" is that it is likely not actually a superconductor, as no one has been able to reproduce the results yet
Technically it does not eliminate them as you could in therory try to pull in water faster than than it can move into your intake and cause cavitation bubbles but as a pratical mater you are correct. Youd have other material stress issues elsewhere if you could pump the water that fast let alone the power generation issues needed to pump that much current and that strong of a magnetic field on anything mobile.
0:39: 🔬 Magnetohydrodynamics (MHD) is a real field of physics that can be used to create pumps, propulsion systems, and electrical power generators with no moving parts. 4:55: 🌞 The speaker shares their positive experience with Hoy Miles micro inverters for their solar system, highlighting the benefits and savings they provide. 7:36: 🔬 MHD propulsion and power generation using plasma and magnetic fields. 10:33: ⚡ The video discusses the limitations of MHD generators and the potential impact of room temperature ambient pressure superconductors on energy conversion technology. 2:33-3:02: 💡 Advantages of magnetic pumps include simplicity, compactness, high temperature tolerance, reliability, efficiency, minimal maintenance, and potential for high power density. Recap by Tammy AI
Curiosity for fine details, to accurately tell the direction of the Lorentz Force, is the flow on the diagram at 2:10 of video going the opposite way it should? MHD sounds awesome, would love to hear more from you
sounds like *hunt for red October electro hydro dynamic* 😂 LOL the buzz video uses 2 MOTs though talk about watts. bearings are efficient. hho is fun though
I am surprised to see this technology for the first time today while I am interested in science and have been working in technology for decades. Why did not I know about it?
It's not part of the industry, not part of education systems. You have to go down a rabbit hole looking for the breadcrumbs. It WAS briefly showcased in the August 1990 issue of popular mechanics as the promising technology to enable 100-knot freighters, but still very little coverage for decades following Yamato-1, which really was hijacked to showcase portable marine cryogenic systems. They didn't get the funding they needed or the flexibility to design the vessel they originally envisioned.
9:53 there’s a first error -> efficiency is T_L / T_H while you printed the hot temperature 1573K on top Then… How does 1573/300 yields 0.8 ?? Even 300/1573 is not equal to that… I can’t figure it out
3:12 - There's been a *slew* of research groups looking into it, all debunking it: “With a great deal of sadness, we now believe that the game is over. LK99 is NOT a superconductor, not even at room temperatures (or at very low temperatures). It is a very highly resistive poor quality material. Period. No point in fighting with the truth,” the University of Maryland’s Condensed Matter Theory Center (CMTC) posted on August 7th. This is *why* you shouldn't look at the initial first study/paper and then start repeating their claims. *Especially* if they are so fantastical as "room-temperature, atmospheric-pressure superconductor."
Oh look, Condensed Matter Theory Center posted something rather pertinent on 26th of July: NEWS FLASH: we contacted several CMTC alumni in Korea who are faculty members at the top Korean universities, and NONE has ever heard of this group from Quantum Energy Research Center, and they are as stumped about these claims as we are. Probably not a good sign.
1:14 it says "magnetic behavior in plasmas and liquid metals.." not water. The pumped material needs to be very conductive, way more conductive than freshwater or even ocean water to be remotely as efficient as a steam turbine.
I think that, the idea of using it in high heat doesn't hold, the reason is that, magnets don't like heat. That's why magnets work better when, they're cooled.
MHD water pumps are NOT silent at all. Inducing a current through the water produces cavitation, which in turn produces noise. The higher the current, the more cavitation you get.
I've seen MHD pumps moving salt water in UA-cam videos. One problem that I saw was extremely rapid corrosion of the electrodes. That might not be an issue in some applications, but it is something to be aware of.
@@Disillusioned_one He also implied Nobel prize In Chemistry winner John B. Goodenough was a scammer. That is rather hateful is doubt there was any truth to it. That is before we delve into his Quran burning.
@@Disillusioned_one He also implied Nobel prize In Chemistry winner John B. Goodenough was a scammer. That is rather hateful is doubtful there was any truth to it. That is before we delve into his holy book burning or his hard on for that Musk fellow.
