They say seeing is believing. You can look at the live site feed for homes, schools and businesses on this very interesting website. This is truly fascinating to watch from a remote location as solar energy is being produced.
To take a look go to Fat Spaniel Technologies Live Sites
You can click on the Miller Residence in La Mesa, CA under Alternative Energy Technologies and watch as they export rather then import energy during the day.
Source Fat Spaniel Technologies Live Sites
Photovoltaics,
or PV for short, is a technology in which light is converted into electrical power. It is best known as a method for generating solar power by using solar cells or solar photovoltaic arrays to convert energy from the sun into electricity.
Photovoltaic technology converts sunlight directly into electricity. It works any time the sun is shining, but more electricity will be produced when the light is more intense (a sunny day) and is striking the PV modules directly (when the rays of sunlight are perpendicular to the PV modules). Unlike solar systems for heating water, which you might be more familiar with, Photovoltaic technology does not use the sun's heat to make electricity. Instead, PV produces electricity directly from the electrons freed by the interaction of sunlight with semiconductor materials in the PV cells.
In fact, because we now generate more solar energy than we can use, we welcome friends who own electric vehicles over to charge their car batteries for free.
Solar, Part 2 (Aug 2004)
This month we reinstalled the 4-kW solar array over our main roof and put in place the 2-kW, triangle-shaped array of 14 panels over our garage. Our now 6-kW solar system includes a 4-kW inverter to convert the DC electricity coming from the solar panels into AC to power our appliances. Most homes wouldn't require a 6-kW system; we added the extra 2-kW solely to power up the 24 nickel metal hydride batteries in our Toyota RAV4 all-electric vehicle (seen in main image). In fact, because we now generate more solar energy than we can use, we welcome friends who own electric vehicles over to charge their car batteries for free. Cost: included in costs noted in "Solar, Part 1"
Battery Backup (Sep 2004)
To be prepared in case of blackouts, we installed an 8-kW battery reserve system. This includes an inverter and charge controller that regulate energy flow to and from the batteries. If the utility grid goes down and we have a string of very overcast days, our batteries will give us about three days worth of conservative electric use. If the sun is shining, we have unlimited energy, of course. Cost: included in costs noted in "Solar, Part 1"
Solar, Part 3 (Oct 2004)
This month we replaced our natural gas-fired water heater with an active, closed-loop solar hot water system (see the two gray solar panels visible on the left side of the roof) and a new 220-volt electric hot-water heater. Cost: $2,500
New Heating/Cooling (Jan 2005)
The final step in making our house comfortable involved replacing the old, five-ton heating, ventilation, and air conditioning (HVAC) system with a split-ductless heat pump/HVAC system. This is a three-zone system, with small units in the den, dining room, and upstairs master bedroom. The system has an outside central operating unit and a compressor-heat exchanger that is about half the size of a typical air conditioner. Cost: $4,200
Costs & Benefits
After $18,500 in rebates and tax incentives, the total cost for all our energy-efficient improvements and our solar system, including labor, came to $43,000. We calculated that, if we had not made the retrofit, our energy bills for 2004, including fuel and oil for a gas-powered car, would have come to $6,000. With the upgrades, we have no energy costs (except for $5 a month for the one therm of natural gas we use, mostly for cooking). Thus, our entire energy makeover will pay for itself in just over seven years ($43,000/$6,000 = 7.2). And because our loan for these improvements is based on home equity, the interest payments are tax-deductible.
Since we remain connected to the utility grid, Southern California Edison's time-of-use billing program measures our overall electricity consumption and production. Rates vary depending on season and peak versus off-peak hours. With normal sunshine, we can actually see our meter "feeding the grid." Our electricity production earns us "use-it-or-lose-it" credit from the utility. In summer peak hours (10 a.m. to 6 p.m.), we can earn over 40 cents per kilowatt-hour; even during off-peak summer hours and in winter, we can earn credit. Each year, our credit amounts to between $200 and $300.
It's true that we live in warm, sunny California, which has some of the best rebates and tax incentives for going solar in the nation. But wherever you live, you can benefit from energy-efficiency and renewable-energy upgrades to your existing home and become part of the solution to global warming. See Resources for more general information. For more specifics on the Williamsons' retrofit, see this article published in Solar Today Magazine, from which our feature was drawn.
*Note: "Zero-energy" here refers to energy purchased, not energy used.
