Why Go Solar?

1 kW array: Produces 15% of average monthly electricity needs, or 97.5 kWh—enough electricity to meet all the lighting needs of your home.   2 kW array: Produces 30% of average monthly electricity needs, or 195 kWh—enough electricity to power all your lights and a refrigerator.   3 kW array: Produces 45% of average monthly electricity needs, or 292.5 kWh—enough electricity to power all your lights, a refrigerator, and a clothes dryer.   4 kW array: Produces 60% of your average monthly electricity needs, or 390 kWh—enough electricity to power all your lights, a refrigerator, a clothes dryer, a microwave oven, a regular oven, a stereo, and a plasma TV.

It's Powerful

The average homeowner in Massachusetts consumes 550 kWh of electricity every month. Based on this average, the chart on the right shows how much electricity a PV system will produce based on size and what that means in concrete terms. (A 1 kW array means that it produces 1 kW of electricity every hour when operating at peak capacity, e.g., in full sun. A rule-of-thumb is that 100 square feet of unobstructed roof area is required for a 1,000 watt [1 kW] system or "array.") Residential PV systems are generally sized between 2 and 5 kW.

In Massachusetts, 1kW of PV at the optimal orientation and tilt for maximum annual production will produce 1,000 to 1,300 kilowatt-hours of electricity per year.

It's Feasible

As long as you have a roof over your head, you can probably utilize photovoltaic technology directly. PV systems lower your monthly electricity bills and make you less susceptible to rising oil, coal, and natural gas prices. Government subsidies such as tax breaks and rebates also lessen the installation costs, and PV systems have a life span of 25 years and require little maintenance.

It's Effective

Switching to clean energy makes a huge difference for the environment. A single 1 kW array on somebody's roof produces enough clean energy over the course of a year to prevent 1,200 pounds of carbon dioxide from being released into the atmosphere. If pounds of carbon dioxide don't mean much to you, consider the energy savings in terms of gasoline. That's the amount of carbon dioxide released in driving 1,200 miles in an average car, or from Massachusetts to Florida.

* Based on statistics from the U.S. Departments of Energy and Transportation