Hello, Sadly, the chances that the supraconductivity breaktrough is real are very low. Many scientists and other specialized UA-camr's (Sabine Hossenfelder or Anton Petrov) are scpetical, with very good arguments. Anyway, you teached me how the MHD works, so now, we have to wait for room T° conductivity ! Thank You
You're forgetting one very, very vital piece of information. When you go from one material to another from another system to another from another form to another To another voltage, potential or resistance, you get energy loss. 1 You have to have a very high electrical potential in the first place. 2. You're sending that voltage through water or an electrical Conductive fluid 3 You're converting it through a Electrical hydro dynamic system. 4. You're also converting it back into electricity. All those processes, you're constantly losing energy resistance potential.
At 10:17 "no other energy conversions that needs to happen downstream." Well, no. A real world power plant needs to produce an alternating current so you would need an enormous inverter to convert the DC from the MHD generator to AC. This would entail some conversion loss.
This was known for a very long time. Reason why it isn't used is the material will degrade so fast before it's even practical to use. Have you seen a sacrifical anode on boats? Yeah, that's what the anode in that supposed "bladeless propulsion" will happen.
You are a true visionary. The Yamato also was 30 years ago so this new superconductor can in fact change things. Very exciting. Entire episode of MHD please and thank you!
Key phrase: Conductive Fluid. This works well for salt water, but not for fresh water. Thus, replacing motors, pumps and power generating in fresh water environments won't be a thing. Pools using salt water chlorination, however, can used MHD!
One wonders what might be done with a combination of MHD, Stirling engines and heat pumps with a bit of solar (heat and light collection) thrown in. Something else to put on the to-check-out list.
@7:57 I'd be _very_ interested in an episode covering magnetic pumps. I'd be specially looking for *_ship_* (or *_submarine_* ) propulsion application. Can you imagine these as _thrusters_ on a *CyberTruck* as it fords a stream? 🤔🤓👍
This actually fits these videos of suposive cloud UFO's. Maybe this technology is being tested currently or has been tested before. Ive seen a huge influx of these videos. When using a water vapor at a high temperature in a higher attitude could create clouds. Interesting
Still waiting to see whether LK-99 pans out. So far, it's looking like it might be diamagnetic, but not superconducting. Other labs are yet to recreate it, although it appears that it may be a superconductor at liquid Nitrogen temperatures. I read yesterday that the lab that made it had some contamination issues, and that may be where the supercondicting effects are coming from. Too early to tell, but potentially a very exciting development.
So, would you say that we're on a Hunt for the Room Temperature Superconductor? Doesn't have quite the same ring to it as "Hunt for the Red October" lol.
The problem with many of these ideas require very high current at low voltage. The low voltage is not a problem, but the high current is, as it causes high heat, even with low resistance, which is a major loss of power. Another problem with high heat, rare earth magnets lose their magnetic properties when they warm up, so rare earth magnets would need a change to keep their magnetic properties when they are hot.
Check out Hoymiles for your Solar Micro-Inverters Today! geni.us/Inverters
Hydrogen would be my favorite fuel.
I'm surprised you didn't mention the movie, "The Hunt for Red October"...
I am absolutely disgusted that you can say your electricity consumption averages 1.8kW 24hrs a day, 30 days a month, without any sign of guilt on your face.
I have NEVER in the 53 years of my life used more than 60kWhr a month for a house and engineering shop combined.
Even if you drive a battery EV you would need to drive 5hrs per day to consume that much if its any kind of efficient.
I operate a cruising yacht with all systems including electric Auxiliary, and tender, with two crew, and we usually require far less than half a kilowatt hour per day of solar generation.
Stop pushing for exponential growth of consumption and screwing the planet with your pathological obsessions with compensation for you inadequacies by excessive displays of obscene extravagance and disposable consumer culture.! 😝
I think you said "Megawatt" where you meant "Kilowatt?"
I can understand you don't w
LK99 is a bust now isn't it?
Yeah, sadly it is.
Link?
Tis the reports they were citing are over 14 years old and been disproven multiple times its a good dream and maybe a reality someday. I think it's because the tech industries know how revolutionary a material like lk99 would be and they want to promote interest in the topic as much as possible
It always was...
