I am an EAF operator so I spend alot of time with a machine like this. When I started on the furnace floor nothing could prepare me for the sheer power, noise and heat coming off these machines, when melting down buckets the noise is so intense it shakes your entire body. Usualy we run on a Tenova Consteel conveyor feeding system which is muuuch quieter than buckets and makes better quality steel. 110 ton furnace tapping roughly 75 ton heats every 40-45 mins, uses 25-30 MWh of energy per heat, it's an insane amount of power. I surely would not want to see their power bill loll
I spent a fair bit of time in steel works in my younger days as a maintenance fab/ welder, I remember vividly feeling the mind blowing power of these puppy's ♥️
Let's see....at a rate of 10 cents/kWh, 30MWh works out to $3000. Sounds like a lot, but probably not so much compared to the value of the 75 tons of steel they produce. And maybe they pay less than 10 cents/kWh if they have a special deal with the electric company, because they are such high-volume customers.
@@poly_hexamethyl They pay less but not much less since in the US, industrial producers paid around $0.0666 per KWh in 2020 but other things like shipping their product is very expensive so their margins are actually not that big at all. So it actually doesn't really have anything to do with the cost of the electricity.
Notice the wire cables (inside those tubes) dancing a bit, despite being bundled (most likely copper) and very heavy. This is caused by the large magnetic fields that surround each cable. Fluctuating currents throughout the arc and the melt create pushing/pulling forces against one another.
I saw an arc furnace at the age of around 13 y.o. Our class visited a steel- and rolling factory in Hennigsdorf near Berlin. I don't remember if that pot had a lid at all or if the orifice was just much larger. I was HORRIFIED at that age from the big arcs, the loud boom and bang noises and the sparks and steel drops flying out of it - pure horror back then! 😵💫 I guess now beeing 53 y.o. it would be rather interesting and fascinating. 😉
@@AnthonySmith-sc4zs No, the original aim was to watch a socialist production factory for us young pupils for gaining respect/sympathy for the working class in communist times. 🤪 Access to higher education was limited in numbers of vacancies. 🤦♂️
@@u.e.u.e. yes I vouch for that, I was raised in Hungary in communist times and only the most brilliant minds made it to higher education the rest of us were the working class who made things happen
I worked around EAFs for 30+ years. They were just as scary the last day as they were the first. There's never anyway to explain what you do for a living, they have to witness it and so very few people get to.
Fantastic! Being an engineer myself, nobody would want this in their town, but they are happy to buy things made from metal to use in their everyday lives. All schoolchildren should see this and understand.
I've done work as an outside contractor in a local foundry, the amount of energy required is astonishing. To be a couple hundred feet away when they put a locomotive truck on the shaker and see orange, and also contemplate hiding behind a structural column to shield yourself from the heat is mind bolgelling. Then you realize there are guys standing on top of the boxes while being poured.
This has to use an unimaginable amount of power, and I can't wrap my head around how it's drawn without breaking something. With the arc being inconsistent by nature there will be wildly fluctuating power draws; they must have some very large power handling equipment in factories like these.
The noise isn't even close to accurate unless you are standing there. You can feel it all through your body. They have a nice exhaust draw too. Where I worked it was seriously smoking at times.
Whe did maintenance on a furnace transformer on site at a Smelter, it's got 6 big bussbars that is connected to other bussbars from the outside leading to the furnace, it's LV side was 66000 amps
This is child's play next to the mayhem that was Homestead Works' Open Hearth #5 melt shop. Eleven furnaces, each one able to produce 375 tons of steel every six hours. Charging buggies, ladle cranes, scrap and limestone trains, all in constant motion, and not looking out for you!
