Inverter to Panel Help

Re: Inverter to Panel Help

Let's say you are near/have weather similar to Billings Montana.

Using PV Watts, for an off-grid system, 3.9 kWatt array, and 0.52 overall system efficiency, we get:

"Station Identification"
"City:","Billings"
"State:","Montana"
"Lat (deg N):", 45.80
"Long (deg W):", 108.53
"Elev (m): ", 1088
"PV System Specifications"
"DC Rating:"," 3.9 kW"
"DC to AC Derate Factor:"," 0.520"
"AC Rating:"," 2.0 kW"
"Array Type: Fixed Tilt"
"Array Tilt:"," 45.8"
"Array Azimuth:","180.0"

"Energy Specifications"
"Cost of Electricity:"," 7.9 cents/kWh"

"Results"
"Month", "Solar Radiation (kWh/m^2/day)", "AC Energy (kWh)", "Energy Value ($)"
1, 3.25, 210, 16.59
2, 4.17, 241, 19.04
3, 5.22, 324, 25.60
4, 5.27, 301, 23.78
5, 5.76, 331, 26.15
6, 5.99, 319, 25.20
7, 6.56, 356, 28.12
8, 6.31, 346, 27.33
9, 5.88, 321, 25.36
10, 4.78, 285, 22.52
11, 3.62, 221, 17.46
12, 3.03, 196, 15.48
"Year", 4.99, 3452, 272.71

You will get around 200 to 300+ kWH per month from your array. Or about 3,425 kWH per year.

• 19.72 kWH per day * 30 days per month =592 kWH per month

During winter, your array should be ~3x larger (actually even larger since you cannot really use an "average" amount of kWH per day because solar, and wind, is variable)--You will have to make a fair amount of usage with a genset.

Normally, for a "cost effective" off grid system, people should aim at about 100 kWH per month as a starting point (or ~3.3kWH per day).

Not to say you cannot build a system that large--but it will not be inexpensive... Plus remember that batteries need to be replaced every 6-15 years or so... and the electronics have around a ~10 year useful life before they need to be replaced (basically, it gets very difficult to get spare parts for electronics in general that are over 10 years old).

For most people, grid/utility power costs around $0.10 to $0.20 per kWH or so...

For off grid systems, the estimated power costs are in the range of $1-$2+ per kWH (cost of hardware, batteries, and replacements over a ~20 year system life--no taxes, no cost of capital).

If you knew your off-grid power is ~10x what you are spending grid power today--what would you do different?

You might look for poster "Mangas" here--He has a pretty large off-grid system in the South West that he even uses with Air Conditioning... From his signature:

Off Grid 4x5500SW Plus Xantrex SinePlus Inverters/48V DC System/44x185W Sharp Panels/64xTrojan L16-REB 6v/Desulfators/2xOutback FlexMax 80s'/Water Misers/Temp Sensors/Interfaced Air Extractor System/Output to 2x100Amp AC Service Panels/Two 2.5 Ton Central A/C Units/RASTRA Construction

Click on his name and click on threads that he has started--And you can see some of his design.

Regarding wind turbines--Do a lot of research on them... Personally, I am not a big fan of wind turbines (I think they cost a lot, are not usually very mechanical reliable, and do not generate much energy for most installations due to various reasons). I would suggest designing your system for PV Array at least 9 months of the year, and a back up genset to help with the other 3.

At that point, you can add in small wind and, hopefully, it will reduce your generator runtime.

-Bill

Re: Inverter to Panel Help

Znode,

That is fine--We all here recognize that power usage is a highly personal choice and we are here to help educate folks so they can make their own decisions.

So--From a practical point of view:

• Conserve (lots of insulation, energy start appliances, turn off unneeded items, etc.).
• Measure your loads (peak watts, Watts*Hours per day usage)
• Define your needs (12 month, 9 months, seasonal, weekend, etc.)
• Design system on paper (probably several different options)
• Then you are ready to do buy/build your system/home.

Note that, in general, electrical systems do not scale up (or down) very well... If you are off by a factor or 2x or greater--many times you almost have to start over with the major components.

For your system--It sounds like the Schneider/Xantrex Hybrid Inverter system would be a good start... Their largest "home system" is 6kW on a 48 volt battery bank. Supplies 120/240 volt split phase AC (typical home power).

From a design point of view--focus on the loads, inverter, and the Battery Bank first... Pretty much, the battery bank is the heart of your system--and the rest of the "parts" are there to keep your battery bank "happy".

One person leaving a heavy load on over a week trip during bad weather (heater, well pump, etc.) that takes the battery bank dead once--and you are out many $k of batteries.

Everything else is fairly rugged and forgiving.

-Bill

Re: Inverter to Panel Help

Sizing the array is one of the last steps... It depends on what charge controller(s) you want, what brand/model of panels is the best $$$/watt shipped to your place vs Vmp/Imp configuration to meet your charge controller needs and wiring requirements.

Even if you picked the "optimum" controller+panels+wiring configuration now--Those panels may not even be available in 6 months, or some other panels at 1/3rd the cost are now available.

It is really a wacky/changing world right now in Solar Panels (and to a lesser degree, the electrical equipment too).

The larger inverters you would just wire then to a "main AC panel" and from there, wire your home as normal (120/240 VAC if you choose that voltage setup).

There are a lot of choices to be made--but without nailing down your power needs--we end up shotgunning the problem and probably confusing each other about the end goals.

The rules of thumb (cost of power, cost of system) based on generic numbers is usually close enough for you to identify how much generating power is worth to you...

Some people do run Microwave ovens and larger computers on relatively small off-grid systems... It is usually the continuous power usage (12 hours or 24 hours per day) that really drive system design (battery capacity, solar array capacity).

The inverters and charge controllers are relatively inexpensive. You can up-size or down-size based on your needs pretty easily (i.e., slow well pump--low power running many hours a day, vs a large well pump that only runs tens of minutes per day).

Until we have a better handle on your loads--we are going keep asking questions you cannot answer--and making guesses that may, or may not, meet your needs.

-Bill

Re: Inverter to Panel Help

Where will the home be located (Billings close)? Are you planning on 12 months a year, summer or winter only use, etc.? Weekend at a time, full time occupation?

TV's--dvd player, satellite receiver, DVR's, etc.?

-Bill

Re: Inverter to Panel Help

Actually, that is correct based on 25 lights x 7 watts x 10 hours per day or 1.75 kWH per day...

-Bill

Re: Inverter to Panel Help

Some people here have been very happy getting used ForkLift batteries...

Search for thread by "adas" -- He built a large off-grid fabrication business around used / rebuilt forklift batteries.

At least at first until you have your system/power needs dialed in--then you can replace with other batteries sized to your usage.

-Bill

PS: Would still like to know where the home will be located (aproximatly nearest large city if not Billings)... Also, is this a 12 month, 9 month, seasonal, weekend place?