Plug, plug, and plug away.
This was the technology used in the movie "The Hunt for Red October". You might be interested that a stream of water can be deflected by an electrostatic charge. I've often thought that this effect could be used to separate fresh water from salt water because only freshwater water molecules are attracted.
The hydrogen bubbles produced by the MHD if run through a fuel cell gives freshwater and energy...
Yes I'm aware of that it's a great piece of tech
Huh! Interesting… 🤔
I’ve always been fascinated by the separation of hydrogen from oxygen by using electricity. And when you burn the hydrogen and it mixes with oxygen we get polluted with water bahahaha
Imagine if we lived in a world that wasn’t motivated by greed? But Humans are truly retarded.
Watch the movie “Idiocracy” this is literally 💯 the way we are heading until we go extinct. Good riddance!!!
UA-camrs should always pay homage to great sci-fi of the past!
Sean Connery: "I will take a Penis Mightier for $500 Alex"
The CONDUCTIVITY of the fluid is crucial. While MHD is useful for some fluids like liquid metals or molten salts, even seawater is a bit sketchy. And you can pretty much forget using MHD pumps for salt-free freshwater.
But as always, there could be a place for this, and your videos are great as always.
Would it be possible to add something to the fluids that don't work well which you can 100% filter out afterwards, if needed, that could solve the problem?
Was thinking if was run in reverse could generate tidal power without turbines maybe
If you use MHD to pump seawater up hill then the inverse rule for Physics states seawater running downhill will create a current...
I hope Ricky doesn't get his heart broken by that room temperature super conductor. I heard very pessimistic comments on it.
Why not just transfer the kinetic energy from one fluid to another like a turbo does in an engine?
I really hope you mention the fact that it only works if you have an ionic solution, and you need a LOT of dissolved ions to be able to make these even slightly efficient, even ocean water doesn't have enough to make this a very efficient pump.
It's specified
I've been fascinated with MHD since seeing The Hunt for Red October as a kid. I've seen action lab type experiments but no one ever went into depth about the shortcomings.
Acton Lab did.
Definitely interested in more MHD coverage. It’s a fascinating technology.
I’m also interested in alternative conductor materials. A material as ductile as copper but with half the resistance for a similar cost would have a massive impact. If we can find one…
The efficiency increase is very interesting. Further, the 'no moving parts' is intriguing. However, where pressure is high, the exit points of the fluid will eventually show wear and should for designed to ease maintenance and repair.
At 9:57, the efficiency formula onscreen, 1573/300 doesn't give the result 0.809.. It works only if you go "1 - 300/1573", which is, of course, a different formula. It's the same at 10:10, "1 - 300/3273" gives the right result.
🤓
Yep, I immediately noticed that error. I did know that the higher the temperature difference (or deltaT), the better the efficiency. Maybe the numbers were just shown for illustration purposes, but they really should not be written that way. You need to correct that formula. Otherwise, that was a very interesting video!
Now if that room temperature superconductive material is real (which I really doubt), that would make way for some crazy new technologies.
"Red October" Anyone? Literally the fist thing I though of when I heard MHD. So Clancy got it right! ;-)
Wasn't it called a worm drive?
My first thought was Konpeki no Kantai/Deep Blue Fleet.
@@norme1850 A Caterpillar drive in Clancy's book.
MHD propulsion video - yes please! Gets my vote. Thanks for all your videos Ricky, you take complex tech and make it fun and easy. You are making a difference and many of us love you and your team for it.
A variant that I've seen used in several applications is MHD flow-meters. Small isolated electrodes inside the pipe, surrounded by a strong electromagnet. As the fluid flows, the electrodes can measure the small voltage generated and signal the velocity of the fluid. Using very sensitive electronics that don't require a lot of current, it works with only weakly conductive fluids. Once you have velocity and known pipe size, the volumetric flow rate is easy to calculate.
