Star Power

The Growing Role of Solar Energy in Georgia

Georgia could meet its energy needs by capturing just a sliver of the virtually limitless and pollution-free energy that strikes the state every day in the form of sunlight. With solar installation costs falling, the efficiency of solar cells rising, and the threats of air pollution and global warming ever-looming, solar power is becoming a more attractive and widespread source of energy every day.

Environment Georgia Research & Policy Center

Georgia could meet its energy needs by capturing just a sliver of the virtually limitless and pollution-free energy that strikes the state every day in the form of sunlight. With solar installation costs falling, the efficiency of solar cells rising, and the threats of air pollution and global warming ever-looming, solar power is becoming a more attractive and widespread source of energy every day.

Solar energy is on the rise across the country. The amount of solar photovoltaic (PV) capacity* in the United States has tripled in the past two years. More than half of all new U.S. electricity generating capacity came from solar installations in the first half of 2014, and the United States now has enough solar electric capacity installed to power more than 3.2 million homes. Solar energy is taking hold in Georgia, the state with the seventh-most solar electric capacity added in the year 2013.

Georgia should build on the recent growth in solar energy by setting a goal of obtaining at least 15 percent of its electricity from solar power by 2030. Achieving that goal would result in a cleaner environment, less dependence on fossil fuels, and a stronger economy.

Georgia’s solar energy potential is nearly limitless. Based on renewable energy technical potential reported by the National Renewable Energy Laboratory:

  • Georgia has the potential to produce more than 40 times as much electricity from solar power as the state consumes each year. Each of the 50 states has the potential to generate far more electricity from the sun than its residents consume. (See Figure ES-1).
  • There are 35 million residential and commercial rooftops that could host solar panels across the United States, including more than 1.2 million rooftops in Georgia.

Continued growth in solar energy in Georgia would bring a goal of 15 percent solar electricity within reach.

  • Solar PV capacity in Georgia increased at a rate of 294 percent per year from 2010 to 2013 (from 1.8 MW in 2010 to 109 MW in 2013). If solar PV installations continue to increase at 35 percent annually between 2013 and 2030, Georgia would have enough solar energy to generate 15 percent of its electricity.

Georgia could meet its energy needs by capturing just a sliver of the virtually limitless and pollution-free energy that strikes the state every day in the form of sunlight. With solar installation costs falling, the efficiency of solar cells rising, and the threats of air pollution and global warming ever-looming, solar power is becoming a more attractive and widespread source of energy every day.

Solar energy is on the rise across the country. The amount of solar photovoltaic (PV) capacity* in the United States has tripled in the past two years. More than half of all new U.S. electricity generating capacity came from solar installations in the first half of 2014, and the United States now has enough solar electric capacity installed to power more than 3.2 million homes. Solar energy is taking hold in Georgia, the state with the seventh-most solar electric capacity added in the year 2013.

Georgia should build on the recent growth in solar energy by setting a goal of obtaining at least 15 percent of its electricity from solar power by 2030. Achieving that goal would result in a cleaner environment, less dependence on fossil fuels, and a stronger economy.

Georgia’s solar energy potential is nearly limitless. Based on renewable energy technical potential reported by the National Renewable Energy Laboratory:

  • Georgia has the potential to produce more than 40 times as much electricity from solar power as the state consumes each year. Each of the 50 states has the potential to generate far more electricity from the sun than its residents consume. (See Figure ES-1).
  • There are 35 million residential and commercial rooftops that could host solar panels across the United States, including more than 1.2 million rooftops in Georgia.

Continued growth in solar energy in Georgia would bring a goal of 15 percent solar electricity within reach.

  • Solar PV capacity in Georgia increased at a rate of 294 percent per year from 2010 to 2013 (from 1.8 MW in 2010 to 109 MW in 2013). If solar PV installations continue to increase at 35 percent annually between 2013 and 2030, Georgia would have enough solar energy to generate 15 percent of its electricity.

Getting at least 15 percent of Georgia’s electricity from the sun by 2030 would represent a major step toward stabilizing the climate, cleaning our air and building a prosperous, sustainable economy.

  • Producing 15 percent of its electricity from clean, solar power would reduce Georgia’s global warming pollution by 17 million metric tons in 2030 – the equivalent of taking 3.5 million cars off the road. Solar energy at that scale would help Georgia comply with the goals of the Clean Power Plan – the Environmental Protection Agency’s (EPA’s) proposed plan to reduce U.S. global warming pollution from the power sector by 30 percent below 2005 levels by 2030. If the EPA decides that distributed generation can help states achieve their goals under the Clean Power Plan, producing 15 percent of Georgia’s electricity from clean, solar power would enable the state to achieve more than half of its 2030 emission reduction goal.
  • Expanding solar energy will also reduce emissions of pollutants that contribute to the formation of smog and soot and threaten public health, especially the health of vulnerable populations like children, the elderly and those with respiratory disease.
  • Obtaining 15 percent of Georgia’s electricity from solar energy would reduce water consumption from power plants dramatically. Using a life-cycle assessment, solar photovoltaics consume 1/500th of the water consumed by coal power plants and 1/80th of the water consumed by natural gas plants per unit of electricity produced.
  • Solar energy creates local clean energy jobs that can’t be outsourced. Growth in the solar industry from November 2012 to November 2013 was 10 times faster than the national average for employment; 2,600 Georgians worked in the solar energy industry in 2013.

A future in which Georgia gets 15 percent of its electricity from the sun is achievable and will help America generate at least 10 percent of its electricity from solar power by 2030. The tools to build this vision are available and the momentum exists – now federal, state and local governments should adopt aggressive goals for solar integration and implement policies that encourage the adoption of solar power.