@@rogerw-interested The world just didn't need that much steel. Let me explain how the old process worked: U.S. Steel had a stockpile of the most commonly used shapes and sizes of steel. If you needed something special, they would make it, but you had to pay for the entire heat. If you needed 75 tons you had to pay for 375. The remainder would go into storage. So... You call up on Friday and they say that they can make your heat on Monday. The heat is made and poured into ingots. It took two days for the ingots to cool down enough so that the ingot molds could be stripped. Then it was two days in the soaking pits at 2400 degrees to make the ingot malleable. Then the ingot was rolled into the shape you desired, and required a day to cool down. Ten days after your order your steel is ready to ship. Today's mini-mills, if you get the order in by noon your truck needs to be ready to pick it up by 3. The old mills never stood a chance.
I just went down an hour's worth of Wikipedia articles about US Steel and Carnegie and Pinkerton's and US labor history and steel production methods. Thanks! Was born in Pittsburgh but didn't grow up there
@@davepowell7168 Local power companies that supply electricity for these steel mills notice an upspike of power when these furnaces are started. Smaller facilities might use natural gas and propane.
@@davepowell7168 I might also add, most of this work, at least when it was done in the USA, was done on grave shift when the electrical demand was much lower overall.
I’ve worked at Bremen casting , and this other foundry where they made aluminum A arms, and ironically about to be working in that same building again but casting , and mold / cast welding there on giant ass carts that hood train wheels. It’s kinda weird to see the found from two different owners. The owner now removed all mini kilns, and pour stations. Just the giant one is left. I’m gonna get footage of it in the next month or so have not started yet due to a sudden passing in the family. But ya my bad off topic, but the heat in these places is hella hot, but the gear you have on keeps it hot around you, but shields a lot of the radiating heat. We have these suits we ca wear or arm guards , leg guards , torso guards , mandatory all boots have meta guards , and double splash guards. Also at that place the first time I was there I watched one of the aluminum injection machines Ice line leak, and into molten aluminum. We was 3 stories in the office when this happened. Was a pure white out, like this flash of light from the explosion made everything around us a pure bright white light. Legit thought we all passed at first. The machine just boooooooooom white everything for about 1-2 whole seconds. It scared me bad, I’ll never forget that ever. Legit sitting here in tears because the shit I seen that day. BAD days dude had molten aluminum go down his back, he was a normal injection machine operator or stacker not sure. But when it exploded since he was a average worker who is NEVER around pours ever he was just in the wrong place at the right unfortunate time. Melted straight through his back , and thighs. He lived, my uncle worked at federal mogul for like 30+ years. Told me a story they was moving a melting pot some line snapped the entire thing poured on someone I do not recall the story that was a long time ago.
It's actually not that bad. Not great, but if you wear long underwear under the uniform, it insulates from the heat and helps wick away the sweat. I worked at a mill, and the company gave us a couple pairs of a certain brand (which I can't remember the name of), and they were awesome.
Wow that brings back memories. I used to do maintenance on an electric arc furnace just exactly like this one at the Bradford Kendal foundry in Brisbane Australia in the 1960's
I know arc furnaces and industrial furnaces are pretty different but I remember working in one and seein a new kids boots melt to the grate😂 thanks for reigniting that memory
That was both suspenseful and interesting. When they started lowering the electrodes and that arc struck, I dang near jumped out of my chair. Can't imagine what it would be like to witness that in person. I've read about how arc furnaces work but the books do this no justice, this is clearly one of those times "the movie' was better than the book, lol! Thanks for posting!
Again WOW! We have so much to be thankful for in our modern industrial age, with all the Gizmos gadgets machinery we use, cars we drive, whatever we use, it's all thanks to base processes like this to begin the ball rolling! Thanks for this! Very impressive!
What metal would cause a slag door to blow from a broken electrode? Worked with a similar furnace. Was there something wet or water cooled that would get in?