Ah yes isolated electrodes, the ground breaking technology that will help us reduce our energy consumption by 100% and save the planet!
membrane pumps are so cheap though and long life. plus bearings on regular pumps can last decades
@@archibibliothekarius2301 saying bros comment sounds made up?! 😂😊
separated electrodes pos neg actuslly will move water but so small amount of force
A flow meter can be turned into a generator anything that spins around and around...
No, I know that a sensor like that can work. Just don't isolate your electrodes if you actually want current flowing through them, otherwise they're pointless.
So like you said, separated is good because otherwise you'd have a short. But isolated is useless @@derrekvanee4567
I am on board with this as long as there are regulations requiring that each power plant equipped with this technology have a 3 story portrait of Sean Connery as Marko Ramius on the outside.
I'm thoroughly excited by all the possible applications of MHD you've talked about here. I look forward to seeing a future of looking up to see plasma powered aircraft exhaust overhead, like it's total sci-fi. I highly recommend the @PlasmaChannel video on designing and testing a table-top scale MHD water thruster!
I'm also curious how an MHD generator would work at the end of a fusion reactor, being a source of superheated plasma.
YES! Please do that in depth episode, would be fabulous...👍
+1
I second this
Thank you for the video. I studied Physics as a major, and don't even hear of this phenomena before. Awesome!!!!
It's the "caterpillar drive" from The Hunt for Red October
As sea-water is conductive; would MHD generators be able to generate power anywhere in the coast? Yes an MHD propulsion video would be very cool to watch.
Thank you for tying the recent super conductor with MHD. I instantly wondered about the connection. Please keep exploring all the possibilities such break throughs offer. Mankind (and me) need the hope.
I'd be quite interested in an MHD propulsion system overview
It also sounds like it moves the upper limit for speed. Just as ion thrusters could accelerate spacecrafts to really high velocities higher than conventional engines. Could a long enough magnetic pump increase a fluid to super high velocities? Could a long enough one create a negative pressure such would "stretch" a liquid into a gas?
I LOVE this channel. Its one of my top science related channels. Its a great place to get the basics of a complex new tech and still have details for the tech geeks.
you just made my day :) thank you for the kind words!
@@TwoBitDaVinci No, Thank you for this channel. I sub to many science channels and yours is the channel I share with non science types to share my love of science. Other channels are more technical or How-to style, and those are great but sometimes you need a channel that specializes explaining things in a way that focuses on the basic understanding of something, and why something is important vs getting nerdy. You channel makes science more accessible to everyone and not just engineering geeks and science lovers. You channel is one of the few channels me (science nerd) and my wife (non science nerd) can check out during breakfast and both enjoy the knowledge dump. Keep on with what you are doing. Thank you again!
Unfortunately, it appears the room temp superconductors looks like it is going to be a bust. The search continues though
i concur
I think we'll get some research out of it and new understanding, will it change the world in short or medium term, not that much, if at all.
Don't need superconducting electromagnets for decent MHD drives anyways, so once it comes it can be an efficiency boost, until then there are solvable solutions.
Speaking of silly UA-cam videos... you remind me of my brother; always excited about fantastical future breakthroughs while ignoring all the reasons they are impractical or impossible - somewhere north of optimism. He's my amiable dreamer. You're like him only you endeavor to sell these ideas to others, for a profit. Still, I watch. Keep up the (good) work!
nailed it
That's what you get when you try to cover a bunch of topics and never quite scratch the surface deep enough to get to core issues. Look at how successful he is anyways, his demeanor doesn't matter because the outcome he's aiming for is to popularize topics and induce different thinking patterns (and invest in different technologies). If he wanted to be a citizen scientist or an independent researcher or journalist, the format would be different to reach that outcome.
I remember reading about this back in the 90s in a science magazine and was wondering why it wasn't in wide use.
I was about to say the intro video is fake, but you beat me to it.
Love your video style. That fake magnetic pump video irritated me as well!
I'd definitely watch a full video on planes using MHD!
Long time watcher, hardly a commentator...
Thanks! I really enjoyed this content!
