Off The Grid Video

That has so far been pretty much the only concern anyone has had with they system.  My original intent was to assemble the system, then disassemble to polish the bus bars to remove any scratches and whatnot, then coat them in clear polyethylene - you can get it in spray-on form.  Unfortunately I built this system in summer and the demand to get it up and running for air conditioning did not really allow for me to take it all back apart in order to do said coating and additionally I had not until this last weekend finished the bussing on the second rack.

When I work on anything around the inverter, I disconnect the batteries from the negative bar (Far left of left rack - potential between any tools and rack is zero so not really too dangerous) and then proceed to work on the system.

Inverter does not offer generator support.

In the process of considering a diesel generator, which is not yet complete until I actually order it,  I was thinking the inverter output is 12kva, with a battery charger pulling up to 6 kva.  In an attempt to avoid having to upgrade the generator at a later time, I figured go for the worst scenario.

Our well was just drilled about 1600 ft from the location of this shipping container, (The well is drilled 530ft deep and from the top of the well to the top of the hill where the water will be used is about 120 ft). I plan to run power down the hill and use the diversion output of the outback CC's to run the pump when excess power is available.  I also plan to setup the well pump to run whenever the generator is running.  I'm sure the first thought is "HOLY COW 1600 FT?!?"...I plan to step up 240 to 480v single phase, run down the hill with 1AWG Aluminum, then step down to 240v Single phase 50 amp service (12KVA - Matching max cont. output of inverter).  The step up will allow for a significantly smaller conductor size and now I don't need to build a whole new solar setup for just the well pump. 

I am an electrical trainee, and where I work we do a lot of commercial/industrial feeds...Typically when we order material we go overkill and my boss who is a great family friend really wants to help out with our goal of being off the grid.  He is open to excess material going into this project - Thats how I eneded up with two matching 120/240 - 240/480 Transformers.  Just gotta be patient and save material one piece at a time.

Thoughts?

I'm certainly going to need to re-evaluate this when I know what the actual load that I will have to run the well - They put the pump in on Tuesday this week....the draw for the Battery Charger (120A@48v) is 5760 watts (24 amps at 240v) in a perfect world.  That would be  Let's go hypothetical and assume the well is drawing about 20A at 240v which is not an unreasonable figure based on the circumstances - We will most likely need a booster pump at some point too, so that can be a calculated load.

~6KW for battery Charger
4.8KW for Well pump (Estimate)

10,800/18000 = .6 = 60%

That's 60% generator load

Add a few other misc loads that are typically on (15% of 18kw is 2700w so that doesn't bring quite all the way up to 75% load...)

But either way we are close to that 75% mark you suggest.

What if I need to run the air compressor and plasma cutter - That uses the full 50 amps@240v my inverter has available.  If the generator is running I dont really want to have to shut it down to do work in the shop.

If we were to go with a 10kw genset, then we would in theory (Because actual well load is not yet known) be exceeding power capability of that genset.....I want the generator to auto-start and I do not intend to be there babysitting the draw of the battery carger at 3 in the morning when the batteries might go dead.

It leaves some cushion for future expansion....Buy right the first time so you don't have to buy twice?

Note: Battery charger shown in video does allow for output percentage adjustment.

Thoughts?