That's it! I knew there was something strangely familiar about this! The "Alien" series is my favorite movies of all time & especially the sequel "Aliens!" You'd expect this monster machine to fittingly feature in the 3rd sequel where they're stranded on that planet in a metal works foundry! Cheers.🍻 brother.👍 Rich.😎
Worked around a 25 and a 50 tonne pair in the 60's-70's as an industrial chemist. They generally made highly specialised grades due to the ability to control the mix. The noise of the arc starting the melt had to be experienced as it shook the whole body. The 50 tonne one became linked to an Argon Oxygen Degasser for Stainless production campaigns. The 200+ tonne stainless steel flagpole that sits atop the Australian Parliament House is made from stainless made in the AOD.
i have been in some pretty cool factories, but i have never been in one with any of those types of furnaces, though. So to see this and in good clarity at that is pretty frigging cool beans gotta admit.
I worked at Delray steel casting over by down river area of Detroit and never seen a furnace like that. Used to work for a company that made the lance that injects gases into the melting metal to purify it.
Donde hechan el acero fundido todo el caldo producido donde lo descargan y donde lo llevan. Me gustaría verlo tenéis videos de estos, publicarlos, por favor gracias.
No chimney or extractors for the fumes? I remember visiting an arc furnace years ago, where the poor operator was sitting in his cubicle almost directly above the furnace, subjected to this acrid, poisonous smoke.
Theres this amazing mode that would allow you to show more of the machinery without all the blank ceiling and floor... HORIZONTALLY hold your phone. It will work. Trust me.
Y'know, looking at size and power of these machines, i can kinda of understand why the Mechanicus often times just pray their titans work. Think about it: a machine larger than a flat/small house probably littered with access ports and terminals for maintenance. And if its old enough it probably had plenty of modifications and jerry rigs though its service that makes the original schematics unreliable. And if thats the case theres no replacement parts, they arent produced anymore. Making repairs(and more jerry rigs) the only way to maintain it. It certaintly deserves some reverence.
I worked at constellium in muscle shoals Alabama . It's some really cool and dangerous stuff. A worker dropped his cup of water on accident into an aluminum furnace completely destroyed a building the size of Walmart in 3 seconds. Killed every person in the building instantly.
Also ich vermisse in dem Laden eine anständige Legierungsanlage statt dem Gabelstapler genauso wie eine anständige Kapselung des Ofens mitsamt primär und sekundär Entstaubung.
What is electric arc furnace dust? 1. Electric arc furnace dust generation is divided into three smelting stages: melting, oxidation and reduction. The amount of dust and pollutants in EAF are different in each smelting stage. In the oxidation stage, the furnace dust is the largest, and the furnace gas produced by 1T tons of steel is 80~100m3. The actual amount of furnace gas entering the dust removal system is determined according to the way of flue gas collection, which is generally more than 10 times larger than that of furnace gas. 2. In the melting stage, grease combustibles and metals in the charge are burned at high temperature to produce black and brown smoke. 3. The oxidation stage is the decarbonization process, and the oxidation of iron produces a large amount of russet smoke. 4. During the reduction phase, oxygen and sulfur are removed from the steel, and toner is added to adjust the chemical composition of the steel, producing a black or white smoke. The dust discharged by electric arc furnace is mainly air pollutant, producing 12~14kg dust from 1T ton of steel. At high temperatures in an arc furnace, metals are sublimed, oxidized, and cooled to form iron oxide particles less than 0.01 m. Dust and rust are discharged together with furnace gas. www.dancarbon.com/q/eaf/what-is-electric-arc-furnace-dust-hazardous-waste-217.html
Electric arcs in air burn the nitrogen and oxygen in the air to form nitric oxides which are powerful acids. The designers of these arc furnaces try to minimize this side effect by making the pot as airtight as possible. Nitric oxides in the air form brownish or reddish fumes. That may be why the smoke was brown at first as the air in the pot burned up....
I am an EAF operator so I spend alot of time with a machine like this. When I started on the furnace floor nothing could prepare me for the sheer power, noise and heat coming off these machines, when melting down buckets the noise is so intense it shakes your entire body. Usualy we run on a Tenova Consteel conveyor feeding system which is muuuch quieter than buckets and makes better quality steel. 110 ton furnace tapping roughly 75 ton heats every 40-45 mins, uses 25-30 MWh of energy per heat, it's an insane amount of power. I surely would not want to see their power bill loll
I think they have a couple of solar panels on the roof.
