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  • electrofelon
    replied
    Ok we had some good rain for two days. Water is behaving and I am all dry after my little additions!

    Been singing this all day:

    https://www.youtube.com/watch?v=vqxb4fvv7Fk

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  • electrofelon
    replied
    UPDATE

    So we had some rain the other day and it was the first time I was around so I go down to see how my system is doing. Water EVERYWHERE! My first though is ok this idea was a total failure, but on closer examination, I dont think it is too bad. Turns out its that pesky surface tension (I think actually the correct words are adhesion and cohesion). Water drips out of the flashing and travels on the underside of it until it JUST clears the gutter by like 3/4 of an inch and then drips down. I didnt have my phone to get an action shot, so see the picture with the gutter removed and the two black sharpie marks. Those are about how far the water would travel out before dripping. It seems like this was happening to about half of them. I played around to figure out what was required to break the surface tension and it doesnt take much. Even a little piece of down turned metal sitting in the flashing kills it. Just to be safe though, I screwed and caulked on a double ridged piece and put a bead of caulk after that as a redundancy (see picture). I am now awaiting for rain to look for leaks. Another option is just to make the gutters double width (with a piece of edge guard over the seam) which would definitely catch everything, even without the surface tension breakers, but I wanted to put the breakers on anyway so Ill see how that goes.

    Its weird stuff: At first I tried messing around in the sink with a piece of flashing to see what I needed to do, but I COULD NOT get it to happen even with the same piece of flashing. Must be chemistry difference between the tap water and the rain water.
    Attached Files

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  • peter d
    replied
    Originally posted by electrofelon View Post
    I pulled out the wire then sleeved it in 50 foot sections (Yet another code violation). Its a long walk but gets 50 feet shorter every time.
    Wow.

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  • electrofelon
    replied
    Originally posted by peter d View Post
    How was it to pull that 2 Kv PV wire through 1900 feet of 3/4" PVC? It looks silicone insulated so seems like a massive amount of friction for that distance.
    I pulled out the wire then sleeved it in 50 foot sections (Yet another code violation). Its a long walk but gets 50 feet shorter every time. Yes many MV cables are EPR rubber, but PV wire is usually just RHW-2 but it is still not great to pull. We did a bunch of 400 ish foot pulls of 8 #8's of the 2KV PV wire on a commercial PV job. It sucked, I was dreaming of SimPull.

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  • peter d
    replied
    How was it to pull that 2 Kv PV wire through 1900 feet of 3/4" PVC? It looks silicone insulated so seems like a massive amount of friction for that distance.

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  • ggunn
    replied
    Originally posted by electrofelon View Post
    Well not until I fix this: Peter D will have a MELTDOWN if he sees it
    So you are growing your own utility poles. What's wrong with that?

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  • electrofelon
    replied
    Originally posted by tortuga View Post
    Wow, When can we all book a tour?
    Well not until I fix this: Peter D will have a MELTDOWN if he sees it
    Attached Files

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  • tortuga
    replied
    Originally posted by electrofelon View Post
    It is generally accepted that you do not need shielded cables at or below 2.4KV. A few code cycles ago they did restrict non shielded cables from 4160 which was allowed, but it is still allowed for 2.4KV. I just used an elbow because that is how to interface with the pad transformer bushing. One of my transformers is a dry type and has regular mechanical lugs.




    Yes. Actually the transformer at the house has two primary bushings ("loop feed") so the MV loops thru and goes to the solar. At first I was going to run 120/240 down there, but I realized the solar is getting stepped up anyway, so I might as continue the 2.2Kv down there and add another transformer since either way would be the same transformer load losses. OF course the third tranny does at no load losses but the the wire savings make it worth it.

    IF I was going to do this for someone professionally, I would either get 2 KV transformers, or if you want to stick with regular 2.4KV, you could get 5KV airport lighting cable which is very affordable. Its very similar to the PV wire, just a little thicker.
    Wow, When can we all book a tour?

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  • peter d
    replied
    The HV setup on that transformer....wow...just wow.

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  • electrofelon
    replied
    Originally posted by tortuga View Post
    Gotchya, so strees-scones and the loadbreak elbows are only needed for over 2.4kV? Thats good to know. My working experience doing terminations tapers off around 600 Volts.
    It is generally accepted that you do not need shielded cables at or below 2.4KV. A few code cycles ago they did restrict non shielded cables from 4160 which was allowed, but it is still allowed for 2.4KV. I just used an elbow because that is how to interface with the pad transformer bushing. One of my transformers is a dry type and has regular mechanical lugs.


