Solar power in the United States explained

Solar power includes solar farms as well as local distributed generation, mostly on rooftops and increasingly from community solar arrays. In 2023, utility-scale solar power generated 164.5 terawatt-hours (TWh), or 3.9% of electricity in the United States. Total solar generation that year, including estimated small-scale photovoltaic generation, was 238 TWh.[1]

As of the end of 2023, the United States had 179 gigawatts (GW) of installed photovoltaic (utility and small scale) and concentrated solar power capacity combined.[2] This capacity is exceeded only by China and the European Union.[3] In 2021, 36% of all new electricity generation capacity in the country came from solar, surpassed only by wind with 41%.[4] By 2015, solar employment had overtaken oil and gas as well as coal employment in the United States.[5] In 2020, more than 230,000 Americans were employed in the solar industry.[2]

The United States conducted much early research in photovoltaics and concentrated solar power. It is among the top countries in the world in electricity generated by the sun and several of the world's largest utility-scale installations are located in the desert Southwest. The oldest solar power plant in the world is the 354-megawatt (MW) Solar Energy Generating Systems thermal power plant in California.[6] The Ivanpah Solar Electric Generating System is a solar thermal power project in the Mojave Desert, 40 miles (64 km) southwest of Las Vegas, with a gross capacity of 392 MW.[7] The 280 MW Solana Generating Station is a solar power plant near Gila Bend, Arizona, about southwest of Phoenix, completed in 2013. When commissioned it was the largest parabolic trough plant in the world and the first U.S. solar plant with molten salt thermal energy storage.[8]

There are plans to build many other large solar plants in the United States. Many states have set individual renewable energy goals with solar power being included in various proportions. Hawaii plans 100% renewable-sourced electricity by 2045.[9] Governor Jerry Brown has signed legislation requiring California's utilities to obtain 100 percent of their electricity from zero-carbon sources by the end of 2045 (including 60% renewable energy sources by 2030).[10] [11]

Solar potential

A 2012 report from the National Renewable Energy Laboratory (NREL) described technically available renewable energy resources for each state and estimated that urban utility-scale photovoltaics could supply 2,232 TWh/year, rural utility-scale PV 280,613 TWh/year, rooftop PV 818 TWh/year, and CSP 116,146 TWh/year, for a total of almost 400,000 TWh/year, 100 times the consumption of 3,856 TWh in 2011.[12] [13] For comparison, onshore wind potential is estimated at 32,784 TWh/year, and offshore wind at 16,976 TWh/year, while the total available from all renewable resources is estimated at 481,963 TWh/year.[14]

Renewable energy is the least expensive source of power generation,[15] even considering the upfront cost of installation. Therefore, the economics of the renewable energy transition are highly favorable unlike in prior decades. Solar is second only to onshore wind turbines in levelized cost of electricity competitiveness.[16] Replacing historical sources of fossil energy (coal, oil, and natural gas) with solar and wind results in lower operating costs for utility providers and lower energy costs for consumers.[17] This does not include the significant additional health and mortality burden to society from fossil fuel use that makes it even more expensive than it appears.[18]

History

Solar energy deployment increased at a record pace in the United States and throughout the world in 2008, according to industry reports. The Solar Energy Industries Association's "2008 U.S. Solar Industry Year in Review" found that U.S. solar energy capacity increased by 17% in 2007, reaching the total equivalent of 8,775 megawatts (MW). The SEIA report tallies all types of solar energy, and in 2007 the United States installed 342 MW of solar photovoltaic (PV) electric power, 139 thermal megawatts (MWth) of solar water heating, 762 MWth of pool heating, and 21 MWth of solar space heating and cooling.[19]

Another report in 2008 by research and publishing firm Clean Edge and the nonprofit Co-op America found that solar power's contribution could grow to 10% of the nation's power needs by 2025, with nearly 2% of the nation's electricity coming from concentrating solar power systems, while solar photovoltaic systems would provide more than 8% of the nation's electricity.Those figures correlate to nearly 50,000 megawatts of solar photovoltaic systems and more than 6,600 megawatts of concentrating solar power.[20]