About the propulsion part, spaceships use ion thrusters for some decades now, and this seems a similar technology. The problem with ion thrusters though is that they lack the force needed for takeoff, so this technology seems more suited for in atmosphere flight
Was this the “silent drive” utilized by an advanced tech Soviet military submarine in that movie 🎥 THE HUNT FOR RED OCTOBER
? 🧐 🧲 🌊
God that cold war crap🥱
I would like to have seen Montana ☹
Yes
Yes. And some of the dialogue indicates that, in the mid-Eighties (the period of the story and film), they would have been using liquid helium to cool superconductors.
"I have to find out what's wrong first! It could be a problem with the liquid helium or even the superconductors!" - Capt. 2nd Rank Melekhin, chief engineer
And of course in that era, if it had been well-enough developed, only a nuclear-powered ballistic-missile submarine could have afforded the power requirements. Then again, the very mission of a "boomer" requires that kind of silence, so I can well believe that the Soviet Navy of that era - or the Russian Navy today - would invest in that kind of project. Those Russians love to build 'em big, and even today they build the deepest-diving submarines in the oceans today.
I've seen no report - yet - that the Russians have built a boomer, or a fast-attack, with an MHD drive. But the Japanese never stopped experimenting with it, and I believe they built an experimental submarine.
Came here to say that. An entire video about MHD and no mention of the Red October?
Sound off if you want, but based on the smile at 7:58, you can tell the MHD episode is already in the works
🎯 Key Takeaways for quick navigation:
00:00 🚀 Magnetohydrodynamics (MHD) is a real field of physics that can be used to create propulsion systems for ships and spacecraft, as well as pumps and electrical power generators.
01:06 🔬 MHD works by using electromagnetic induction and the Lorenz force to move fluids like water using magnetic fields and electric currents.
02:30 ⚙ MHD pumps have no moving parts, making them simple, compact, silent, and able to work at high temperatures. They are more efficient and require minimal maintenance.
03:13 🔌 MHD pumps are not practical for pools or home water systems due to flow instabilities, but they are ideal for industrial applications like pumping molten metals and coolants.
06:01 💡 MHD propulsion systems, which use fixed pumps to move objects through a fluid, have been built and can be used on boats and even in aerospace craft.
If room temperature Superconductor is invented, then this MSD will become economical.
From what I've seen about the new "Superconductor" is that it is likely not actually a superconductor, as no one has been able to reproduce the results yet
It sounds like it would also avoid the cavitation problems that limit the speeds of propellors.
Technically it does not eliminate them as you could in therory try to pull in water faster than than it can move into your intake and cause cavitation bubbles but as a pratical mater you are correct. Youd have other material stress issues elsewhere if you could pump the water that fast let alone the power generation issues needed to pump that much current and that strong of a magnetic field on anything mobile.
would
Yeah, it's still subject to the same limits. It's not an issue with the prop or the magnet. It's a water issue
super cool stuff! thank you for sharing this!
Sir, you are absolutely amazing. Very fascinating technology explaining.
@8:30 Are you telling me it's possible to produce energy from auto exhaust after turbo? Why hasn't anyone done this?
Yes. MHD aircraft propulsion video is a must.
Would love to see a video on more MHD possibilities. Could you also talk about how close we are to it becoming commercially viable
the plasma channel just started doing experiments with this phenomena
0:39: 🔬 Magnetohydrodynamics (MHD) is a real field of physics that can be used to create pumps, propulsion systems, and electrical power generators with no moving parts.
4:55: 🌞 The speaker shares their positive experience with Hoy Miles micro inverters for their solar system, highlighting the benefits and savings they provide.
7:36: 🔬 MHD propulsion and power generation using plasma and magnetic fields.
10:33: ⚡ The video discusses the limitations of MHD generators and the potential impact of room temperature ambient pressure superconductors on energy conversion technology.
2:33-3:02: 💡 Advantages of magnetic pumps include simplicity, compactness, high temperature tolerance, reliability, efficiency, minimal maintenance, and potential for high power density.
Recap by Tammy AI
Curiosity for fine details, to accurately tell the direction of the Lorentz Force, is the flow on the diagram at 2:10 of video going the opposite way it should? MHD sounds awesome, would love to hear more from you
Nice work can't wait for the next post
Always so informative your videos Dude 🙂🙏
YES!! PLEASE make the episode.❤
Yes! Please make a video on MHD. Your description of it here lost me.
