**EDIT** Just posted this a couple hours ago ... it hit 5k views then crashed :( The video was showing an error and wouldn't play anymore ... lost every single comment! Had a few really good ones where some viewers explained exactly how SF6 gas worked. I'm going to keep working at trying to get the first post back and retrieve those comments, but it isn't looking very promising :( ********* Hope everyone had a great weekend! I create these videos for 2 reasons - to give the general public a more in depth look at our trade and how the power grid functions. - to help educate and exchange ideas with those within the trade that are properly trained and authorized to work on powerlines and related equipment. After seeing a few discussions I just want to clarify that these are NOT d.i.y videos for Mr. Fixxer upper! Cheers all! 🍻
I would doubt SF6 would be used, as you would need pressure gauges to ensure its filled. As far as I know, SF6 is only used in switchgear primarily to save space. SF6 is a great insulator whitch is not only use when trying to limit the arc but also used to minimize dimensions and the shrink the switch gear. I'm actually surprised it's still being used and developed in the USA, as Europe is now getting away from it because of its environmental effects. I personally used it in France and Germany and it was a b**** to get on site as it could not be flown .
Im new to the URD side of things, but my guys are lineman also. Everyday is different and it blows me away at what these guys do up there, your videos give me a better understanding of the job and the lifestyle. Thank you!!
One safety habit I've used over the years when closing or opening switches is to #1 look over the switch for problems and then line up your shot to close it. #2 ..Put your chin on your chest (this allows the brim of your hard hat to cover and protect your face and neck protecting vital arteries in your neck). #3.. Take a big breath and hold it ( what this does is keep you from sucking an arc into your lungs God forbid something should go wrong because if an arc or explosion does occur it will startle you and cause you to breath in suddenly). #4 Send it home firmly using enough power to close it and not break it. I like your videos "bump, bump"
Hello, greetings from Spain. I am a professor of network development and transformation centers. Congratulations for your excellent work and for providing what in a classroom is impossible to teach (for space and money). Best regards.
Hey Missouri from USA here, really enjoy the videos. I'm not an electrician or anything I just enjoy your videos. Explaining what a door was was very helpful, I I've heard you speak of them but I never knew what they were thank you keep up the good work
Where were these videos twenty years ago? This information would be great for Apprentice Lineman. You can definitely tell you know your stuff and you have such a natural ability to explain things in an easy way for everyone to understand. Thanks for Sharing, Love your channel as always.
These are the kind of videos I love! The ones that actually show how mechanisms operate, and how particular operations of jobs are actually performed. Nice video!
Not sure the comments made before on SF6, but SF6 breaker internals are pretty cool. There are interrupters inside and the way it works is when the movable contact pulls from the stationary contact it creates a void inside the interrupter, sometimes called a puffer, and this creates a low pressure area that is then filled by the SF6 gas through ports and helps to blow, or "puff" out the arc. The entire inside is of course filled with SF6, but the interrupter creates this lower pressure area inside the interrupter portion. Oil filled breakers do the same thing, but instead of using a gas to cool and quench the arc, it of course uses oil. But the same principle with an interrupter and a void when the movable contact pulls from the stationary contact in the interrupter. In fact, the SF6 breaker interrupters were designed following the interrupters found in oil breakers, since the oil breakers of course pre-date the gas filled breakers. In a vacuum breaker you don't have any of this going on. In a vacuum breaker it's just the absence of air that prevents the arc from ionizing in the first place. But vacuum breakers are only viable up to a certain voltage class, which is about 35kV I believe. Also in a vacuum breaker, as I am sure you know, the distance between the contacts when open in a 25kV vacuum breaker bottle is less than 1/2 inch! That is why you never trust a breaker for an open and always use a physical visible open. And I am sure you know the tripping time on most breakers is in the order of three cycles or less! At 16.6 milliseconds per cycle at 60Hz, that's less than 50 miliseconds to open and quench an arc. Amazing some of the higher voltage class breakers can move that quick and some of the 500kV class breakers are even faster. I love working in substations, so much interesting equipment and technologies that most people don't realize goes on in there. I've been enjoying the videos, keep up the good content and work safe.
