Just thoughts Id share my recent fun and games on my parents farm.. The electrics are old. Its a 400yr old house with outbuildings just as old plus steel framed buildings.
So the farm supply is a 80a single phase supply. The house also comes off the same pole outside and also has an 80a fuse and by both boards fuses it says it is a PME supply. The farm supply goes through a pretty old 100ma RCD but it does actually work...well it does if given a chance. The line and neutral than go to some henley blocks. The earth also goes into a henley block. 10mm tails and the earth then head out to the various old fuse boards, they are daisy chained one after the other but they are all basically on the 100ma rcd.
So my dad calls me and says whenever he turns the power on in one of the buildings on the old fuse board in one of the outbuildings, if he uses any tools he is getting a tingling on his hands. I tell him to stop and turn it back off. He did stop but he didn't turn it off. I arrive with and go out to the building where he was working and pick up the circular saw he was using and realise "oh yes the power is still on". But before I do I decide to have some fun and measure the potential difference. From the saw to my hand was 70v, to my dads hand (different boots) was 100v at which point I said it was bloody more than tingling you nutter. I then measured to the steel frame of the building and yes 232v. I then walked into every flipping outbuilding and found the entire farm except the house which is only the other supply was live. Probably the most scary was a metal clad switch, mounted on a board on the inside of a steel building. To go in the steel framed building you often hold open the metal gate and turn the light switch on at the same time! Alarm bells anyone? If there was ever an advert for understanding why extraneous conductive parts need bonding even if you have an rcd, this is it.
So after a while I have tracked down the offending lighting circuit that was causing the fault. It is a bunch of strip lights in a building mounted on wood but didn't have time to fix those so I have just removed the circuit for now. My next problem was determining why the RCD wasn't tripping. I'm sure there is a continuity issue on the earth on the feed to the fuse boards but I don't have a lead long enough to check. Also replacing the earth wire is going to be a nightmare.
My thoughts. Since the majority of the steel framed buildings are close to the supply pole for the farm. Is it possibly more straight forward to create a TT system and bond onto the frames which goes down a good metre into the soil. Seems pointless putting rods or providing sufficiently sized cpc when the frame provides hundreds of mm2 per post of steel back to the transformer on the pole and should provide enough fault current to trip the rcd. However I am then concerned if a fault occurs and for some reason, the rcd doesnt trip. Is this going to potentially elevate the voltage on the farmhouse neutral which also comes off the same pole. How can this be mitigated if this is a potential issue?
Many thanks
So the farm supply is a 80a single phase supply. The house also comes off the same pole outside and also has an 80a fuse and by both boards fuses it says it is a PME supply. The farm supply goes through a pretty old 100ma RCD but it does actually work...well it does if given a chance. The line and neutral than go to some henley blocks. The earth also goes into a henley block. 10mm tails and the earth then head out to the various old fuse boards, they are daisy chained one after the other but they are all basically on the 100ma rcd.
So my dad calls me and says whenever he turns the power on in one of the buildings on the old fuse board in one of the outbuildings, if he uses any tools he is getting a tingling on his hands. I tell him to stop and turn it back off. He did stop but he didn't turn it off. I arrive with and go out to the building where he was working and pick up the circular saw he was using and realise "oh yes the power is still on". But before I do I decide to have some fun and measure the potential difference. From the saw to my hand was 70v, to my dads hand (different boots) was 100v at which point I said it was bloody more than tingling you nutter. I then measured to the steel frame of the building and yes 232v. I then walked into every flipping outbuilding and found the entire farm except the house which is only the other supply was live. Probably the most scary was a metal clad switch, mounted on a board on the inside of a steel building. To go in the steel framed building you often hold open the metal gate and turn the light switch on at the same time! Alarm bells anyone? If there was ever an advert for understanding why extraneous conductive parts need bonding even if you have an rcd, this is it.
So after a while I have tracked down the offending lighting circuit that was causing the fault. It is a bunch of strip lights in a building mounted on wood but didn't have time to fix those so I have just removed the circuit for now. My next problem was determining why the RCD wasn't tripping. I'm sure there is a continuity issue on the earth on the feed to the fuse boards but I don't have a lead long enough to check. Also replacing the earth wire is going to be a nightmare.
My thoughts. Since the majority of the steel framed buildings are close to the supply pole for the farm. Is it possibly more straight forward to create a TT system and bond onto the frames which goes down a good metre into the soil. Seems pointless putting rods or providing sufficiently sized cpc when the frame provides hundreds of mm2 per post of steel back to the transformer on the pole and should provide enough fault current to trip the rcd. However I am then concerned if a fault occurs and for some reason, the rcd doesnt trip. Is this going to potentially elevate the voltage on the farmhouse neutral which also comes off the same pole. How can this be mitigated if this is a potential issue?
Many thanks