I spent a fair bit of time in steel works in my younger days as a maintenance fab/ welder, I remember vividly feeling the mind blowing power of these puppy's ♥️
@@dirtmcgirt168 And some lithium batteries in the basement as 2 days UPS backup.
Let's see....at a rate of 10 cents/kWh, 30MWh works out to $3000. Sounds like a lot, but probably not so much compared to the value of the 75 tons of steel they produce. And maybe they pay less than 10 cents/kWh if they have a special deal with the electric company, because they are such high-volume customers.
@@poly_hexamethyl They pay less but not much less since in the US, industrial producers paid around $0.0666 per KWh in 2020 but other things like shipping their product is very expensive so their margins are actually not that big at all. So it actually doesn't really have anything to do with the cost of the electricity.
Notice the wire cables (inside those tubes) dancing a bit, despite being bundled (most likely copper) and very heavy. This is caused by the large magnetic fields that surround each cable. Fluctuating currents throughout the arc and the melt create pushing/pulling forces against one another.
#GOGGLEPRIDE
Learning has occurred 🎉
@@nadapenny8592 AND WE HELPED!
Cost of electricity per pour ? 😁
The mill I worked at used carbon electrodes. Only thing copper was the head for the cooling water. There's 45-50,000 amperes going through them.
I saw an arc furnace at the age of around 13 y.o. Our class visited a steel- and rolling factory in Hennigsdorf near Berlin.
I don't remember if that pot had a lid at all or if the orifice was just much larger.
I was HORRIFIED at that age from the big arcs, the loud boom and bang noises and the sparks and steel drops flying out of it - pure horror back then! 😵💫
I guess now beeing 53 y.o. it would be rather interesting and fascinating. 😉
It might scare kids into the college career path instead of the steel mill path lol
@@AnthonySmith-sc4zs No, the original aim was to watch a socialist production factory for us young pupils for gaining respect/sympathy for the working class in communist times. 🤪
Access to higher education was limited in numbers of vacancies. 🤦♂️
@@u.e.u.e. yes I vouch for that, I was raised in Hungary in communist times and only the most brilliant minds made it to higher education the rest of us were the working class who made things happen
I worked around EAFs for 30+ years. They were just as scary the last day as they were the first. There's never anyway to explain what you do for a living, they have to witness it and so very few people get to.
@@AnthonySmith-sc4zs So the old people can accuse them of being too lazy to work the trades?
There is nothing about the whole process that isn't impressive.
Even the bathroom? 😂
Fantastic!
Being an engineer myself, nobody would want this in their town, but they are happy to buy things made from metal to use in their everyday lives.
All schoolchildren should see this and understand.
Siemens has created a closed system. ua-cam.com/video/mCdG048JPWg/v-deo.html
I'm happy to have this in my town. Without it, the town would be two intersections and nothing else. xD
It's fine, there are filters and safety measures.
If built, maintained and run properly it can be enveriomentally "sound" and safe for everyone.
I want one ❤
Started working in a place like this when I was 17 and still in school. Definitely isn't paradise but amazing to watch and experience 😂
I've done work as an outside contractor in a local foundry, the amount of energy required is astonishing. To be a couple hundred feet away when they put a locomotive truck on the shaker and see orange, and also contemplate hiding behind a structural column to shield yourself from the heat is mind bolgelling. Then you realize there are guys standing on top of the boxes while being poured.
God I miss that job! Best days of my life and made the best of friends.....wage was brilliant as well! RIP British steel.
This has to use an unimaginable amount of power, and I can't wrap my head around how it's drawn without breaking something. With the arc being inconsistent by nature there will be wildly fluctuating power draws; they must have some very large power handling equipment in factories like these.
