Is generateing 3000 watts an hour enough to support a average house?

4 ANSWERS

1. 
   

   Let me start off by saying we (my family and I) live completely, 100% “off of the grid and are completely self sufficient”
   
   The house is built utilizing natures natural elements, in the shape of an octagon with 8ft wide arch doors on every wall to catch every angle of wind (typical 4 sided homes have half the chance as one with 8 sides. A circle being the most efficient design). Woodburning stoves, solar chimney, solar AC, solar heating, solar water heating (pool and home), solar stove, solar power, wind power, hydrogen powered back up generator, hydrogen back up water heater, hydrogen stove, 2 hydrogen powered trucks, 1 EV (electric vehicle) and satellite internet.
   
   There are no utility lines, no water lines, no roads, tv, cell service, etc. on our ranch. EVERYTHING needed is produced here. All electricity comes from 27 solar panels, 2 main wind gens and a back hydrogen generator if needed (typically we can last 9 days with all luxuries of sunless windless weather, hasn't happened yet). Water is caught and storaged from the rain. Hot water is made with solar batch water heaters with an on-demand hydrogen hot water heater as backup. Even our vehicles use alternative energy (2 hydrogen trucks, 1 EV electric vehicle converted). Because of this we have no bills, no debt and no mortgage.
   
   The following steps were taking directly out of a DIY guide I offer to those who would like to run their homes on solar power safely, reducing their monthly utility bills or even selling power back the the electrical companies. The entire guide is available at www agua-luna com. Its pretty simple but if you have any problems feel free to contact me directly I can walk you threw the process.
   
   Materials you will need
   
   A sheet of copper flashing from the hardware store. This normally costs about $5.00 per square foot. We will need about half a square foot.
   
   Two alligator clip leads.
   
   A sensitive micro-ammeter that can read currents between 10 and 50 microamperes. Radio Shack sells small LCD multimeters that will do, but I used a small surplus meter with a needle.
   
   An electric stove. My kitchen stove is gas, so I bought a small one-burner electric hotplate for about $25. The little 700 watt burners probably won't work -- mine is 1100 watts, so the burner gets red hot.
   
   A large clear plastic bottle off of which you can cut the top. I used a 2 liter spring water bottle. A large mouth glass jar will also work.
   
   Table salt. We will want a couple tablespoons of salt.
   
   Tap water.
   
   Sand paper or a wire brush on an electric drill.
   
   Sheet metal shears for cutting the copper sheet.
   
   The first step is to cut a piece of the copper sheeting that is about the size of the burner on the stove. Wash your hands so they don't have any grease or oil on them. Then wash the copper sheet with soap or cleanser to get any oil or grease off of it. Use the sandpaper or wire brush to thoroughly clean the copper sheeting, so that any sulphide or other light corrosion is removed.
   
   Next, place the cleaned and dried copper sheet on the burner and turn the burner to its highest setting.
   
   As the copper starts to heat up, you will see beautiful oxidation patterns begin to form. Oranges, purples, and reds will cover the copper.
   
   As the copper gets hotter, the colors are replaced with a black coating of cupric oxide. This is not the oxide we want, but it will flake off later, showing the reds, oranges, pinks, and purples of the cuprous oxide layer underneath.
   
   The last bits of color disappear as the burner starts to glow red.
   
   When the burner is glowing red-hot, the sheet of copper will be coated with a black cupric oxide coat. Let it cook for a half an hour, so the black coating will be thick. This is important, since a thick coating will flake off nicely, while a thin coat will stay stuck to the copper.
   
   After the half hour of cooking, turn off the burner. Leave the hot copper on the burner to cool slowly. If you cool it too quickly, the black oxide will stay stuck to the copper.
   
   As the copper cools, it shrinks. The black cupric oxide also shrinks. But they shrink at different rates, which makes the black cupric oxide flake off.
   
   The little black flakes pop off the copper with enough force to make them fly a few inches. This means a little more cleaning effort around the stove, but it is fun to watch.
   
   When the copper has cooled to room temperature (this takes about 20 minutes), most of the black oxide will be gone. A light scrubbing with your hands under running water will remove most of the small bits. Resist the temptation to remove all of the black spots by hard scrubbing or by flexing the soft copper. This might damage the delicate red cuprous oxide layer we need to make to solar cell work.
   
   Cut another sheet of copper about the same size as the first one. Bend both pieces gently, so they will fit into the plastic bottle or jar without touching one another. The cuprous oxide coating that was facing up on the burner is usually the best si

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2. 
   

   the problem is that you won't get full 3000 watts for 10 hours per day.  Most places in the US will average 4 to 6 hours of equivalent peek power.  Your 3000 watt system will make 15 Kw-hr of power or about $2.5/day of power.  So did you spend about $75/month for power before.
   
   Since you are off grid you might not be able to. The only way to be sure is to rent a 5Kw gasoline generator and put a meter on it.  Run it for 3 days and see how much energy you will need.
   
   There are sites that can help you do calculations and those will get close.

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3. 
   

   3000 watts an hour is not a correct unit.  Maybe you mean 3000 watt-hrs which is the same as 3 kW-hr.  If that is what you mean tent it will generate 3 kW-hr per day then:
   
   That is about one third the average consumption of a home in the US.  In other words, you need three times that amount.
   
   If you mean it will generate 3000 watts continuously for ten hours each day then that is 30 kW-hrs, which would be about three times more power than average household consumption.

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4. 
   

   First of all the solar panels do not always operate at maximum capacity. So lets estimate each one at 90 watts. That means you are producing 2700 joules of electricity a second. So in 10 hours you will have produced around 97 kwh (kilowatt hours) a day this is an extremely high amount of electricity, since the average house consumes 800 kwhs a month. Meaning you will produce enough power in a week to run your house for a month. The batteries cannot store this type of load, but i doubt that you will get 10 hours of electricity unless you live in the desert. Even still you could make some money and sell it to your neighbors.

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