What is renewable energy?
Unlike fossil fuels, which are finite, renewable energy sources regenerate.
There are five commonly used renewable energy sources:
What role does renewable energy play in the United States?
Up until the mid-1800s, wood supplied nearly all of of the nation's energy needs. As more consumers began using coal, petroleum, and natural gas, the United States relied less on wood as an energy source. Today, the use of renewable energy sources is increasing, especially biofuels, solar, and wind.
In 2016, about 10% of total U.S. energy consumption was from renewable energy sources (or about 10.2 quadrillion British thermal units (Btu)—1 quadrillion is the number 1 followed by 15 zeros). About 55% of U.S. renewable energy use is by the electric power sector for producing electricity, and about 15% of U.S. electricity generation was from renewable energy sources in 2016.
Renewable energy plays an important role in reducing greenhouse gas emissions. When renewable energy sources are used, the demand for fossil fuels is reduced. Unlike fossil fuels, non-biomass renewable sources of energy (hydropower, geothermal, wind, and solar) do not directly emit greenhouse gases.
The consumption of biofuels and other nonhydroelectric renewable energy sources more than doubled from 2000 to 2016, mainly because of state and federal government mandates and incentives for renewable energy. The U.S. Energy Information Administration (EIA) projects that the use of renewable energy in the United States will continue to grow through 2040.
Why don't we use more renewable energy?
In general, renewable energy is more expensive to produce and to use than fossil fuel energy. Favorable renewable resources are often located in remote areas, and it can be expensive to build power lines from the renewable energy sources to the cities that need the electricity. In addition, renewable sources are not always available:
- Clouds reduce electricity from solar power plants.
- Days with low wind reduce electricity from wind farms.
- Droughts reduce the water available for hydropower.
Last updated: June 1, 2017
Wood is our second-largest source of renewable energy
A wind farm
What are the different types of renewable energy?
Biomass energy—Biomass energy is produced from nonfossilized plant materials. Wood and wood waste are the largest sources of biomass energy, followed by biofuels and municipal solid waste.
Wood—Wood biomass includes wood pellets; wood chips from forestry operations; residues from lumber, pulp/paper, and furniture mills; and fuel wood for space heating. The largest single source of wood energy is black liquor, a residue of pulp, paper, and paperboard production.
- Biofuels—Biofuels include ethanol and biodiesel. Most of the fuel ethanol used in the United States is produced from corn. Biodiesel is made from grain oils and animal fats.
- Municipal solid waste and biogas—Municipal solid waste (MSW), or garbage, contains biomass (or biogenic) materials such as paper, cardboard, food scraps, grass clippings, leaves, wood, leather products, and nonbiomass combustible materials (mainly plastics and other synthetic materials made from petroleum). MSW is burned in waste-to-energy plants to generate electricity. Many landfills in the United States collect and burn biogas to produce electricity.
Hydropower—Hydropower is electricity produced from flowing water. Most hydropower produced in the United States is from large facilities built by the federal government, such as the Grand Coulee Dam on the Columbia River in Washington state—the largest single U.S. electric power facility. There are two general types of hydropower:
- Conventional hydropower uses water in dams or flowing in streams and rivers to spin a turbine and generate electricity.
- Pumped storage systems generate electricity by moving water between two reservoirs at different elevations.
Geothermal energy—Geothermal energy is energy from the hot interior of the earth. Fissures in the earth's crust allow water, heated by geothermal energy, to rise naturally to the surface at hot springs and geysers. Wells drilled into the earth allow a controlled release of steam or water to the surface to power steam turbines to generate electricity.
Wind energy—Wind turbines use blades to collect the wind's kinetic energy. Wind flows over the blades creating lift, which causes the blades to turn. The blades are connected to a drive shaft that turns an electric generator, which produces electricity.
Solar energy—Solar energy systems use radiation from the sun to produce heat and electricity. There are three basic categories of solar energy systems:
Solar thermal systems use solar collectors to absorb solar radiation to heat water or air for space heating and water heating.
- Solar thermal power plants use concentrating solar collectors to focus the sun's rays to heat a fluid to a high temperature. This fluid generates steam to power a turbine and a generator.
Photovoltaic (PV) systems use solar electric cells that convert solar radiation directly into electricity. Individual PV cells are configured into modules of varying electricity producing capacities. PV systems range from single PV cells for powering calculators to large power plants with hundreds of modules to generate large amounts of electricity.
Last updated: November 2, 2016
Renewable energy requirements and incentives
Federal, state, and local governments and electric utilities encourage investing in and using renewable energy, and in some cases, require it. Many programs and incentives are currently available. The Database of State Incentives for Renewable Energy and Efficiency (DSIRE) is a comprehensive source for information about the types and status of government and utility requirements and incentives for renewable energy.
Government financial incentives
Several federal government tax credits, grants, and loan programs are available for qualifying renewable energy technologies and projects. The federal tax credits include the Renewable Energy Production Tax Credit (PTC), the Business Energy Investment Tax Credit (ITC), and the personal income tax credit. Grant and loan programs are available from several government agencies, including the U.S. Department of Agriculture, the U.S. Department of Energy (DOE), and the U.S. Department of the Interior. Every state has some type of financial incentive to support or subsidize the installation of renewable energy equipment.
Renewable portfolio standards (RPS) and state mandates or goals
A renewable portfolio standard (RPS) typically requires that a percentage of electric power sales in a state comes from renewable energy sources. Some states have specific mandates for power generation from renewable energy, while others have voluntary goals. Compliance with RPS policies will sometimes require or allow trading of Renewable Energy Certificates.