I’m lucky that I’ve seen this for real. Video doesn’t do it justice. The whole thing is phenomenal.
The noise isn't even close to accurate unless you are standing there. You can feel it all through your body. They have a nice exhaust draw too. Where I worked it was seriously smoking at times.
Used to deliver to the melthouse in Irvine PA. They had a furnace very similar to this. Loved watching that thing work!!!!
Whe did maintenance on a furnace transformer on site at a Smelter, it's got 6 big bussbars that is connected to other bussbars from the outside leading to the furnace, it's LV side was 66000 amps
This is child's play next to the mayhem that was Homestead Works' Open Hearth #5 melt shop. Eleven furnaces, each one able to produce 375 tons of steel every six hours. Charging buggies, ladle cranes, scrap and limestone trains, all in constant motion, and not looking out for you!
When was Homestead’s melt shop in action? Must have been 40+ years ago.
@@haroldishoy2113 Yep. Last heat of steel was 1982. Torn down and replaced by The Waterfront.
oh how times have changed, at our plant, we could make that in 40 minutes and ours is no longer that big compared to newer casters
@@rogerw-interested The world just didn't need that much steel. Let me explain how the old process worked:
U.S. Steel had a stockpile of the most commonly used shapes and sizes of steel. If you needed something special, they would make it, but you had to pay for the entire heat. If you needed 75 tons you had to pay for 375. The remainder would go into storage. So...
You call up on Friday and they say that they can make your heat on Monday. The heat is made and poured into ingots. It took two days for the ingots to cool down enough so that the ingot molds could be stripped. Then it was two days in the soaking pits at 2400 degrees to make the ingot malleable. Then the ingot was rolled into the shape you desired, and required a day to cool down. Ten days after your order your steel is ready to ship.
Today's mini-mills, if you get the order in by noon your truck needs to be ready to pick it up by 3.
The old mills never stood a chance.
I just went down an hour's worth of Wikipedia articles about US Steel and Carnegie and Pinkerton's and US labor history and steel production methods. Thanks! Was born in Pittsburgh but didn't grow up there
I work in a foundry but never get to see this part of the process, this is so amazing, thanks for sharing this.
Any idea of the electricity bill ? 😁
@@davepowell7168 Local power companies that supply electricity for these steel mills notice an upspike of power when these furnaces are started. Smaller facilities might use natural gas and propane.
@@haroldishoy2113 Thanks, I was wondering if it had it's own power station to cope.
Health and safety looks good compared with much of asia
@@davepowell7168 I might also add, most of this work, at least when it was done in the USA, was done on grave shift when the electrical demand was much lower overall.
@@haroldishoy2113 The night-shift of course, why didn't l think of that.
I could never survive the heat at a place like this but all of it is just so cool to watch.
Your body acclimates to the heat in a few weeks. Ive worked as metallurgists assistants in steel mills and a iron foundry.
Drink lots of salted water thats all
I’ve worked at Bremen casting , and this other foundry where they made aluminum A arms, and ironically about to be working in that same building again but casting , and mold / cast welding there on giant ass carts that hood train wheels.
It’s kinda weird to see the found from two different owners. The owner now removed all mini kilns, and pour stations. Just the giant one is left. I’m gonna get footage of it in the next month or so have not started yet due to a sudden passing in the family.
But ya my bad off topic, but the heat in these places is hella hot, but the gear you have on keeps it hot around you, but shields a lot of the radiating heat.
We have these suits we ca wear or arm guards , leg guards , torso guards , mandatory all boots have meta guards , and double splash guards.
Also at that place the first time I was there I watched one of the aluminum injection machines Ice line leak, and into molten aluminum. We was 3 stories in the office when this happened.