Excellent description! I worked at a Nuke Power Plant for 11 years. The switch yard used 4 cyclone 500KV line breakers that used high pressure SF6 gas jets to quench the arc as the flying contact rotated 230 degrees inside the enclosed breaker (which looked a lot like a donut without a hole). The breakers each had a compressor to recover the SF6 gas after each cycle. The flying lead rotated around the center axis on an insulated arm driven by an enormous high tension spring. I don't remember the opening time, but it was very fast. These were unique breakers made for the nuke plant that were nuke safety rated. They were $$$$$$ each and were only rated for 4 loaded opening cycles, one of which was used during acceptance testing. I asked if they could be rebuilt and no, after 4 cycles the insides were burned too badly to be reused. And yes, they had to have a full set of spare breakers in the warehouse on-site. We also had one of the primary 500KV transformers blow up. It was in a 3 sided concrete blast shield and luckily no one got hurt. The transformer was caring 1150MW at the time. Understand that the primary transformer is huge and weighs around 1,000,000 pounds. What happened is not frequent, but not rare. What happens is the cooling oil inside the transformer casing gets contaminated with too much moisture causing an arc, and once it arc's, kaboom! (It was heard about 2 miles away.) Normally, the oil circulation system removes water and contaminants from the cooling oil. The identified cause was the oil cooling system from the time of installation over cooled the oil, allowing moisture to be absorbed. Where does the water come from? Amazingly, through the transformer's steel tank walls! Over 4 years, the steel was porous enough to allow enough moisture to be introduced into the oil (it doesn't take much). The company's own on-site engineers didn't bother to pay attention to the manufacture's recommendations and figured more oil flow through the cooling system was more better. The oil was supposed to run hot to drive off moisture...go figure... Same thing can happen to pole pigs if they get moisture inside due to leaky tanks or damaged connectors.
I hear a slight Newfie Accent. I was born in Newfoundland--in Alberta atm. Love your channel. I've been giving serious thought to going for journeyman electrician.
Fairly new apprentice. It's been pretty difficult to get a grasp on things but I've made a lot of happy journeyman because of your helpful videos, I appreciate all the time and info you put into the video on and off the camera. From a young apprentice thanks brother. Stay safe👍🇺🇲
Scranton, Pennsylvania really like your videos. Sorry to say here in Pennsylvania the major power company, Pennsylvania power and light (pp&l) would most certainly fire someone for doing what you are doing. It's nice to see you have the support of your employer, must be good people! Thanks again!
Worked for a few years with Pacific Gas &Electric in San Francisco. I worked in the underground...manholes in downtown. Lots of lead cable back then...everything you find on a pole, but in a hole...lol...stay safe!
Okay so the white powder in HRC fuses is there to help stop the arc because it's a fine ceramic powder. It will absorb the metal vapours and cool them instead of them conducting and keeping the arc up. It's ceramic because it's insane hard to melt and it will keep up the massive surface area used for absorbing. Even in small HRC fuses for multimeters and such they use more or less the same quartz or ceramic dusts. As for SF6, it just doesn't conduct much and it's difficult to ionize but most of all the contacts won't corrode that much because it flushes out the oxigen from the system that would cause rusting and scales on the hot parts under the arcs. Not contained in the loadbuster though
Load busters in my time were only good for a certain amount of operations. I always had that in mind when I opened a fuse under load. Never had one to fail.
Hi from North Carolina USA, interesting work for sure, when I was a Firefighter I got to see the power company quite a bit. I admire the safety and personal accountability that's taken by them, 2nd to none, doing a ultra hazardous job. From Trees on lines to Structure Fires it was common to see Power Co, got to know the fellas in the area pretty good. Your vids were in my Recommended I watched and subbed, stay safe thanks for the videos
Loving these videos from Salt Lake City, Utah! I never ever thought about being a lineman; actually hate working with electricity but find it fascinating. You make this trade look, for lack of a better word, interesting. I know you post these videos mostly for other linemen, but thank you for the explanations in terms that everyone, lineman or not, can understand. Stay safe!
Thanks for the video. As a previous distribution engineer, it's nice to see how these things come into play in the field. It's hard to get a grasp of how everything comes together behind the computer screen.
Watching from sunny Syracuse, NY. Been curious about power distribution since a little arc-flash incident at work (Michigan, 1990's), where a couple cubic inches of copper (section of a 480v buss-bar) turned into plasma - a real attention getter.
Greetings from Nisula, Michigan 👊 Thanks to your videos I can look on power poles and understand what's there, like the transformer I was wondering why was there when there's no houses for a few miles around it is actually a voltage regulator.
Brissy Australia here. Very cool to see this gear in action. Many years ago I used to work for a company (T-mac) that made a lot of the gear you show including Hot sticks. Though I was in the section that made test lamps and the likes.
