I didn't know we could just say "hey this panel will only ever see so many amps", what does the load calculation for the unit panel say? One would think that is what has to be used in the VD calculation right?
The load varies in all facilities. AS far as I know, you have to use the calculated load at the panel or of the load being served to determine actual VD. So what is the calculated load for each tenant panel?
This isnt even what the conversation is supposed to be about. The topic is how long of runs do you go before begin to calculate voltage drop into sizing cable. I said 300' and I this is in reference to some 250' long feeders that I will soon be installing. Tortuga mentioned earlier that the IECC limit on VD is 5%. Using this threshold even at the full load of 125A a 2/0 wire would be sufficient for a 250' run. There is no need to size the wire all the way up to 250kcmil when in reality the load on the feeder will never be 125amps, it will rarely sustain 80 amps, if that, for more than 1 hour. Even generously assuming an 80 amp load the VD on a 2/0 cable is still only 3% at 250'.
The calculated VA on the 2 bedroom units that would have 250' runs to them is 11132/phase. Given this and allowing for 5%max VD a 2/0 cable should be fine. And we all know the VA shown will hardly ever be hit in these residential settings, which is exactly why table 310.12 exists and why I am saying that in these settings voltage drop is essentially a myth because it has already been factored into our load calculations for dwelling units in most cases.
which is beside the point of the post. Im asking about voltage drop not about companies bidding process or contractual agreements.
Are you or your company going to take over as EOR since you are possibly going to make all of these VE changes without approval from the engineering firm that designed this project?
I agree. In the real world we all know that calculated load is very conservative. But when it comes to permitting and following the code we cannot do this, so calculated load has to be used.
Its not 5% VD its 3% thats allowed on feeders and 2% on branch (or 5% total) meaning to the farthest device. But you cannot use 5% just for the feeder.
I said you need to ask the sizing question of the engineer for this project, not a bunch of people on this forum. You stated you have already submitted an RFI.
I think that mentioning rfi to engineer in original post is making it harder for you to get the answer you want
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If it was bid properly you aren't going to "save" him money. What you are doing is trying to make money by getting away with installing something less than what was on the plans, unless you get approval to install something less, in which case the Owner will certainly want money back. So, not saving anything. If you install without approval, you risk having to rip and replace, have warranty issue, increased liability on design, withheld payment, potential license/disciplinary action, and ultimately could be criminal fraud.