Yup! This will be the future of propulsion! 👏😄✨ This is good news.
sounds like *hunt for red October electro hydro dynamic* 😂 LOL the buzz video uses 2 MOTs though talk about watts. bearings are efficient. hho is fun though
Presentation on point
Is it possible to apply magnetohydrodynamics to Nicola Tesla's disc turbine? Or valve
I am surprised to see this technology for the first time today while I am interested in science and have been working in technology for decades. Why did not I know about it?
In the movie The Hunt For Red October, maybe they thought it should be a national security issue...
It's not part of the industry, not part of education systems. You have to go down a rabbit hole looking for the breadcrumbs. It WAS briefly showcased in the August 1990 issue of popular mechanics as the promising technology to enable 100-knot freighters, but still very little coverage for decades following Yamato-1, which really was hijacked to showcase portable marine cryogenic systems. They didn't get the funding they needed or the flexibility to design the vessel they originally envisioned.
Yes please do a deep dive video into MHD.
PLease make another episode about using MHD for rocket thrust, YES PLEASE!!! This is fascinating stuff!
Looking forward to the thunder foot takedown on this
9:53 there’s a first error -> efficiency is T_L / T_H while you printed the hot temperature 1573K on top
Then… How does 1573/300 yields 0.8 ??
Even 300/1573 is not equal to that… I can’t figure it out
3:12 - There's been a *slew* of research groups looking into it, all debunking it:
“With a great deal of sadness, we now believe that the game is over. LK99 is NOT a superconductor, not even at room temperatures (or at very low temperatures). It is a very highly resistive poor quality material. Period. No point in fighting with the truth,” the University of Maryland’s Condensed Matter Theory Center (CMTC) posted on August 7th.
This is *why* you shouldn't look at the initial first study/paper and then start repeating their claims. *Especially* if they are so fantastical as "room-temperature, atmospheric-pressure superconductor."
Oh look, Condensed Matter Theory Center posted something rather pertinent on 26th of July:
NEWS FLASH: we contacted several CMTC alumni in Korea who are faculty members at the top Korean universities, and NONE has ever heard of this group from Quantum Energy Research Center, and they are as stumped about these claims as we are. Probably not a good sign.
1:14 it says "magnetic behavior in plasmas and liquid metals.." not water. The pumped material needs to be very conductive, way more conductive than freshwater or even ocean water to be remotely as efficient as a steam turbine.
Thanks again for an informative video.
Yes to the Ramjet episode
Please do the episode on MHD exclusively!
Would mhd propulsion eliminate cavitation? I would imagine that the navy would be VERY interested
Yes yes yes, more MHD vids pleeeeeease!
9:56 the equation should be 1 - (300/1573) = 0.8092181... Sorry but 1500 divided by 5 times less can't be point anything nor 0.8
0:39 Lol! Well played.
I would love to hear about those other MHD systems you mentioned. Thanks for the great video! :)
Thanks for sharing about the perticular technology 😊
Great vídeo, very interesting! ✌🏼🤓
Well done, nice video, thanks for sharing it with us :)
Now, everybody's gonna build a "Red October"... Just listen for magma displacements... ;-P
I think that, the idea of using it in high heat doesn't hold, the reason is that, magnets don't like heat. That's why magnets work better when, they're cooled.
Hence the excitement about a room temperature superconductive material.
@@flightmaster999 room temperature is an absurdly far cry from 3000K
MHD water pumps are NOT silent at all.
Inducing a current through the water produces cavitation, which in turn produces noise.
The higher the current, the more cavitation you get.
I've seen MHD pumps moving salt water in UA-cam videos. One problem that I saw was extremely rapid corrosion of the electrodes. That might not be an issue in some applications, but it is something to be aware of.
Gotta love that hot source.
Thunderf00t posted a critique of your LK-99 video. As expected, it wasn't very kind.
Of course he did ... what a hater
@@Disillusioned_one He also implied Nobel prize In Chemistry winner John B. Goodenough was a scammer. That is rather hateful is doubt there was any truth to it. That is before we delve into his Quran burning.