I am watching from Dundalk Md US, I am new to watching videos about being a lineman, I have always wanted to know what you guys do, thanks for doing these videos, I find them so far being very educating , stay safe
One of the greatest sites on TH-cam without a doubt. After looking at these devices up on poles for your entire life wondering what they do and then along comes this marvelous site dedicated to solving these pressing questions. I work on Xray equipment and we have some pretty lethal voltages but now I know what's up there and how it works. Many thanks for solving this crisis.
Hey Brent! Manufacturer recommends an inspection every 1500-2000 operations. There are a few wearable parts inside that will need to be changed ... As long as it's well looked after, there is no expiry date
@@Bobsdecline is that 1500-2000 actuations because of the liner that reacts with the arc to quench it? Or is it 1500-2000 actuations because of the spring and other mechanisms? Just wondering if practice runs, like you did in the video, will count against it. Like if you check it ever time before using it (by doing a test actuation), can you go to 3000-4000 actuations?
Greetings from Indy. We use load busters often. Not for just dropping load. But also to handle the amperage difference when separating mainline circuits. Great tool! Thanks for the vids on trouble work. Working on a one man truck can be challenging at times. Keep up the good work👊
Very interesting videos. I am no electrician, 35 years as an auto mechanic but growing up my dad had 36 years with Public Service of N.H. Interesting to see what he went through on those long stormy nights he was gone.
Awe Aaron you got a haircut man hahah!!! Just had a cut out break on me the other day luckily it was a clear break and nothing flashed so dodged it thank goodness! Great video as always and always stay safe! From your friend from Kansas man!!
Watching from the UK; really enjoying your videos. Total respect to you and your colleagues worldwide for doing this skilled and risky job to keep our power on!
👊 Watching from BC. Not a lineman but I love the technical information on how our infrastructure works and what it takes to keep it safe and reliable. Great videos, keep up the great work on the job and the videos man!
Were you down in the US after Super Storm Sandy? You guys from Canada really helped us out a lot after that storm rolled through! Very much appreciated, and really nice equipment! Your trucks made ours look like Shytt!
🤜 Kia Ora, subscribed and watching from Auckland, NZ. Great video, we use load busters alot on our network where we can and isolate the circuit if we can't use a load buster to open cut outs. Interesting how you say people asking why you look away, here in NZ, we are trained to look away when operating switches etc for exactly the reasons you explain. Stay safe out there everyone 😊
Great demo. Would it be possible to show more lineman tools and equipment. For instance, blocks and wire grips and how to store the block to avoid tangled up rope. Also how to install small to large automatic splices please.
Interesting device. I've never seen anything like that in use. I suppose the gas inside the load buster has a very high insulating property in order to extinguish the arc.
I was in Germany last summer on a river cruise down the Rhine. Stopped in a village where there was one large transformer for the entire village and instead of everything built on the streets, it was all secondaries built on the roof tops with steel masts attached to the roof tops. Was so cool to see how you guys do that.
@@linehandibew6205 I dont think that this is representative :-) in older towns we still have overhead wires from house to house, but in newly built areas (and maybe when they are renovating the quarters) all cables go underground. Overhead wires are only used in more rural areas, where it would be to expensive to dig into the ground, and then telephone and internet and electricity is all overhead...
SF6 filled switches are a pain to maintain. If they go too long without inspection and drop into the red you can't operate it and you have to deenergize the whole switch to fill it up back up. My utility is going away from the SF6 switches to oil filled.
Lol Thanks man! The first video crashed, then TH-cam wouldn't let me re-upload it because it was a duplicate 🤦♂️ had to make some adjustments in order get the video back up!
new subscriber from the UK... awesome channel. Learning how you guys do stuff over there. I'm an LV guy so we don't do much over 415v (see a bit of 480 sometimes on split phase supplies but they're rare). but it's interesting to see 'how the other half' live. Interesting thing about work here is that our fault currents on the LV network tend to be larger due to larger and fewer transformers (a typical unit here is 750kVA continuous rated 3ph 11,000 to 415/240v, close to the substation the LV side can have fault currents into the tens of kA. Kudos to you ... stay safe
Repost. ;-) Thanks for your video, it was interesting as always! This tool seems to be one oft the most important in your daily work with lines under heavy load... According to your pinned comment - are there seriously people who want to play with 7,2kV or even more as a diy hobby? Wow, that's odd. Greetings from germany 👊.