The report noted that the cost per kilowatt-hour of solar photovoltaic systems had been dropping, while electricity generated from fossil fuels was becoming more expensive.As a result, the report projects that solar power was expected to reach cost parity with conventional power sources in many U.S. markets by 2015.To reach the 10% goal, solar photovoltaic companies would need to make solar power a "plug-and-play technology", or simplify the deployment of solar systems.[20] The report also underlines the importance of future "smart grid" technologies.[20]

Solar Energy Industries Association and GTM Research found that the amount of new solar electric capacity increased in 2012 by 76 percent from 2011, raising the United States’ market share of the world's installations above 10 percent, up from roughly 5 to 7 percent in the past seven years.[21] According to the U.S. Energy Information Administration, as of September 2014 utility-scale solar had sent 12,303 gigawatt-hours of electricity to the U.S. grid. This was an increase of over 100% versus the same period in 2013 (6,048 GWh).[22] The number of homes with solar systems installed had been increasing rapidly, from 30,000 in 2006 to 1.3 million in 2016.[23] A 2014 study by the U.S. Department of Energy predicted the figure could reach 3.8 million homes by 2020.[24]

In 2015 an article reported that utilities in the United States have led a largely unsuccessful campaign to slow the growth of solar.[25]

Solar photovoltaic power

Solar PV installed capacity

Solar PV capacity in the United States by year
Year Total (MWp) YOY growth Installed capacity (MWp)
20102,094 849
20114,039 1,941
20127,416 3,374
201312,220 4,766
201418,464 6,245
201525,944 7,509
201641,176 15,104
201752,284 11,080
201863,015 10,733
201976,552 13,512
202096,458 19,849
2021120,503 23,565
2022140,005 19,502
2023179,00028%38,995

In the United States, 14,626 MW of PV was installed in 2016, a 95% increase over 2015 (7,493 MW).During 2016, 22 states added at least 100 MW of capacity.[34] Just 4,751 MW of PV installations were completed in 2013. The U.S. had approximately 440 MW of off-grid photovoltaics as of the end of 2010. Through the end of 2005, a majority of photovoltaics in the United States was off-grid.[35]

Solar is expected to account for 51 GW (or 48%) of the new installed generating capacity in the United States from 2022 to 2023.[36]

Solar PV generation

The amount of electricity a unit is capable of producing over an extended period of time is determined by multiplying the capacity by the capacity factor.The capacity factor for solar photovoltaic units is largely a function of climate and latitude and so varies significantly from state to state.The National Renewable Energy Laboratory has calculated that the highest statewide average solar voltaic capacity factors are in Arizona, New Mexico, and Nevada (each 26.3 percent), and the lowest is Alaska (10.5 percent). The lowest statewide average capacity factor in the contiguous 48 states is in West Virginia (17.2 percent).[37]

Solar power by type

Solar generation (utility-scale and estimated small-scale PV + thermal) in the United States in 2021[38] !! Summer capacity
(GW)! Electricity generation
(GWh)! Yearly growth of
produced energy! Capacity factor
PV (utility-scale) 59,535 111,755 24.6%
PV (small-scale) 32,972 49,025 17%
Thermal 1,631 2,924 20.5%

The table above gives an indication of the spread of solar power between the different types at the end of 2021. Capacity figures may seem smaller than those quoted by other sources and it is likely that the capacities are measured in MW AC rather than MW DC, the former of which gives a lower reading due to conversion losses during the process by which power is transformed by inverters from direct current to alternating current.

Large-scale PV facilities

See main article: List of photovoltaic power stations.

Large-scale photovoltaic power plants in the United States often consist of two or more units which correspond to construction stages and/or technology-improvement phases of a particular development project. Typically these units are co-located in the vicinity of the same high-capacity transmission substation, and may also feed that substation with other large PV plants which are adjacently sited but separately developed.