@roydouce9554 qualified maybe.... I'm just saying it's his whole thing to be a hater it's his niche
@@Disillusioned_one He also implied Nobel prize In Chemistry winner John B. Goodenough was a scammer. That is rather hateful is doubtful there was any truth to it. That is before we delve into his holy book burning or his hard on for that Musk fellow.
So there's a hope to conduct the reverse of magneto hydrodynamics? If so, this should be a game changer
Hello,
Sadly, the chances that the supraconductivity breaktrough is real are very low.
Many scientists and other specialized UA-camr's (Sabine Hossenfelder or Anton Petrov) are scpetical, with very good arguments.
Anyway, you teached me how the MHD works, so now, we have to wait for room T° conductivity !
Thank You
You're forgetting one very, very vital piece of information. When you go from one material to another from another system to another from another form to another To another voltage, potential or resistance, you get energy loss.
1 You have to have a very high electrical potential in the first place.
2. You're sending that voltage through water or an electrical Conductive fluid
3 You're converting it through a Electrical hydro dynamic system.
4. You're also converting it back into electricity. All those processes, you're constantly losing energy resistance potential.
Think of it as harvesting energy as a collective instead of a single source...
Thanks for your knowledge sharing
At 10:17 "no other energy conversions that needs to happen downstream." Well, no. A real world power plant needs to produce an alternating current so you would need an enormous inverter to convert the DC from the MHD generator to AC. This would entail some conversion loss.
This was known for a very long time. Reason why it isn't used is the material will degrade so fast before it's even practical to use. Have you seen a sacrifical anode on boats? Yeah, that's what the anode in that supposed "bladeless propulsion" will happen.
You are a true visionary. The Yamato also was 30 years ago so this new superconductor can in fact change things. Very exciting. Entire episode of MHD please and thank you!
3:30 Molten tin at over 2000C? Tin melts at 231.9c/ 449.5F
Tin boils at 2602C. So tin at close to its boiling point.
Key phrase: Conductive Fluid. This works well for salt water, but not for fresh water. Thus, replacing motors, pumps and power generating in fresh water environments won't be a thing.
Pools using salt water chlorination, however, can used MHD!
More of this please.
Keep being excited and sharing.
Thanks.
I would not bet on LK99 as a technology for these pumps ;)
Wow the future is truly wild and amazing it seems.
One wonders what might be done with a combination of MHD, Stirling engines and heat pumps with a bit of solar (heat and light collection) thrown in. Something else to put on the to-check-out list.
@7:57 I'd be _very_ interested in an episode covering magnetic pumps. I'd be specially looking for *_ship_* (or *_submarine_* ) propulsion application.
Can you imagine these as _thrusters_ on a *CyberTruck* as it fords a stream? 🤔🤓👍
this is the most promising , please provide a follow through
This actually fits these videos of suposive cloud UFO's. Maybe this technology is being tested currently or has been tested before. Ive seen a huge influx of these videos. When using a water vapor at a high temperature in a higher attitude could create clouds. Interesting
Full episode please!!
Still waiting to see whether LK-99 pans out. So far, it's looking like it might be diamagnetic, but not superconducting. Other labs are yet to recreate it, although it appears that it may be a superconductor at liquid Nitrogen temperatures. I read yesterday that the lab that made it had some contamination issues, and that may be where the supercondicting effects are coming from. Too early to tell, but potentially a very exciting development.
So, would you say that we're on a Hunt for the Room Temperature Superconductor? Doesn't have quite the same ring to it as "Hunt for the Red October" lol.
haha no it definitely doesnt' but i like it!
Wow . Thanks. 1:15
The problem with many of these ideas require very high current at low voltage.
The low voltage is not a problem, but the high current is, as it causes high heat, even with low resistance, which is a major loss of power.
Another problem with high heat, rare earth magnets lose their magnetic properties when they warm up, so rare earth magnets would need a change to keep their magnetic properties when they are hot.
Yes. Please make that episode.
MHD propulsion sounds dope. That video would be interesting