@@Bobsdecline Oh boy, this can't be true. No one can be that stupid to think that watching some youtube videos is educating enough to do dangerous tasks on an private infrastructure. Though, I see a lot of these folks in my job (IT/PBXes) who watched some youtube videos and think they can do work on servers or network infrastructure without really knowing what they do. But they can only loose some data or have a network breakdown and don' really endanger others or themselfes. That is the difference beetween a lineman job and simple administrators like me. I can understand if one of my customers tries his luck - there is no real danger - but on powerlines? I would never ever have the idea to play with them when not properly deenergized and the work is permitted and supervised by some official crew... Anyway, keep up the good work, im looking forward for your next videos!
I have never seen a load buster before , we open up to 65amps on load , I have had only 1 time where I have had excess arcing . I have had more problems with older style Air brake switches arcing at similar currents . The system I work on is 3 phase 11KV or 6.6KV to ground . We don't single phase and a neutral as you do , but we most of the time have 2 phases at 11KV to get single phase Low Voltage out of the transformer
**EDIT** Just posted this a couple hours ago ... it hit 5k views then crashed :( The video was showing an error and wouldn't play anymore ... lost every single comment! Had a few really good ones where some viewers explained exactly how SF6 gas worked. I'm going to keep working at trying to get the first post back and retrieve those comments, but it isn't looking very promising :(
*********
Hope everyone had a great weekend!
I create these videos for 2 reasons
- to give the general public a more in depth look at our trade and how the power grid functions.
- to help educate and exchange ideas with those within the trade that are properly trained and authorized to work on powerlines and related equipment.
After seeing a few discussions I just want to clarify that these are NOT d.i.y videos for Mr. Fixxer upper!
Cheers all! 🍻
Applications are opening soon...
Does anybody know how exciting that is?
Gettin in shape!
Gettin healthy!
The Losers are gone for good!
What more could a guy ask for?
Shoooot! Lol
Linework!
Yahoo!
Aaron,
Ive watched this video 10 times this morning...
I would doubt SF6 would be used, as you would need pressure gauges to ensure its filled. As far as I know, SF6 is only used in switchgear primarily to save space. SF6 is a great insulator whitch is not only use when trying to limit the arc but also used to minimize dimensions and the shrink the switch gear. I'm actually surprised it's still being used and developed in the USA, as Europe is now getting away from it because of its environmental effects. I personally used it in France and Germany and it was a b**** to get on site as it could not be flown .
Well Dang i had a hand full of wire nuts and was gonna rewire my 25KVA 2 pot system DOH !!!
Im new to the URD side of things, but my guys are lineman also. Everyday is different and it blows me away at what these guys do up there, your videos give me a better understanding of the job and the lifestyle. Thank you!!
Great content!
Thanks for educating the public on how our infrastructure works and how much skill is needed to operate and maintain it.
One safety habit I've used over the years when closing or opening switches is to #1 look over the switch for problems and then line up your shot to close it. #2 ..Put your chin on your chest (this allows the brim of your hard hat to cover and protect your face and neck protecting vital arteries in your neck). #3.. Take a big breath and hold it ( what this does is keep you from sucking an arc into your lungs God forbid something should go wrong because if an arc or explosion does occur it will startle you and cause you to breath in suddenly). #4 Send it home firmly using enough power to close it and not break it. I like your videos "bump, bump"
I'm gonna start work with load buster in 2 weeks, thanks for your advice
👊
Hello, greetings from Spain. I am a professor of network development and transformation centers. Congratulations for your excellent work and for providing what in a classroom is impossible to teach (for space and money). Best regards.
Hey Missouri from USA here, really enjoy the videos. I'm not an electrician or anything I just enjoy your videos. Explaining what a door was was very helpful, I I've heard you speak of them but I never knew what they were thank you keep up the good work
Where were these videos twenty years ago? This information would be great for Apprentice Lineman.
You can definitely tell you know your stuff and you have such a natural ability to explain things in an easy way for everyone to understand. Thanks for Sharing, Love your channel as always.
watching from Finland. Good stuff, interesting for people who don't know anything about lineman working
I'm just a retired handyman but I love this type of content.
These are the kind of videos I love! The ones that actually show how mechanisms operate, and how particular operations of jobs are actually performed. Nice video!
Home and commercial electrician, I fine your Chanel very educational. Thankyou for your time. Keep em comming. Colorado.
Thanks for sharing 👍 this very important information with us here in North Carolina
You are a real lineman sir..........