    So you have 3 privately owned transformers on your property; your utility serves you regular 120/240 single phase and you have a step up transformer to 2.2kV there to feed your 1900 foot line with a transformer on the other end for your house, and you have teed into this line?
    Yes. Actually the transformer at the house has two primary bushings ("loop feed") so the MV loops thru and goes to the solar. At first I was going to run 120/240 down there, but I realized the solar is getting stepped up anyway, so I might as continue the 2.2Kv down there and add another transformer since either way would be the same transformer load losses. OF course the third tranny does at no load losses but the the wire savings make it worth it.

    IF I was going to do this for someone professionally, I would either get 2 KV transformers, or if you want to stick with regular 2.4KV, you could get 5KV airport lighting cable which is very affordable. Its very similar to the PV wire, just a little thicker.

    Leave a comment:


  • tortuga
    replied
    Originally posted by electrofelon View Post
    I dont think you will find a load break connector that fits such small wire. Note 310.106(A) requires minimum conductor size of #8 for 2001-5000V so that is likely why. There are two things to match up: the crimp on connector and the opening on the tail of the elbow body. Without looking real hard, I only found connectors go down to #4, but they must be available down to #8 as MV-90 #8 is a thing. The connector is a snug fit into the body of the elbow so I didnt want to deform it too much by crimping it. I guess I could have packed some more strands in there to tighten it up, but I ended up soldering it instead. The opening in the elbow only goes down to about .5 inch, but since the PV wire isnt shielded, I dont see it as being important that the cable sheath interfaces snugly with the semi-con of the elbow.

    Over 2.4KV, I would want to use shielded cables and all the correct stuff, but for <2.4, IMO its not very critical.
    Gotchya, so strees-scones and the loadbreak elbows are only needed for over 2.4kV? Thats good to know. My working experience doing terminations tapers off around 600 Volts.
    So you have 3 privately owned transformers on your property; your utility serves you regular 120/240 single phase and you have a step up transformer to 2.2kV there to feed your 1900 foot line with a transformer on the other end for your house, and you have teed into this line?

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  • electrofelon
    replied
    Originally posted by tortuga View Post
    Very cool install thanks for posting, I have contemplated doing the exact same thing many times over the years.
    Especially a step up to step down HV system on rural property. I have looked into a 1.5kV transformers and the PV wire before.
    How did you make up the stress cones? Did you actually find ones that fit?
    We run 7.2 kV underground once in a while but the local utility always makes up the stress cones. I know they have gotten easier but they can be a point of failure.
    I dont think you will find a load break connector that fits such small wire. Note 310.106(A) requires minimum conductor size of #8 for 2001-5000V so that is likely why. There are two things to match up: the crimp on connector and the opening on the tail of the elbow body. Without looking real hard, I only found connectors go down to #4, but they must be available down to #8 as MV-90 #8 is a thing. The connector is a snug fit into the body of the elbow so I didnt want to deform it too much by crimping it. I guess I could have packed some more strands in there to tighten it up, but I ended up soldering it instead. The opening in the elbow only goes down to about .5 inch, but since the PV wire isnt shielded, I dont see it as being important that the cable sheath interfaces snugly with the semi-con of the elbow.

    Over 2.4KV, I would want to use shielded cables and all the correct stuff, but for <2.4, IMO its not very critical.

    Leave a comment:


  • tortuga
    replied
    Originally posted by electrofelon View Post

    How abou that transformer picture - ever seen a #10 coming out of a load break elbow? Thats 2KV Pv wire, transformer is 2400, tapped down all the way to 2280, close enough. I was too cheap to buy custom transformers. Runs about 500 feet to where it Tees into another 1900 foot line which goes from the service pedestal and transformer to the house.

    Its good to be an electrician sometimes.
    Very cool install thanks for posting, I have contemplated doing the exact same thing many times over the years.
    Especially a step up to step down HV system on rural property. I have looked into a 1.5kV transformers and the PV wire before.
    How did you make up the stress cones? Did you actually find ones that fit?
    We run 7.2 kV underground once in a while but the local utility always makes up the stress cones. I know they have gotten easier but they can be a point of failure.

    Leave a comment:


  • ramsy
    replied
    Originally posted by electrofelon View Post
    yes, look at table 300.50 for over 1KV. The depths arent nearly as crazy as you might think: PVC even over 40Kv is only 30". RGS/IMc is 6" regardless of the voltage..
    Roger that, NEC Tbl. 300.50, 1-22kv = 18" deep in PVC.
    I could do that below $40k, even after breaking a few ditchwhitches.

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  • electrofelon
    replied
    BTW Ramsy,

    If you didnt notice I had that thread "MV on poles" a while back

    https://forums.mikeholt.com/showthread.php?t=196761

    Might be best to move the discussion over to there as that is about running non utility MV.

    Leave a comment:

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