Stand-Alone (off-grid)
system examples
for planning and sizing
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Remote Home Solar Electric Power Initial Planning Questions-
12 Volts, 24 Volts, or 48 Volts for your batteries?
Battery voltage is difficult to change after your system is built, choose carefully at the start. Long distances between modules and inverter needs 48 vdc.
12 volts is simplest and most standard, used in vehicles, RV, and boats. If you want a small simple power system, 12 volts will probably be easiest. You can use 12 volt DC directly in very small systems, adding 120 volt AC with an inverter.
24 volts battery systems have some technical advantage.
SYSTEM SIZE: If you think you will have more than 1000 watts of solar modules, consider 24 volts. A technical advantage is that 24 volt wires can run longer distances. If you must place solar modules over 100 feet from the house for adequate sun exposure, or if your wind generator or hydropower is over 300 feet away, choose 24 volts. Most of your power will be changed to 120 volt AC power. Voltage converters are available to run 12 volt DC equipment from 24 volt batteries.
48 volts has great advantage if longer wire run is unavoidable to reach the only good solar location, up to 400 feet from the house, or hydro turbine 1,000 feet from the house. Presently there is limited selection of 48 volt charge controls and inverters, but these are the best quality, well suited for larger power systems. Voltage converters are available to run 12 volt DC equipment from 48 volt batteries.
Charge controls by Outback Power Products and Blue Sky Energy can charge a 12 or 24 volt battery from a 48 volt solar array. With these, power systems of any battery voltage can reach longer distances to place solar modules in the best sun location.
Separate Components or a Power Center?
A prefabricated power center is the other choice to decide on at the outset. This costs a little more than separate hardware and components of equal quality, but can save as much in cost of design and installation. You get a clean, safe electric system with just 3 components in the power room: inverter/standby charger, a power center with charge control , and the batteries. A power center may be the only way to pass your local building code inspection. Consider your long term goals. Separate components are suitable for smaller systems, and may allow budgeting for an additional solar module. But where you will be adding on, increasing the power of your system over the years, a power center approach is safer, neater, makes expansion easy, and passes building and electrical codes.
LET’S BEGIN finding the right size and cost for your power system.
The exact sizing of solar is not terribly risky, since solar modules can be added any time, and since a backup generator can supplement charging if there is a shortfall. There is some flexibility because the power you receive varies with the sunshine of each year and with seasonal changes in weather. Your own flexibility in energy usage, plus use of a backup generator allows you to adapt to temporary shortages, while the automatic charge control manages any overproduction.
We caution against the temptation to start with generator, batteries and inverter, but postpone solar modules until later. If you can, start with enough solar modules required to do the job, since this is where most of your power originates. If budget requires, perhaps start with half or a third of the panels, and add the rest in subsequent years. This will help avoid battery problems and save many generator hours. Solar charging is what made home power systems practical! Solar power is modular. When the family grows or the cabin becomes a full time home, you add more solar modules. But two things are more permanent decisions: choice of battery voltage, and selection of a Powercenter. Consider your long term objective in making these decisions.
With this flexibility, several methods of estimation can give a close idea of what equipment you need.
1. SIX EXAMPLES of power systems from smallest to largest are described and priced at the end of this page. Choose from these balanced and expandable designs for the FASTEST way to a good starting point.
2. CALCULATE how many watt hours you will need, then find the number of solar modules to produce that much power in your climate.
3. VISIT INDEPENDENTLY POWERED HOMES in your area. Notice what works for folks with life-style, family size, home, and climate like yours. The amount of electricity needed depends on the number of people in the house, their hobbies, business activities and conservation habits. Ask about their use of special energy saving appliances.
4. CALL or EMAIL US at North Arkansas Solar Power. We will be glad to personally help you estimate your power and solar equipment needs.
Six Examples of Home Power Systems of Different Sizes
The six examples below are not packaged kits, but flexible suggestions to find your starting point easily. These examples fit six different levels of life-style or budget. Most people shopping at North Arkansas Solar Power fit in example #2 through #5. Each example shows the cost and the watts of solar modules required in Arkansas climate. Each is a well balanced system, but still gives a range of choices in quality. Prices include mounts for the solar modules and cables for batteries and inverter where required, but these items may vary with each installation.
Solar modules range from under 50 to over 170 watts each. Examples are based on total watts of solar modules installed, which applies to all sizes of solar modules or any system voltage.
Backup generators cost from $400 to $9000. Many of our customers already own one. Most choose an automatic stand-by generator, natural gas or liquid propane powered. This cost is NOT added to the total in the examples, and you may need to allow for purchase of a backup generator.
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#1 STARTER SOLAR POWER SYSTEM
$1000 to $3800
PRODUCES ABOUT 0.25 - 1.0 USABLE KILOWATT-HOURS ON A SUNNY DAY
Minimum solar power for a small cabin, motor home, boat, or weekend retreat. A very conserving person can start with 60 to 120 watts of solar, to power a few 12 volt lights and stereo. Closer to 240 watts of solar allows lots more lights, a 12 volt TV, 12 volt pumped water pressure system and a small inverter for some power tools. Winter weather requires backup charging with a generator. One or two pairs of 6 volt deep cycle golf cart batteries make a 12 volt set.