I love demonstrations of equipment and work like this. Really demystifies stuff and makes it more approachable. Cheers
I'm not a lineman but I enjoy your videos. I'm from Independence MO
I am south of you in peculiar
Not sure the comments made before on SF6, but SF6 breaker internals are pretty cool. There are interrupters inside and the way it works is when the movable contact pulls from the stationary contact it creates a void inside the interrupter, sometimes called a puffer, and this creates a low pressure area that is then filled by the SF6 gas through ports and helps to blow, or "puff" out the arc. The entire inside is of course filled with SF6, but the interrupter creates this lower pressure area inside the interrupter portion. Oil filled breakers do the same thing, but instead of using a gas to cool and quench the arc, it of course uses oil. But the same principle with an interrupter and a void when the movable contact pulls from the stationary contact in the interrupter. In fact, the SF6 breaker interrupters were designed following the interrupters found in oil breakers, since the oil breakers of course pre-date the gas filled breakers.
In a vacuum breaker you don't have any of this going on. In a vacuum breaker it's just the absence of air that prevents the arc from ionizing in the first place. But vacuum breakers are only viable up to a certain voltage class, which is about 35kV I believe. Also in a vacuum breaker, as I am sure you know, the distance between the contacts when open in a 25kV vacuum breaker bottle is less than 1/2 inch! That is why you never trust a breaker for an open and always use a physical visible open. And I am sure you know the tripping time on most breakers is in the order of three cycles or less! At 16.6 milliseconds per cycle at 60Hz, that's less than 50 miliseconds to open and quench an arc. Amazing some of the higher voltage class breakers can move that quick and some of the 500kV class breakers are even faster. I love working in substations, so much interesting equipment and technologies that most people don't realize goes on in there. I've been enjoying the videos, keep up the good content and work safe.
Excellent description! I worked at a Nuke Power Plant for 11 years. The switch yard used 4 cyclone 500KV line breakers that used high pressure SF6 gas jets to quench the arc as the flying contact rotated 230 degrees inside the enclosed breaker (which looked a lot like a donut without a hole). The breakers each had a compressor to recover the SF6 gas after each cycle. The flying lead rotated around the center axis on an insulated arm driven by an enormous high tension spring. I don't remember the opening time, but it was very fast. These were unique breakers made for the nuke plant that were nuke safety rated. They were $$$$$$ each and were only rated for 4 loaded opening cycles, one of which was used during acceptance testing. I asked if they could be rebuilt and no, after 4 cycles the insides were burned too badly to be reused. And yes, they had to have a full set of spare breakers in the warehouse on-site.
We also had one of the primary 500KV transformers blow up. It was in a 3 sided concrete blast shield and luckily no one got hurt. The transformer was caring 1150MW at the time. Understand that the primary transformer is huge and weighs around 1,000,000 pounds. What happened is not frequent, but not rare. What happens is the cooling oil inside the transformer casing gets contaminated with too much moisture causing an arc, and once it arc's, kaboom! (It was heard about 2 miles away.) Normally, the oil circulation system removes water and contaminants from the cooling oil. The identified cause was the oil cooling system from the time of installation over cooled the oil, allowing moisture to be absorbed. Where does the water come from? Amazingly, through the transformer's steel tank walls! Over 4 years, the steel was porous enough to allow enough moisture to be introduced into the oil (it doesn't take much). The company's own on-site engineers didn't bother to pay attention to the manufacture's recommendations and figured more oil flow through the cooling system was more better. The oil was supposed to run hot to drive off moisture...go figure... Same thing can happen to pole pigs if they get moisture inside due to leaky tanks or damaged connectors.
Great video, I wasn't sure how a load buster worked but it makes perfect sense now.
I recently just found this channel, always been fascinated with electricity since I was a kid, and it's cool to see the high voltage side of things.
Watching from Lima - Peru (South America), so far best explanaition on the web, keep it up with the good work
First time I've noticed a comment from Lima, very cool. Cheers!
@@Bobsdecline cheers mate
I hear a slight Newfie Accent. I was born in Newfoundland--in Alberta atm. Love your channel. I've been giving serious thought to going for journeyman electrician.
✊ I am in ofallon, Illinois USA.
I am not a line men but love to watch your channel
Fairly new apprentice. It's been pretty difficult to get a grasp on things but I've made a lot of happy journeyman because of your helpful videos, I appreciate all the time and info you put into the video on and off the camera. From a young apprentice thanks brother. Stay safe👍🇺🇲
Thanks Dominic! 👊🇨🇦🇺🇲
Hi! I'm watching from Buenos Aires, Argentina! Thanks for all this information!
