I've been keeping an eye on solar, and don't have a system yet. I just skimmed the thread real quick, but I don't think anyone mentioned this.
Do NOT start by sizing a system according to your current needs. The first step should always be to downsize your current needs. Learn to live with less electricity. Then, size a system accordingly. And when you're looking at payback times, be sure to factor in that your electricity rates will be going up *all* the time.
I've been tracking our usage and bills for about three years. In Nov2010, our bill was $97 for 977kwh, but by Nov2011 our cost had increased so that our bill was $104 for only 900kwh - 7% higher bill for 8% less electricity used. The local power company is going to shutdown three coal powered plants in the next 6-8 years, per the EPA, and construct a big transmission line to replace the lost generating capacity with electricity brought in from another area. That's an unexpected (big) cost for them, which I'm sure will result in a jump in my bill that wouldn't be there if they were able to keep burning coal.
It's easier than you think to live with less. I measured our usage to find out what % of electricity went to what for most things (hard wired stuff is harder to measure). For example, our refrigerator is ~12% of our electricity bill (during winter). We have a desktop computer being used as a server for our home network that is about 7% (90 watts, continuous) and I've purchased a network connected external hard drive to replace it with that uses probably 10% of that. I was going to need to replace the server soon, and the new efficient external drive cost less than a new desktop "server" would. We use wood to heat with during the winter. We're probably going to start using a clothes line instead of the electric dryer. In July2011, our usage was 37% less than July2010. The change? I replaced our 26 year old heat pump (~6 seer?) with a new 18 or 19 seer unit.
I've estimated (through elimination) that our water heater is probably 30-40% of our bill. I've also heard that solar water heating is much more efficient than solar electricity generation. If we go solar, it'll probably be solar water heating first, because of this. Our electric water heater would stay in place to provide hot water on cloudy days. I'd like to find out what our actual costs and benefits would be, so I bought a surplus electric meter off ebay to install right beside the water heater. This will eliminate one guess from my payback equation.
I mentioned before the electric costs going up. Also, the solar costs are going down . So your calculations need to include multiple changing variables over time. How far can I lower my electric usage and still live comfortably? What is the average annual perKWH increase in my electricity bill? How quickly does the cost of the solar equipment go down? If not now, when will these three (or more) variables align to give you your desired payback time frame?
Keith
Im noting an error I made above in simplifying for the cap voltage dropping during delivery of its energy. I used 1V as the discharge V because 1/2 the charge is delivered above and below that. I lost track and got too many 1/2's mixed in. In actuality, Capacitor Energy = 1/2C x V^2 = 1/2x100F x 4 = 200Joules = 200W-sec ... So that cap has stored twice as much energy as I initially stated.