To achieve Georgia’s full solar potential:

  • Georgia’s state government should commit to obtain at least 15 percent of its electricity from solar power by 2030 and adopt policies to achieve that goal. Georgia should also clearly allow third-party sales of solar power to provide access to successful solar leasing programs, improve net metering and interconnection standards, promote community solar and virtual net metering that can deliver the benefits of solar power to low income communities, and support smart investments to move toward a more intelligent electric grid in which distributed sources of energy such as solar power play a larger role. The state should utilize solar energy wherever possible on public buildings and properties. Georgia should adopt a strategy for complying with the Clean Power Plan, and solar power should play a significant role in Georgia’s plans to meet or exceed the emission reduction targets.
  • The federal government should commit to a baseline goal of obtaining at least 10 percent of the nation’s electricity from solar energy by 2030. The federal government should utilize solar energy on government buildings and also continue successful solar policies, including federal incentives, programs to responsibly site solar energy on public lands, and research, development and deployment efforts designed to help local and state governments reduce the cost of solar energy and smooth the incorporation of large amounts of solar energy into the electric grid. It should consider adopting a baseline standard for net metering. In addition, the federal government should strengthen and finalize the Clean Power Plan and ensure that distributed electricity resources such as rooftop solar panels can be used as a tool for compliance.
  • Local governments should adopt strong solar goals, utilize solar energy wherever possible on public buildings and properties, ensure that homeowners and businesses can “go solar” easily and with a minimum amount of red tape, implement financing programs, such as property-assessed clean energy (PACE) financing, and adopt bulk purchasing programs for solar installations. Local governments should also establish zoning and building codes that facilitate the use of solar energy. Municipally owned utilities should promote solar energy by providing net metering or other rate structures to compensate solar homeowners fairly, and by making investments in community-scale and utility-scale solar projects.

Getting at least 15 percent of Georgia’s electricity from the sun by 2030 would represent a major step toward stabilizing the climate, cleaning our air and building a prosperous, sustainable economy.

  • Producing 15 percent of its electricity from clean, solar power would reduce Georgia’s global warming pollution by 17 million metric tons in 2030 – the equivalent of taking 3.5 million cars off the road. Solar energy at that scale would help Georgia comply with the goals of the Clean Power Plan – the Environmental Protection Agency’s (EPA’s) proposed plan to reduce U.S. global warming pollution from the power sector by 30 percent below 2005 levels by 2030. If the EPA decides that distributed generation can help states achieve their goals under the Clean Power Plan, producing 15 percent of Georgia’s electricity from clean, solar power would enable the state to achieve more than half of its 2030 emission reduction goal.
  • Expanding solar energy will also reduce emissions of pollutants that contribute to the formation of smog and soot and threaten public health, especially the health of vulnerable populations like children, the elderly and those with respiratory disease.
  • Obtaining 15 percent of Georgia’s electricity from solar energy would reduce water consumption from power plants dramatically. Using a life-cycle assessment, solar photovoltaics consume 1/500th of the water consumed by coal power plants and 1/80th of the water consumed by natural gas plants per unit of electricity produced.
  • Solar energy creates local clean energy jobs that can’t be outsourced. Growth in the solar industry from November 2012 to November 2013 was 10 times faster than the national average for employment; 2,600 Georgians worked in the solar energy industry in 2013.

A future in which Georgia gets 15 percent of its electricity from the sun is achievable and will help America generate at least 10 percent of its electricity from solar power by 2030. The tools to build this vision are available and the momentum exists – now federal, state and local governments should adopt aggressive goals for solar integration and implement policies that encourage the adoption of solar power.

To achieve Georgia’s full solar potential:

  • Georgia’s state government should commit to obtain at least 15 percent of its electricity from solar power by 2030 and adopt policies to achieve that goal. Georgia should also clearly allow third-party sales of solar power to provide access to successful solar leasing programs, improve net metering and interconnection standards, promote community solar and virtual net metering that can deliver the benefits of solar power to low income communities, and support smart investments to move toward a more intelligent electric grid in which distributed sources of energy such as solar power play a larger role. The state should utilize solar energy wherever possible on public buildings and properties. Georgia should adopt a strategy for complying with the Clean Power Plan, and solar power should play a significant role in Georgia’s plans to meet or exceed the emission reduction targets.
  • The federal government should commit to a baseline goal of obtaining at least 10 percent of the nation’s electricity from solar energy by 2030. The federal government should utilize solar energy on government buildings and also continue successful solar policies, including federal incentives, programs to responsibly site solar energy on public lands, and research, development and deployment efforts designed to help local and state governments reduce the cost of solar energy and smooth the incorporation of large amounts of solar energy into the electric grid. It should consider adopting a baseline standard for net metering. In addition, the federal government should strengthen and finalize the Clean Power Plan and ensure that distributed electricity resources such as rooftop solar panels can be used as a tool for compliance.
  • Local governments should adopt strong solar goals, utilize solar energy wherever possible on public buildings and properties, ensure that homeowners and businesses can “go solar” easily and with a minimum amount of red tape, implement financing programs, such as property-assessed clean energy (PACE) financing, and adopt bulk purchasing programs for solar installations. Local governments should also establish zoning and building codes that facilitate the use of solar energy. Municipally owned utilities should promote solar energy by providing net metering or other rate structures to compensate solar homeowners fairly, and by making investments in community-scale and utility-scale solar projects.

* In this report, “solar photovoltaic (PV) capacity” or “solar PV” refers to installed solar photovoltaic systems, both distributed and utility-scale. “Solar electricity capacity” refers to all solar technologies that generate electricity, including concentrating solar power systems that use the sun’s heat – rather than its light – to generate electricity. The figures in this report do not include other solar energy technologies, such as solar water heating.

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