An objector at non-profit “Basin and Range Watch” to the Riverside East Solar Energy Zone in the California desert said in 2023 that ‘solar plants create myriad environmental problems, including habitat destruction and “lethal death traps” for birds, which dive at the panels, mistaking them for water ... one project bulldozed 600 acres of designated critical habitat for the endangered desert tortoise, while populations of Mojave fringe-toed lizards and bighorn sheep have also been afflicted.’ The same article included many other examples of how the same solar project had hurt the desert flora and fauna, according to environmentalists.[39]

Largest solar plants in the US!Name!State!Location!Capacity

(MWdc unless stated)!Owner!Year!Notes

Copper Mountain Solar FacilityNevada802 (ac)Sempra Generation SolarFive phases
Gemini Solar ProjectNevada2024690 MWAC, with 380 MW of batteries[40] [41] [42]
Edwards Sanborn Solar and Energy Storage ProjectCalifornia86420233,320 MWh battery storage[43] [44]
Lumina I and II Solar ProjectTexas8282024640 MWac[45]
Mount Signal SolarCalifornia7942020Phase 1 of 206 MWAC in May 2014. Phase 3 of 254 MWAC in July 2018. Phase 2 of 154 MWAC completed in January 2020. Total 614 MWAC[46] [47] [48] [49] December 7, 2018
Solar star I & IICalifornia34.8164°N -118.4023°W

34.8489°N -118.3529°W

7472015579 MWAC, was world's largest when completed.[50] [51] [52]
Prospero Solar I and IITexas7102021550 MWAC[53]
Westlands Solar ParkCalifornia672 (ac)2023Solar park, up to 2000 MWAC when completed[54]
Frye Solar Power PlantTexas6372024500 MWac[55]
Roseland SolarTexas6402023500 MWac[56]
Atkina Solar Power PlantTexas6312024500 MWac[57]
Spotsylvania Solar Energy ProjectVirginia6172021[58]
Taygete SolarTexas6022023459 MWac, built in two phases - Taygete I of 255 MWac and Taygete II of 204 MWac
Desert Sunlight Solar FarmCalifornia33.8258°N -115.4022°W (ac)2015Phase I of 300 MWAC completed 2013. Phase II to final capacity completed January 2015.[59] [60] [61] [62]
TopazCalifornia35.3833°N -120.0667°W585.92014550 MWac[63] [64] [65] [66]
Mesquite Solar projectArizona33.3333°N -167°W (ac)2016Up to 700 MWAC when complete. Fifth phase completed in January 2024[67]
Oberon Solar ProjectCalifornia5002023250 MW battery storage[68]
Roadrunner Solar ProjectTexas2019[69]
Daggett SolarCalifornia4822023280 MW of energy storage[70]
McCoy/Blythe Mesa Solar Power ProjectCalifornia33.7167°N -114.75°W485[71] NextEra Energy[72]
Mammoth SolarIndiana4802024First of three phases to total 1,600 MW.[73] [74]
Permian Energy CenterTexas (ac)2019[75]
Red-Tailed HawkTexas4582024[76]
Texas Solar NovaTexas4522024[77]

Distributed generation

Within the cumulative PV capacity in the United States, there has been growth in the distributed generation segment, which are all grid-connected PV installations in the residential and non-residential markets. Non-residential market includes installations on commercial, government, school and non-profit organization properties.

Between 2000 and 2013 there was 2,261 MW of residential solar and 4,051 MW non-residential solar installed.[78] After years of cost reduction, the average US price per watt was between $2.51 to $3.31 in 2020 for 10 kW systems,[79] and $1.05/W for utility systems.[80]

Another type of distributed generation implemented by a utility company was the world's first grid-connected pole-attached solar panels of Public Service Enterprise Group in New Jersey. More than 174,000 PV panels are mounted on utility poles along streets of New Jersey with aggregated capacity of 40 MW.[81] [82]

, there were nearly 5,500 schools in the United States that had solar installations with the total capacity of approximately 910 MW. The top five states were Nevada, California, Hawaii, Arizona, and New Jersey with 23.10%, 14.50%, 14.50%, 14.10% and 13.00% of the schools in the respective states that had installations.[83], there were total capacity of 2,562 MW of commercial solar installations from more than 4,000 companies in 7,400 locations. Top five corporations were Target, Walmart, Prologis, Apple, and Kohl's.[84]

In the United States 18% solar adopters in 2018 earned below the national median household income,[85] while 30% were below the median for owner-occupied households.[86] However, as prices have rapidly dropped over the last 10 years, and business models have evolved to avoid upfront costs or high credit scores, rooftop solar is trending towards reaching more and more families of all incomes.