Too cool! First time hearing from Buenos Aires! 👊👊
Scranton, Pennsylvania really like your videos. Sorry to say here in Pennsylvania the major power company, Pennsylvania power and light (pp&l) would most certainly fire someone for doing what you are doing. It's nice to see you have the support of your employer, must be good people! Thanks again!
Frig'n awesome demo! I always wondered what the door and tube looks like up close.
Went over this today in line school today with my teacher ; thank you bob !
Awesome! 👊
Congratulations on getting over 1 million total channel views. Keep up the good work.
Worked for a few years with Pacific Gas &Electric in San Francisco. I worked in the underground...manholes in downtown. Lots of lead cable back then...everything you find on a pole, but in a hole...lol...stay safe!
I enjoy your videos. Not a linesman but interesting. Watching from Milverton Ontario.
I like seeing the tools of the line man! Great video.
Good job Bob! Keep up the good videos really enjoy! Resting my bones in Gallatin TN.
from Katy, Texas USA ~ thanks 4 the way cool videos Bob!
Anyone else getting the 'slap chop' advert. Love this guy.
We cant do this all day
I learned alot 👊👊 now I know what Con Ed Does on my POLE. Cortlandt Manor NY, USA
Okay so the white powder in HRC fuses is there to help stop the arc because it's a fine ceramic powder. It will absorb the metal vapours and cool them instead of them conducting and keeping the arc up. It's ceramic because it's insane hard to melt and it will keep up the massive surface area used for absorbing. Even in small HRC fuses for multimeters and such they use more or less the same quartz or ceramic dusts. As for SF6, it just doesn't conduct much and it's difficult to ionize but most of all the contacts won't corrode that much because it flushes out the oxigen from the system that would cause rusting and scales on the hot parts under the arcs.
Not contained in the loadbuster though
I'm a 1st step apprentice here in California and your videos have been very informative! Thank you for passing the knowledge
Hey,I just found you channel a couple of days ago and have been watching nonstop.great information your putting out.
Hey! Thanks for taking the time write some feedback! 👊
Best lineman page out there. Most Informative and best content
Load busters in my time were only good for a certain amount of operations. I always had that in mind when I opened a fuse under load. Never had one to fail.
Muy bien explicado , gracias por compartir tu experiencia, Saludos desde Nicaragua , soy ingeniero electrico y la explicacion me parece genial!!
Hi from North Carolina USA, interesting work for sure, when I was a Firefighter I got to see the power company quite a bit. I admire the safety and personal accountability that's taken by them, 2nd to none, doing a ultra hazardous job. From Trees on lines to Structure Fires it was common to see Power Co, got to know the fellas in the area pretty good. Your vids were in my Recommended I watched and subbed, stay safe thanks for the videos
Loving these videos from Salt Lake City, Utah! I never ever thought about being a lineman; actually hate working with electricity but find it fascinating. You make this trade look, for lack of a better word, interesting. I know you post these videos mostly for other linemen, but thank you for the explanations in terms that everyone, lineman or not, can understand. Stay safe!
Thanks Ron! I try my best to share information that's useful for everyone! Cheers!
This is so cool!
I've never heard of a load buster until I saw you'r cap bank video.
I'm watching from the us in Idaho!
Cheers Idaho! 👊
Udaho
@@Bobsdecline Same, watching in Idaho
Thanks for the video. As a previous distribution engineer, it's nice to see how these things come into play in the field. It's hard to get a grasp of how everything comes together behind the computer screen.
Great content man! Watching from Philadelphia PA 👊🏻
Watching from Australia,!! Love the videos
nice finally a closer up video of one
Another thing I would have liked to see is a continuity test before and after you break load. So you know it’s working properly.
I'm watching from Detroit! I love your helpful teaching attitude! Thanks for helping the average Joe understand this stuff! 👊👊
Watching from sunny Syracuse, NY. Been curious about power distribution since a little arc-flash incident at work (Michigan, 1990's), where a couple cubic inches of copper (section of a 480v buss-bar) turned into plasma - a real attention getter.
Greetings from Nisula, Michigan 👊
Thanks to your videos I can look on power poles and understand what's there, like the transformer I was wondering why was there when there's no houses for a few miles around it is actually a voltage regulator.