Renewable Energy Certificates (RECs)
RECs, also known as green certificates, green tags, or tradable renewable certificates, are financial products that are available for sale, purchase, or trade. These financial products allow the purchaser to pay for renewable generation without physically or contractually delivering electricity generated from qualifying energy sources..
Net metering allows electric utility customers to install qualifying renewable energy systems on their propertiesand to connect the systems to an electric utility's distribution system (or grid). The programs vary, but in general, electric utilities bill their net metering customers for the net amount of electricity the customers use. The net amount is the customer's total electricity consumption minus the amount of electricity that the customer's renewable system generates. In some states, customers can sell excess electricity that they generate with their systems to the utility. As of July 2016, 41 states and the District of Columbia have net metering programs that apply to all or certain types of electric utilities.
Feed-in tariffs (FITs)
Several states and individual electric utilities in the United States have established special rates for purchasing electricity from certain types of renewable energy systems. These rates, sometimes known as feed-in tariffs (FITs), are generally higher than retail electricity rates to encourage new projects of specific types of renewable energy technologies.
Green power purchasing
Consumers in nearly every state can purchase green power, which represents electricity generated from specific types of renewable energy resources. Most of these voluntray programs generally involve the physical or contractual delivery of the electricity generation resource to the customer or utility.
A biodiesel fuel pump
Ethanol and other renewable motor fuels
Several federal and state requirements and incentives for the production, sale, and use of ethanol, biodiesel, and other fuels made from biomass are in effect. The federal Energy Independence and Security Act of 2007 requires that 36 billion gallons of biofuels be used in the United States per year by 2022. Several states have their own renewable fuel standards or requirements. Other federal programs provide financial support and incentives for ethanol and other biofuels producers. Many states have their own programs that support or promote the use of biofuels. The DOE's Alternative Fuel Data Center is a source of information on these types of programs.
Renewables research and development
The DOE and other federal government agencies, fund research and development of renewable energy technologies. Most of the research and development is carried out at the National Labs and in cooperation with academic institutions and private companies. The availability of these programs depends on annual appropriations from the United States Congress.
Last updated: November 28, 2016
What are renewable portfolio standards?
Did you know?
As of June 2016, 29 states and the District of Columbia had enforceable renewable portfolio standards (RPS) or other mandated renewable energy policies, and 8 states had voluntary goals for renewable energy generation.
Renewable portfolio standards (RPS), also referred to as renewable electricity standards (RES), are policies designed to increase generation of electricity from renewable resources. These policies require or encourage electricity suppliers to provide a specific minimum share of their electricity from eligible renewable resources. Although national RPS or other clean energy policies have been proposed, no federal RPS or similar policy is currently in place. However, most states have enacted RPS programs.
How have RPS programs been implemented?
State RPS programs vary widely in terms of program structure, enforcement mechanisms, size, and application. No two state programs are exactly the same.
A wide range of policies fall under the RPS umbrella. In general, RPS set a minimum requirement for the share of electricity supply from designated renewable energy resources by a certain date or year. Generally, these resources include wind, solar, geothermal, biomass, and some types of hydroelectricity, but may also include other resources such as landfill gas, municipal solid waste, and ocean energy. Some programs also give credits for various types of renewable space heating and water heating, fuel cells, energy efficiency measures, and advanced fossil-fueled technologies.
Some states set targets for specific types of renewable energy sources or technologies to encourage the development and use of those resources. Some states focus the RPS requirement on large investor-owned utilities, while others apply the standards to all utilities. Details on state RPS programs are available in the Database of State Incentives for Renewables & Efficiency.
A common feature of RPS policies is a renewable electricity credit (REC) trading system that reduces the cost to comply with the RPS. A utility that generates more renewable electricity than the RPS requirement may either trade or sell RECs to other electricity suppliers who may not have enough RPS-eligible electricity to meet their RPS requirement. Some states make a certain number of credits available for sale. In general, only one entity—the generator or the REC holder—may take credit for the renewable attribute of generation from RPS-eligible sources. In addition to the cost control mechanism of a REC, many RPS programs have escape clauses if renewable generation exceeds a specified cost threshold.
Does an RPS program increase levels of electricity generation from eligible renewable resources?
States with and without RPS policies have seen increases in the amount of electricity generation from renewable resources. A combination of federal incentives and market conditions, as well as state RPS policies and other programs, have driven increases in renewable electricity generation.
At present, most states with RPS are meeting or exceeding their RPS requirements with renewable generation from qualifying RPS generation sources or purchases of RECs. A number of factors helped create an environment favorable for RPS compliance:
- A surge of new RPS-qualified generation capacity that takes advantage of federal incentives
- Reductions in the cost of wind, solar, and other renewable technologies
- The U.S. Environmental Protection Agency's finalized mandatory carbon dioxide reduction program (the Clean Power Plan)
- Complementary state and local policies that either reduce costs (for example, equipment rebates) or increase revenue streams (for example, net metering) associated with RPS-eligible technologies
The RPS requirements for various mandatory state programs, as modeled for the Annual Energy Outlook 2016 Reference case, is shown in Figure LR6-1 at right, along with the projection for total U.S. renewable generation. In 2025, the RPS targets account for 40% of total renewable generation and about 10% of U.S. electricity sales. Although some regions may produce excess RPS qualifying generation, others may produce just enough to meet the requirement or may need to import electricity from adjoining regions to meet state targets.
Last updated: November 22, 2016