The two most commonly used types of solar energy technology in the Midwest are photovoltaic (PV) panels and solar thermal collectors. PV panels contain a semiconductor material (typically silicon-based) which converts sunlight into direct-current (DC) electricity. An on-site inverter converts the DC power to 120-volt AC power, which can then be connected to a home or building’s power supply or directly to the electricity grid. Solar thermal collectors absorb the sun’s thermal energy and use it to heat water or other fluids, which can be used for hot water or circulated through a home or building for space heating.
Solar energy creates electricity and heat and avoids pollution from conventional coal plants and nuclear plants. Using national average emission factors, every megawatt-hour of electricity generated through a solar PV panel avoids more than 1,300 lbs of carbon dioxide (CO2), more than 5 lbs of sulfur dioxide (SO2), and almost 2 lbs of nitrogen oxide (NOx), and it also avoids producing radioactive nuclear wastes.
Solar energy production is highest on hot, sunny days when air conditioners are running and electricity demand peaks. By providing energy during peak demand times, solar provides a clean alternative to ‘peaking plants,’ that are often the dirtiest and least efficient coal and oil plants.
Solar energy can work just about anywhere. Most of the United States, has a better solar resource – i.e., receives more solar radiation – than Germany, which is the world’s largest solar market. Smart policies and proper system design are the two most important factors for determining whether a solar installation will make economic sense.
Moreover, solar energy is available when the power is needed most in the energy market – at peak demand times on hot summer days.
The first question should always be whether your building is energy efficient. Energy efficiency upgrades should always precede or accompany solar investments.
Next, do a solar spot check on your own. Is your roof shaded by trees or other buildings? If your roof is sloped, is there a south-facing slope? If there is an uninterrupted southern exposure, your home or building may be ideal for solar PV and/or solar hot water. Even if you have some shading, solar hot water may still work well because solar thermal collectors absorb diffuse, rather than direct, solar radiation.
If your building passes the spot check, then take your investigation to the next level by visiting the National Renewable Energy Laboratory’s In My Backyard Solar Mapping Tool atwww.nrel.gov/eis/imby to determine your building’s potential system size and estimated production. Visit www.dsireusa.org for an up-to-date, detailed description of incentives available by state, and browse a list of solar installers in your area at www.nabcep.org/installer-locator or www.findsolar.com.
In 2009, the American Recovery and Reinvestment Act authorized an extension of the residential and commercial investment tax credits (ITC) for renewable energy installations. Taxpayers can claim a credit of 30% of the installed costs of renewable energy systems. Through the end of 2010, businesses can elect to take the 30% ITC as a grant, payable by the U.S. Treasury Department. Businesses can also take advantage of the Modified Accelerated Cost Recovery System (MACRS) provisions in the U.S. tax code which authorizes owners to depreciate solar electric and solar thermal systems on a five-year schedule.
Many states and utilities also offer incentives that can be taken in conjunction with federal incentives. There is an up-to-date database of available incentives and solar-friendly policies, searchable by state, at www.dsireusa.org.
Two policy mechanisms create income for solar system owners.
- Net metering generates income in the form of a credit for the value of the electricity that a customer-sited solar system sends to the electric grid. The credit is applied to reduce and offset the customer’s electricity bill.
- Solar Renewable Energy Credits (SRECs) have different forms in different states, but most involve monetizing the value of the solar attribute of the electricity produced from a solar system. Many states have adopted Renewable Portfolio Standards that require a portion of the state’s electricity mix to come from renewable energy sources. Some states (including Illinois and Michigan) have further required that a certain percentage of the overall renewable energy purchases must come from solar energy. This creates a value for solar power above and beyond the value of the kilowatts alone, and it can be monetized in the form of a payment stream to solar system owners. Search for the programs that create income from SRECs in your state at www.dsireusa.org.