Brissy Australia here. Very cool to see this gear in action. Many years ago I used to work for a company (T-mac) that made a lot of the gear you show including Hot sticks. Though I was in the section that made test lamps and the likes.
I am watching from Dundalk Md US, I am new to watching videos about being a lineman, I have always wanted to know what you guys do, thanks for doing these videos, I find them so far being very educating , stay safe
👊🏻🤙🏼 from my couch!!!!! Great video man.
Thanks Brian! 👊🤙
One of the greatest sites on TH-cam without a doubt. After looking at these devices up on poles for your entire life wondering what they do and then along comes this marvelous site dedicated to solving these pressing questions. I work on Xray equipment and we have some pretty lethal voltages but now I know what's up there and how it works. Many thanks for solving this crisis.
So, how many cycles on the counter before it’s taken out of service? I’m assuming that’s the reason for the cycle counter.
Hey Brent! Manufacturer recommends an inspection every 1500-2000 operations. There are a few wearable parts inside that will need to be changed ... As long as it's well looked after, there is no expiry date
@@Bobsdecline is that 1500-2000 actuations because of the liner that reacts with the arc to quench it? Or is it 1500-2000 actuations because of the spring and other mechanisms? Just wondering if practice runs, like you did in the video, will count against it. Like if you check it ever time before using it (by doing a test actuation), can you go to 3000-4000 actuations?
Watching from Brisbane, Australia.
Greetings from Indy. We use load busters often. Not for just dropping load. But also to handle the amperage difference when separating mainline circuits. Great tool! Thanks for the vids on trouble work. Working on a one man truck can be challenging at times. Keep up the good work👊
Challenges keeps ya on your toes!
Yes we do the same (when breaking parallels) it's a very good practice...
Thanks Greg! 👊👊
Difference in load can draw an arc. We do the same here in New York.
Another great vid, Aaron! Thank you from NH
Big fist bump. Watching front Scotland UK
Very cool! I love seeing all the things that go into power transmission. Greetings from Boise, Idaho, USA!
I really like watching your videos your videos are very interesting I like watching this I'm from San Antonio
Thanks Jon! 👊👊 I did see a comment from yea earlier, must have been on the original post that crashed? Thanks for taking the time to write again!
SA transplant in Austin now.
Very interesting videos. I am no electrician, 35 years as an auto mechanic but growing up my dad had 36 years with Public Service of N.H. Interesting to see what he went through on those long stormy nights he was gone.
Watching from St. Louis right now, visiting my sister.
Watching from the UK, cool to see another countries systems cheers.
Cheers!
Guess I should have gone to work for the power company years back. Very interesting.
I recently started watching your videos. That’s a nice video, up close to see how it’s done. Watching from Eastern Ontario. Cheers dude stay safe
like the tool reviews, I'm from Va. and layed up your videos keep me occupied
Thanks! Sorry to hear your layed up tho, get well soon !💯🍻
An interesting invention, a manual switch mounted on an insulating pole for medium voltage fuses to break the electric circuit under load.
woah, 18k subs, the channel is blowing up! nice work cousin! keep up the great work!
Sending support all the way from Dublin Ireland !
Awe Aaron you got a haircut man hahah!!! Just had a cut out break on me the other day luckily it was a clear break and nothing flashed so dodged it thank goodness! Great video as always and always stay safe! From your friend from Kansas man!!
Hahha it was getting soo long! ... And this weather was way too hot for long hair 🤣.
Glad you didn't get a flash! Stay safe my friend!
Watching from the UK; really enjoying your videos. Total respect to you and your colleagues worldwide for doing this skilled and risky job to keep our power on!
🤜🤛 Greetings from Nebraska!
Thanks for the videos. Really helps when young folks can see what the trades are like.
Greetings! 👊👊
👊 Watching from the UK. Love your channel..! :)
👊👊
DUDE! Your channel is blowing up! Keep up the good work man, look forward to your videos all the time
👊 Watching from BC. Not a lineman but I love the technical information on how our infrastructure works and what it takes to keep it safe and reliable. Great videos, keep up the great work on the job and the videos man!
Thanks man ! ,🇨🇦👊
Were you down in the US after Super Storm Sandy? You guys from Canada really helped us out a lot after that storm rolled through! Very much appreciated, and really nice equipment! Your trucks made ours look like Shytt!
Watching from south florida.