SOLAR 65 to 260 WATTS (one Kyocera KC65 up to two Kyocera KC130s & mounts)
CHARGE CONTROL ( SCI Mark 22 plus fusing)
BATTERIES: (2 or 4 Trojan T-105 & cables)
DC BREAKER BOX (QO612 with two 20 amp breakers)
INVERTER: (None; or any unit up to Xantrex DR1512, cables & fuse)
recommended: 3000 watt AC portable generator.
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#2 CONSERVATIVE CABIN
$4000 to $6500
PRODUCES ABOUT 1.5 TO 2.0 USABLE KILOWATT-HOURS ON A SUNNY DAY
Cabin power system runs high efficiency lighting, TV, stereo, & DC water pumping. The AC power inverter runs color TV, VCR or satellite receiver, stereo; and limited use of vacuum, hand held power tools, computer, blender . An AC generator is used for large appliances like clothes washer, AC deep well pump, or a table saw, and it charges the battery at the same time. Battery is usually 12 volt but can be 24 if expansion is intended.
SOLAR 340 - 520 WATTS (four KC85 or four KC130, & mounts)
CHARGE CONTROL: (Xantrex C40DD or Morningstar Tristar 45DD)
METERS: Battery Meter (recommended)
HARDWARE: (solar and inverter fuses, and connecting wires as needed)*
*(consider a power center kit instead of the two lines above)
BATTERIES: (4 to 6 Trojan T-105, & cables)
INVERTER/CHARGER: (Xantrex DR1512 or DR2412 and cables)
Recommended: 3000 Watt portable generator
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#3 CONSERVING SMALL FAMILY HOME
$7500 to $9500
PRODUCES ABOUT 3 USABLE KILOWATT-HOURS ON A SUNNY DAY
Year round home for 1 to 3 people. Provides 120 volt AC power for lighting, vacuum, washer, kitchen appliances & microwave. DC or 120 volt AC well pump, color TV, VCR, satellite receiver, stereo, computer, and hand-held power tools. There can be enough power for a small DC refrigerator in southern climates. In winter the generator supplements battery charging while doing laundry. This system could be set up with either 12 or 24 volt battery.
SOLAR 780 WATTS: six Kyocera KC130 modules (on pole mount or roof)
POWERCENTER: (with charge control and cables)
BATTERIES: (8 T-105 or 4 Trojan L-16HC, & cables)
INVERTER/CHARGER: (Xantrex DR1512 to DR2412)
Recommended Generator: Generac Guardian 7 KW
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#4 ACTIVE FAMILY SOLAR HOME
$10,000 to $15,500
PRODUCES ABOUT 4.5 KILOWATT-HOURS ON A SUNNY DAY
More power suitable for a family of 3 or 4, or home office. This covers all of example #3 plus power for a Sunfrost refrigerator and energy efficient chest freezer, and extensive computer or TV use. Washing machine and 120 volt well pump run from inverter AC, with generator backup if winter is extended overcast. 24 volt battery is recommended ,
if future expansion is planned to example #5.
For 24 volt remember to order solar modules in multiples of two, 6-volt batteries in multiples of 4.
SOLAR 1040 WATTS: (eight KC130 watt modules on pole mounts, & wiring)
POWERCENTER: (with charge control and cables)
BATTERIES: (8 to 12 Trojan L-16HC)
INVERTER/CHARGER: Xantrex 2000 to 4000 watt (true sine wave preferred, Ex:Xanrex SW)
Recommended Generator: Generac Guardian 7KW stand-by when used with Xantrex SW inverters.
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#5 LARGE HOME / SMALL BUSINESS
$18,000 to $28,000
PRODUCES ABOUT 10 USABLE KILOWATT-HOURS ON A SUNNY DAY
You can run 4 computers 10 hours a day, answering machines, fax, office and stockroom lights, work bench and shop tools. A inverter runs washing machines and power tools. If a true sine wave inverter is used, humming will not occur in stereos, ceiling fans and appliances . Inverter includes automatic generator start/transfer as batteries or loads require more power. Battery voltage of 24 volt or 48 volt is recommended. 24 volt battery bank requires 6-volt batteries set up in multiples of 4,while 48 volt requires multiples of 8.
SOLAR 2080 WATTS: (sixteen KC130 watt modules on two mounts of eight)
BATTERIES: (12 - 16 Trojan L-16HC or larger Surrettes, and cables)
OUTBACK Flexware 500 POWER SYSTEM: with 1 or 2 inverters
Recommended Generator: Generac Guardian 7 KW or 10 KW
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#6 HIGHER POWER SYSTEM
$28,500 to $38,000+
PRODUCES ABOUT 15 USABLE KILOWATT-HOURS ON A SUNNY DAY
Quality plus higher power for a very large family home and business, art studio, or shop. 3,000 watts of solar our relieve our sun-less winter power shortage, and reduce generator running time. Resulting summer surplus allows a small window air conditioner during peak sun hours. True sine wave 7,000 watts of AC power with both 120 and 240volts AC. Battery voltage of 24 volt or 48 volt is recommended. 24 volt battery bank requires 6-volt batteries set up in multiples of 4,
while 48 volt requires multiples of 8.
SOLAR 3120 WATTS: (twenty-four KC130 watt modules)
BATTERIES: (16 - 24 Trojan L-16HC or larger amp hour rating batteries, & cables)
Xantex SW system with 2 inverters stacked for 240 vac output
Recommended Generator: Generac Guardian 7 KW or 10 KW