For households that cannot access solar on their own roofs, community solar is an option. Community solar allows customers to sign up for access to a shared solar array and receive bill credits on their monthly utility bill.[87] Community solar is available in about one third of the states, including MN, NJ, CA, NY, MA and CO.[88]

Solar cell manufacturing

The American Recovery and Reinvestment Act of 2009 created a large investment into clean energy with the purpose of developing an increase of green jobs.[89] Thin-film photovoltaics (CdTe and CIGS) were chosen because they can be less expensive to manufacture than crystalline silicon-based solar cells.[89]

In late September 2008, Sanyo Electric Company, Ltd. announced its decision to build a manufacturing plant for solar ingots and wafers (the building blocks for silicon solar cells) in Salem, Oregon. The plant was scheduled to begin operating in October 2009 and scheduled to reach its full production capacity of 70 megawatts (MW) of solar wafers per year by April 2010. In April 2013 the plant closed its wafer slicing operation. In February 2016 the parent company, Panasonic, announced it would lay off 37% of the remaining workforce.[90]

In early October 2008, First Solar, Inc. broke ground on an expansion of its Perrysburg, Ohio, planned to add enough capacity to produce another 57 MW per year of solar modules at the facility, bringing its total capacity to roughly 192 MW per year. In November 2016 the company reduced the workforce in the Perrysburg plant by 20% as part of a worldwide restructuring.[91] In mid-October 2008, SolarWorld AG opened a manufacturing plant in Hillsboro, Oregon. In 2016 the Hillsboro plant was the largest photovoltaic technology manufacturing plant in the Western Hemisphere. It maintains 500 megawatts of cell-manufacturing capacity and 350 MW of module-assembly capacity annually.[92]

Rapidly decreasing photovoltaic prices put General Electric's planned factory in Colorado on hold,[93] and led to the bankruptcy of Konarka Technologies, which had expected to produce 1,000 MW of solar modules per year by 2011, and Solyndra, which defaulted on a $535 million loan guarantee, prompting Republican members of the Energy and Commerce committee to vote to cease accepting new applications to the loan program.

In September 2014, SolarCity broke ground on a solar panel manufacturing plant in Buffalo, New York.Upon its completion in 2016, it was projected to be the largest solar manufacturing facility in the Western hemisphere, with an annual manufacturing capacity of 1 gigawatt.[94] However, as of 2019 the facility has not met the projections on production or job creation.[95]

Disposal

As cadmium, indium, selenium, nanoparticles, and other harmful elements are used in PV solar technology the disposal is similar to the outcomes of electronic waste.[96] [97] This can present possible risks for the workers disposing the product.[96]

A 2021 study by Harvard Business Review indicates that, unless reused, by 2035 the discarded panels would outweigh new units by a factor of 2.56. They forecast the cost of recycling a single PV panel by then would reach $20–30, which would increase the LCOE of PV by a factor 4. Analyzing the US market, where no EU-like legislation exists as of 2021, HBR noted that without mandatory recycling legislation and with the cost of sending it to a landfill being just $1–2 there was a significant financial incentive to discard the decommissioned panels. The study assumed that consumers would replace panels halfway through a 30-year lifetime to make a profit.[98] However prices of new panels increased in the year after the study.[99] A 2022 study found that modules were lasting longer than previously estimated, and said that might result in less PV waste than had been thought.[100] In 2023 the EPA considered regulations.[101]

Concentrated solar power (CSP)

History

One of the first applications of concentrated solar was the solar powered motor made by H.E. Willsie and John Boyle in 1904.[102]