Was a pure white out, like this flash of light from the explosion made everything around us a pure bright white light. Legit thought we all passed at first. The machine just boooooooooom white everything for about 1-2 whole seconds. It scared me bad, I’ll never forget that ever. Legit sitting here in tears because the shit I seen that day. BAD days dude had molten aluminum go down his back, he was a normal injection machine operator or stacker not sure. But when it exploded since he was a average worker who is NEVER around pours ever he was just in the wrong place at the right unfortunate time. Melted straight through his back , and thighs. He lived, my uncle worked at federal mogul for like 30+ years. Told me a story they was moving a melting pot some line snapped the entire thing poured on someone I do not recall the story that was a long time ago.
It's actually not that bad. Not great, but if you wear long underwear under the uniform, it insulates from the heat and helps wick away the sweat. I worked at a mill, and the company gave us a couple pairs of a certain brand (which I can't remember the name of), and they were awesome.
Wow that brings back memories.
I used to do maintenance on an electric arc furnace just exactly like this one at the Bradford Kendal foundry in Brisbane Australia in the 1960's
I know arc furnaces and industrial furnaces are pretty different but I remember working in one and seein a new kids boots melt to the grate😂 thanks for reigniting that memory
Damn y'all are old af boomers huh
That was both suspenseful and interesting. When they started lowering the electrodes and that arc struck, I dang near jumped out of my chair. Can't imagine what it would be like to witness that in person. I've read about how arc furnaces work but the books do this no justice, this is clearly one of those times "the movie' was better than the book, lol! Thanks for posting!
That’s it I’ve seen everything now to do with high voltage and high current. And that is epic stuff. I absolutely loved this. 👍👍👍👍👍👍👍👍
Again WOW! We have so much to be thankful for in our modern industrial age, with all the Gizmos gadgets machinery we use, cars we drive, whatever we use, it's all thanks to base processes like this to begin the ball rolling! Thanks for this! Very impressive!
Fuckin’ War of the World’s sounding shit… insane to see that much power in action
I use to work on one almost identical to that. It’s a wonder I’m not totally deaf or burnt up! Maywood Ca. Bethlehem steel. 👴🏻🇺🇸👍🏻
What astounds me is how so many things industries are so similar. If you seen one, you would easily identify others
You guys got a lot to learn. That slag door can blow, the electrode can break off and that entire furnace roof can go by by with a reaction.
What metal would cause a slag door to blow from a broken electrode? Worked with a similar furnace. Was there something wet or water cooled that would get in?
Thanks for the explanation, makes sense. We used to just brick up our slag door so no cooling issue there.
I worked at a mill like this in Huntington, west virginia, USA
15 years as a millwright on one of those furnaces.
This looks like something right out of the set of the movie Alien.
Very cool video.
That's it! I knew there was something strangely familiar about this! The "Alien" series is my favorite movies of all time & especially the sequel "Aliens!" You'd expect this monster machine to fittingly feature in the 3rd sequel where they're stranded on that planet in a metal works foundry!
Cheers.🍻 brother.👍 Rich.😎
Would be nice if there were more jobs like this around
Worked around a 25 and a 50 tonne pair in the 60's-70's as an industrial chemist. They generally made highly specialised grades due to the ability to control the mix. The noise of the arc starting the melt had to be experienced as it shook the whole body. The 50 tonne one became linked to an Argon Oxygen Degasser for Stainless production campaigns. The 200+ tonne stainless steel flagpole that sits atop the Australian Parliament House is made from stainless made in the AOD.
i have been in some pretty cool factories, but i have never been in one with any of those types of furnaces, though.
So to see this and in good clarity at that is pretty frigging cool beans gotta admit.
I worked at Delray steel casting over by down river area of Detroit and never seen a furnace like that. Used to work for a company that made the lance that injects gases into the melting metal to purify it.
Delray, what a great place...said no one. lol
DSC shut down in 2012.
@@BobSmith-mc7uq 20 and out if you live though it.
That’s why they have their own power plants.
😁
I knew what was coming but I jumped anyway! Cool videos.