Watching from the uk, good and interesting content there
🤜 Kia Ora, subscribed and watching from Auckland, NZ. Great video, we use load busters alot on our network where we can and isolate the circuit if we can't use a load buster to open cut outs. Interesting how you say people asking why you look away, here in NZ, we are trained to look away when operating switches etc for exactly the reasons you explain. Stay safe out there everyone 😊
Great demo. Would it be possible to show more lineman tools and equipment. For instance, blocks and wire grips and how to store the block to avoid tangled up rope. Also how to install small to large automatic splices please.
Thank you for that that was effing awesome exclamation point
Interesting device. I've never seen anything like that in use. I suppose the gas inside the load buster has a very high insulating property in order to extinguish the arc.
👊 watching from Biloxi Mississippi USA
Great video , watching from Taranaki , New Zealand
Nice! 👊
Watching from Reno, Nevada.
Hi Bob, this is Wolfgang from Germany, eastern Baden-Württemberg.
I was in Germany last summer on a river cruise down the Rhine. Stopped in a village where there was one large transformer for the entire village and instead of everything built on the streets, it was all secondaries built on the roof tops with steel masts attached to the roof tops. Was so cool to see how you guys do that.
@@linehandibew6205 I dont think that this is representative :-) in older towns we still have overhead wires from house to house, but in newly built areas (and maybe when they are renovating the quarters) all cables go underground. Overhead wires are only used in more rural areas, where it would be to expensive to dig into the ground, and then telephone and internet and electricity is all overhead...
Great channel. Thanks for the close up tutorial.
Thanks for your great videos! great to see how this kind of systems are beiing maintaned. Watching from the Netherlands! (Amsterdam)
watching from Guyana, South america
Good show! No SF6 on load buster ....RAG and standard multi position UG switch yes (visual gauge in green). U know👍
SF6 filled switches are a pain to maintain. If they go too long without inspection and drop into the red you can't operate it and you have to deenergize the whole switch to fill it up back up. My utility is going away from the SF6 switches to oil filled.
🤜🏽 watching from western Massachusetts. Love your videos, super interesting! Thanks for what you do!
Thank you so much! ✌️👊
Have used a Loadbuster hundreds (literally) of times...never had a problem. AJR
It's a great quality product for sure!
Guess I’ll watch twice it was released then put on private! I watched before you made changes lol love ur work man
Lol Thanks man! The first video crashed, then TH-cam wouldn't let me re-upload it because it was a duplicate 🤦♂️ had to make some adjustments in order get the video back up!
new subscriber from the UK... awesome channel. Learning how you guys do stuff over there. I'm an LV guy so we don't do much over 415v (see a bit of 480 sometimes on split phase supplies but they're rare). but it's interesting to see 'how the other half' live.
Interesting thing about work here is that our fault currents on the LV network tend to be larger due to larger and fewer transformers (a typical unit here is 750kVA continuous rated 3ph 11,000 to 415/240v, close to the substation the LV side can have fault currents into the tens of kA.
Kudos to you ... stay safe
Repost. ;-)
Thanks for your video, it was interesting as always! This tool seems to be one oft the most important in your daily work with lines under heavy load...
According to your pinned comment - are there seriously people who want to play with 7,2kV or even more as a diy hobby? Wow, that's odd.
Greetings from germany 👊.
Hey Thanks for adding your comment back!👊
Yes, unfortunately there's been a few!
@@Bobsdecline Oh boy, this can't be true. No one can be that stupid to think that watching some youtube videos is educating enough to do dangerous tasks on an private infrastructure.
Though, I see a lot of these folks in my job (IT/PBXes) who watched some youtube videos and think they can do work on servers or network infrastructure without really knowing what they do. But they can only loose some data or have a network breakdown and don' really endanger others or themselfes. That is the difference beetween a lineman job and simple administrators like me. I can understand if one of my customers tries his luck - there is no real danger - but on powerlines? I would never ever have the idea to play with them when not properly deenergized and the work is permitted and supervised by some official crew...
Anyway, keep up the good work, im looking forward for your next videos!
Watching from Sydney NSW Australia!
Thank you for the insightful video. I am watching from Toronto, Ontario, Canada.
Thanks! I love Toronto ✌️👊
I have never seen a load buster before , we open up to 65amps on load , I have had only 1 time where I have had excess arcing . I have had more problems with older style Air brake switches arcing at similar currents . The system I work on is 3 phase 11KV or 6.6KV to ground . We don't single phase and a neutral as you do , but we most of the time have 2 phases at 11KV to get single phase Low Voltage out of the transformer