An early solar pioneer of the 19th and 20th century, Frank Shuman, built a demonstration plant that used solar power to pump water using an array of mirrors in a trough to generate steam. Located in Philadelphia, the solar water pump station was capable of pumping 3000USgal an hour at that latitude, corresponding to .[103] After seven weeks of testing the plant was disassembled and shipped to Egypt for testing as an irrigation plant.[104]

In 1973, Karl Böer of the University of Delaware built an experimental house called the Solar One, the first house to convert sunlight into energy.[105]

Solar One, the first pilot solar power tower design was completed in 1981. The parabolic trough Solar Energy Generating Systems opened its first unit in 1984, the first major solar thermal plant in the world.

Selected list of plants

See main article: List of solar thermal power stations.

The United States pioneered solar tower and trough technologies. A number of different solar thermal technologies are in use in the U.S.:

The rapidly falling price of PV solar had led to several projects being abandoned or converted to PV technology.[112] Blythe Solar Power Project converted to a PV project, Rice Solar Energy Project was put on indefinite hold, Palen Solar Project tried to convert to PV but its permits were denied, Hidden Hills Solar Project was suspended in 2013 and later canceled.[113] [114] No major CSP plants remain under construction in the United States.

CSP capacity and generation

In 2013, Abengoa's 280 MWac of CSP project was brought online in the 3rd quarter. Genesis Solar's first phase of 125 MWac was brought online in the 4th quarter of 2013, bringing the total to 410 MWac for the year and 918 MWac total. Ivanpah was completed during the first quarter of 2014. The world's largest CSP power plant is 392 MWac, and brings the total to 1,310 MWac.The 110 MWac Crescent Dunes project started commissioning during February.The 250 MWac Mojave solar, second phase 125 MWac Genesis Solar, and Tooele Army Depot Solar's 1.5 MWac power plant are all expected to come online in 2014.[116] A total of around 9.5 GW of solar PV and CSP capacity is expected to come online in 2016, more than any other source.[117]

Solar thermal electricity generation in the United States[126] [127] [128] [129]
YearSummer capacity
(GW)
Electricity generation
(GWh)
Capacity factorYearly growth of
generating capacity
Yearly growth of
produced energy
Portion of
renewable electricity
Portion of
total electricity
2004569
2005535
2006493
2007464.8 596
2008464.8 788
2009473.0 735
2010473.0 789
2011471.5 806
2012476.0 876 23.6%
20131,286.4 915 17.4%
20141,666.7 2,441 18.3%
20151,757.9 3,227 21.7%
20161,757.9 3,384 22.1%
20171,757.9 3,269 21.8%
20181,757.9 3,592 23.6%
20191,758.1 3,218 21.2%
20201,747.9 3,133 20.6%
20211,747.9 2,924 20.5%

Government support

A complete list of incentives is maintained at the Database of State Incentives for Renewable Energy (DSIRE).[130] Most solar power systems are grid connected and use net metering laws to receive compensation for electricity that is not consumed on site and exported to the grid.New Jersey leads the nation with the least restrictive net metering law, and California leads in total number of homes which have solar panels installed. Many were installed because of the million solar roof initiative.[131] In some states, such as Florida, solar power is subject to legal restrictions that discourage its use.[132]

Federal

The federal tax credit for solar was extended for eight years as part of the financial bail out bill, H.R. 1424, until the end of 2016. It was estimated this would create 440,000 jobs, 28 gigawatts of solar power, and lead to a $300 billion market for solar panels. This estimate did not take into account the removal of the $2,000 cap on residential tax credits at the end of 2008.[133] A 30% tax credit is available for residential and commercial installations.[134] [135] For 2009 through 2011 this was a 30% grant, not a tax credit, known as the 1603 grant program.[136]