Damn ,,,those pipes are glowing practically white hot ..😮.
Those are carbon graphite electrodes,
Great. Our graphite electrode is used in this way.
Sounds like you have some badass radios.
I think the more I learn about these things the more amazed and terrified I get
Most assuredly!
Would not want to pay that electric bill.
I used to make the hoods for those blast furnaces.Company was U.C.A.R.
I imagine the grid must ring every time one of these monsters lights off.
New steel worker and this is the wildest thing I've seen in person too date
I like how theirs a steel beam right above the thing with flames touching it
Those electrodes do have a lot of power.
God damn thats a violent arc compared to my lil baby 250amp welder arc
talk about an energetic work place!
Foundries seem like such ominous and just STRANGE places to work. So unlike everything else.
Donde hechan el acero fundido todo el caldo producido donde lo descargan y donde lo llevan. Me gustaría verlo tenéis videos de estos, publicarlos, por favor gracias.
What is burning in the flames? Is it just plasma? Oxydizing metals? Flux?
Fantastic. What are the specifications of those graphite rods that arc?
No chimney or extractors for the fumes? I remember visiting an arc furnace years ago, where the poor operator was sitting in his cubicle almost directly above the furnace, subjected to this acrid, poisonous smoke.
Was that some kind of drossing flux the stacker truck put in at 1.00?
Lime. It says so right on the side of the bucket.
@@MrSunrise-gm5ne It say 'OXO' on the buses but they don't sell it.
@@dennisgreenwood92 it's a Good Grips overhead crane :D
Yes.
Just wondering what's the electricity bill of the factory
at least $100
Whoa, I have a new second favorite Electric thing spelled with the letters a, c, and r.
I hope they've got a smart meter fitted
What did the forklift dump into the furnace?
I finally see what happened to Doc Octopus and his nefarious powers.
Must have a hell of an electric bill :)
Theres this amazing mode that would allow you to show more of the machinery without all the blank ceiling and floor... HORIZONTALLY hold your phone. It will work. Trust me.
Another whiner crying about a how a FREE video was made. Get a life b-boy! lol
Why don’t you go and film it then, you penis?
Wow, that's really crazy shit! Thabks for sharing! And the germans try to replace every 40W lightbulb by led, crazy dudes 😂
Where is the, dust collector duct work to take the 'arc fumes' to the "bag house", to collect the dust particles ?
it looks like me burning toast
Is that like LTV work a double find a place to hide and sleep 8 hrs.
Y'know, looking at size and power of these machines, i can kinda of understand why the Mechanicus often times just pray their titans work. Think about it: a machine larger than a flat/small house probably littered with access ports and terminals for maintenance. And if its old enough it probably had plenty of modifications and jerry rigs though its service that makes the original schematics unreliable. And if thats the case theres no replacement parts, they arent produced anymore. Making repairs(and more jerry rigs) the only way to maintain it. It certaintly deserves some reverence.
Damn. Now that’s a real job…
3:45 headphone users beware this is a 6 second warning to remove it turn down the volume. Involuntary shitting may occur
So loud even the cameraman jumped a bit when it started up
you have no idea, the sound goes right threw you
I worked at constellium in muscle shoals Alabama . It's some really cool and dangerous stuff. A worker dropped his cup of water on accident into an aluminum furnace completely destroyed a building the size of Walmart in 3 seconds. Killed every person in the building instantly.
find that hard to believe considering the electrodes are water cooled
From one damn cup of water??!!! 😳
I Love this
By the way
Electric arc furnace steel production accounts for about 30% of global steel production
*"CALL BEFORE YOU DIG"* ⚠️⚡ jk lol 😆
The darkness in my room got darker when the electrodes made contact...
Cool video and I love the lime hopper for the fork truck where did you get it?
Filmed it myself😀. Thanks. Like subscribe and share please. Im near 1000 subscribers.
Yeah, I like the bathtub a little on the warmer side
Is this the element 13 plant at constellium muscle shoals?
