Going off grid- Talk to me about AC versus DC for appliances

True. Definately forgot about 3x setups.

The Answer!

You've got two chest freezers, one converted to fridge with Johnson Control thermostat and . You will have a big inverter. Once you have a big inverter, the lights and laptop charger are just a drop in the bucket. Hardly worth the expense and effort to go DC, especially if you think clearly, and decide to build a 24 or 48 volt system.

If you do go to a sensible system voltage, you can use a DC-DC converter to make 12 volts if you need 12 volts. Those converters can make a constant 12 volts... unlike your battery that would be anywhere from 11 to 16 volts, depending on what's going on with the charge-discharge cycle.

May I suggest an outback inverter... my (see my sig) inverter draws 20 watts tare loss. It's an inverter and battery charger. It has an input for your generator, and a built in transfer switch.

On another subject... if you do go with DC lights and appliances, what will you do for DC rated light switches, or timers, or anything that switches your DC power? You will need an electrical panel with DC rated circuit breakers for the DC wiring. What will you use for DC receptacles? Hopefully not a cigarette-lighter receptacle. All your DC lamps will have to have their plugs modified to fit your DC receptacles.

--mapmaker

Not really. You want to avoid Prime Numbers like 1, 3, 5, 7, 11, 13, 17 as that only leaves you one option of all in parallel or all in series. Odd numbers like 9, 15, 21 will work in 3's.

But to your point 7 will not work as he either has to loose one or gain one to make it work. Another rookie big mistake.

Buy an even number of panels unless you just want one as a spare for grins and giggles.

Based on those loads you absolutely, positively need a good inverter. And once you are doing that you might as well run 120V everywhere.

i want panels like you have. When I have a cloudy day, my 3Kw of panels only gives about 200w production and I have to run a generator.

[QUOTE=308AndyJ;115819][QUOTE=inetdog;115804]Be careful. Your estimated usage of 2500wh per day may be low. That comes to an average load of 104 watts used every hour. Based on the loads of a freezer, fridge, toaster, microwave, blender, computer and lights I think you will see a much higher watt hour usage in a day. Even if some of those are only on for a few minutes like the toaster and microwave those appliances are probably more than 1000 watts each and will run up your watt hour usage pretty fast.

Underestimating your true electrical load usage is common for most people and will end up draining a battery bank very quickly.

Andy quit debating, you have no other choice than 24 or 48 volts. It would be foolish to even try 12 volts. Panel wattage is limited by the charge controller. The largest controller is 80 amps, and they cost about $700 to $880 each. Input wattage is limited to:

1000 watts @ 12 volt battery
2000 watts @ 24 volt battery
4000 watts @ 48 volt battery

You have 7 x 220 watts = 1540 watts. 12 volts is out of the question so give it up. Go 12 volts and there are no batteries that will work and will require two of those expensive 80 amp controllers. 12 volt is for RV and toys period. With 1540 watt input the smallest battery you can get away with is 24 volts @ 500 AH or 48 volts @ 250 AH. No such thing as a 12 volt 1000 AH battery. You are going to have to use either 6 volt 250 AH for a 48 volt system, or 6 volt 500 AH for 24 volt system. Get use to it and dig deep in your pockets.

One more thing. What size generator and LP tank size are you going to use? At a minimum you will need a 3 Kw genny and a 100 amp 24 volt charger for the genny. Plus a LPG tank.

One last mistake you made is used average Sun Hours. For off-grid you use December insolation or else you go dark in winter months.

[QUOTE=inetdog;115804][QUOTE=russ;115801]This is correct, sorry for my typo, thanks for catching it. Here's more info about my situation.

For the good pricing of the panels I have to buy way more than I need a this point, I will be getting 7 panels at 220w each. My area gets 4.71 sun hours a day avg, for a total production of around 7,200 watts. My daily consumption will be around 2,500w so I'll be producing much more than I need. This will be good in a few ways one being the size of my battery bank can be smaller. If a cloudy day rolls around and I only get 2 sun hours, it's OK cause I'm still producing 3,000w.

About the length of the wiring which was brought up by someone let me say this. The building here is going to be very small, think Tiny House. The floor plan is very open, and the inside will be painted a bright color to help lighting go a little further. The max length of wire that'll be ran is probably closer to 50ft, though I do sincerely appreciate the math you provided and it shows very clearly how wiring can add up ($$$$)

The main consumption of electricity will be my chest freezer and my other chest freezer converted to a fridge via a Johnson thermostat control. I don't plan on AC or electric heating. I do have a computer that gets a couple hours of use each day. After dark I will have the lighting, and during the afternoon a simple box fan might see an hour or two of use in the hotter months. I will also have a toaster, small microwave, and blender. the big cooking appliances will all be avoided thanks to a wood stove.

I wouldn't be so sure about that. Let's compare a circuit to run a blender and other random appliances. We'll make it a 15 amp (1800 watt) AC circuit run 100 feet. (Or 150 amps at 12 volts.) Now to Home Depot for pricing for the NEMA-legal wiring you need for those circuits:

100 feet 14 gauge Romex - $18.06
100 feet 1/0 THHN x2 - $438.00 (ignoring the ground wire; it will be cheap)

So you save $419.94 by going with AC wiring for just that one circuit.

If you are going to run 12 volts around your house best restrict it to a few LED lights, perhaps a cellphone charger or two. That will keep the wiring cheap and you can run the LED's all night without having to turn the inverter on.

I assume he means 2500 wh/day which is still a huge number for off-grid.

[QUOTE=russ;115801][QUOTE=308AndyJ;115786] I will only be using about 2,500 kwh in a 24 hour period. Like 2500Wh maybe? Or 2.5kWh? That would be a small amount of energy that could be provided pretty reliably by a 1500W PV system in most parts of the country.

[QUOTE=308AndyJ;115786] I will only be using about 2,500 kwh in a 24 hour period. [QUOTE]

Most don't use that in a month - maybe you mean something different?

That is no small amount of power for OFF-Grid Battery system and well beyond a 12 volt system. Depending on you location you are looking at a 1200 to 2000 watt solar panel array. At 12 volt battery would require two very expensive 80 amp charge controllers and a 12 volt 1000 AH battery which does not exist.

At 48 volt battery you can use a less expensive 40 amp controller. Battery size does not change just the configuration of 48 volts @ 250 AH which is 8-6 volt 250 AH batteries wired in series. Lowest battery voltage you can use is 24 volts and that would require a 80 amp MPPT controller and a 24 volt 500 AH battery.

Forget 12 volt toys, you are well beyond what 12 volt can do.

My only concern is how expensive 48v inverters are. To give you an idea of the rest of my system, I will only be using about 2,500 kwh in a 24 hour period. It seems silly to spend $400 on a 48v inverter just to run lights, fans, and a blender. That same $400 could easily pay for the increased cost of wiring.

I do appreciate the comments though, perhaps I am missing a part of the equation?