So, this furnace was decommissioned?
Dude straight up chillin at 4:20 ish...must be the 4325th time he's seen that furnace
Я в большом ковше видел силует человека. Он упал в огонь. Это Арни?
I'm a student of material science ( materials engineering ) field and i really don't know i must continue this field or not ?🤔
Is this a LECTROMELT unit?
That's creek gravel bud I dug in creeks too
Basically a welding rod in its puddle…only a thousand times bigger!
"Slowly walks back" Bro same
What power rating is that ?
I'd love to know as well...
1.21 gigawatts
60-80MW
@@MrRedeyedJedi Great Scott!
@@chrisr5201 lmao! Yay someone got it
Blinkin' heck, that's one intrepid forklift driver. How hot must it be in there?
around 80°F
probably not measured there but the melting point of plain carbon steel is around 1300C / 2300F
Electrocity ⚡💥🔥
Looks like Valbruna ASW in Welland Ontario Canada.
How do they turn it off?
This is so cool.
Where is this located?
Cuantos amperios y voltios consume esa. Bestia😮😮😮
wow that is violent
Looks like something out of D00M Eternal.
I'm new to this... what are they making it breaking down?
Melting steel with electric arc.
Melting scrap steel to produce molten steel using an electric arc furnace.
There's pockets in rocks trapped causing that explosion 💥
Also ich vermisse in dem Laden eine anständige Legierungsanlage statt dem Gabelstapler genauso wie eine anständige Kapselung des Ofens mitsamt primär und sekundär Entstaubung.
Hiii broo i have doubts related arc furnace please can you answer some
This brown smoke after 3:50, what is that?
What is electric arc furnace dust?
1. Electric arc furnace dust generation is divided into three smelting stages: melting, oxidation and reduction. The amount of dust and pollutants in EAF are different in each smelting stage. In the oxidation stage, the furnace dust is the largest, and the furnace gas produced by 1T tons of steel is 80~100m3. The actual amount of furnace gas entering the dust removal system is determined according to the way of flue gas collection, which is generally more than 10 times larger than that of furnace gas.
2. In the melting stage, grease combustibles and metals in the charge are burned at high temperature to produce black and brown smoke.
3. The oxidation stage is the decarbonization process, and the oxidation of iron produces a large amount of russet smoke.
4. During the reduction phase, oxygen and sulfur are removed from the steel, and toner is added to adjust the chemical composition of the steel, producing a black or white smoke.
The dust discharged by electric arc furnace is mainly air pollutant, producing 12~14kg dust from 1T ton of steel. At high temperatures in an arc furnace, metals are sublimed, oxidized, and cooled to form iron oxide particles less than 0.01 m. Dust and rust are discharged together with furnace gas. www.dancarbon.com/q/eaf/what-is-electric-arc-furnace-dust-hazardous-waste-217.html
Electric arcs in air burn the nitrogen and oxygen in the air to form nitric oxides which are powerful acids. The designers of these arc furnaces try to minimize this side effect by making the pot as airtight as possible. Nitric oxides in the air form brownish or reddish fumes. That may be why the smoke was brown at first as the air in the pot burned up....
A bunch of nasty ass shiiiied you don't want to breathe in is what it is
Iron oxide. The electric arcs vaporise the steel and it burns.
Taco Tuesday ??
Soo cool !!
Are they hiring??
Can anyone tell me why there's 3 electrodes used in this process, I don't get it!
One electrode for A-B-C phases in a 3-phase AC system.
Dude just strolls by and glances over at Dante's Inferno there. 👋
yep, you get use to it, just another day in the office
@ 3:52
DAMN IT BOBBY.......
STOP throwing fireworks into the furnace........
are the electrodes completely consumed in each melt?
no, takes X amount of hours depending on a lot of things, they can last hours
Man i really gotta get into industrial electrical if it pays enough to afford those gorgeous vacations😳🤤