The federal Residential Energy Efficient Property Credit (income tax credit on IRS Form 5695) for residential PV and solar thermal was extended in December 2015 to remain at 30% of system cost (parts and installation) for systems put into service by the end of 2019, then 26% until the end of 2020, and 22% until the end of 2021. It applies to a taxpayer's principal and/or second residences, but not to a property that is rented out. There is no maximum cap on the credit, and the credit can be applied toward the Alternative Minimum Tax, and any excess credit (greater than that year's tax liability) could be rolled into the following year.[137] [138] The solar industry and utilities clashed extensively on renewal, but the solar industry prevailed.[139] The renewal wasexpected to add $38 billion of investment for 20 GigaWatts of solar.[140]

Section 1603 grants

President Obama's stimulus bill in 2009 created a program known as Section 1603 grants. The program was designed to give federal grants to solar companies for 30 percent of investments into solar energy. Since 2009, the federal government has given solar companies $25 billion in grant money through this program. The Section 1603 grant program expired in 2011.[141]

On June 9, 2016, Senator Orrin Hatch requested from Department of Treasury, the Internal Revenue Service (IRS) and the Treasury Inspector General for Tax Administration (TIGTA) details about how companies use Section 1603 grants and tax credits. In March 2016, Hatch asked the IRS and Treasury Department to demonstrate that the agencies use safeguards and coordinate with each other when reviewing applications for Section 1603 grants.[142]

Solar America Initiative

The United States Department of Energy (DOE) announced on September 29, 2008 that it would invest $17.6 million, subject to annual appropriations, in six company-led, early-stage photovoltaic (PV) projects under the Solar America Initiative's "PV Incubator" funding opportunity, designed to fund prototype PV components and systems with the goal of moving them through the commercialization process by 2010 and make it cost-competitive with conventional forms of electricity by 2015 (grid parity).[143] [144]

SunShot Initiative

The SunShot Initiative aimed to reduce the cost of solar power by 75% from 2010 to 2020. The name was based on "Moon shot", John F. Kennedy's 1961 target of reaching the Moon within the decade.[145]

Goals:

Trump administration

In 2018, as part of a trade war between the U.S. and China, US President Trump imposed tariffs on imported solar cells.[146] The push for tariffs to protect American manufacturing and jobs in the solar power industry began in April 2017, when a bankrupt Georgia-based solar cell maker filed a trade complaint that a flood of cheap imports put them at a severe disadvantage. In response, the President imposed 30% tariffs of solar imports in January 2018.[147] The solar industry was one of the fastest growing in the United States, employing more than 250,000 people as of 2018.

On one hand, these tariffs forced the cancellation or scaling down of many projects and restricted the ability of companies to recruit more workers. On the other hand, they had the intended effect of incentivizing domestic manufacturing. Many solar power companies increased automation, to become less dependent on imports, especially from China. Some analysts believed Trump's tariffs had a clear impact. Without them, the manufacturing capacity for solar cells in the United States would likely not have increased significantly, from 1.8 gigawatts in 2017 to at least 3.4 gigawatts in 2018, they argued. However, because of the increasing reliance on automation, not that many new jobs were created, while profits flowed to other countries, as many firms are foreign.

By 2019, the solar power industry had recovered from the initial setbacks due to Trump's tariffs, thanks to initiatives from various states, such as California.[148] It received considerable support from the Department of Energy. The National Renewable Energy Laboratory (NREL) launched the "American-made Solar Prize" competition in June 2018 and handed out tens to hundreds of thousand of dollars in cash prizes for the most promising solar cell designs.[149] Prices of solar cells continue to decline.

Biden administration

In 2022, President Biden extended the decreased 15% tariff on solar panels another four years.[150] The Inflation Reduction Act increased tax credits available to solar projects and provided funding to states and organizations for solar installations.

State and local

State initiatives

Feed-in tariffs

Experience has demonstrated that a feed-in tariff is both the least expensive and the most effective means of developing solar power. Investors need certainty, which they receive from a feed-in tariff.[164] California enacted a feed-in tariff which began on February 14, 2008.[165] [166] Washington state has a feed-in tariff of 15 ¢/kWh which increases to 54 ¢/kWh if components are manufactured in the state.[167] Hawaii,[168] Michigan,[169] and Vermont[170] also have feed in tariffs.[171] In 2010, the Federal Energy Regulatory Commission (FERC) ruled that states were able to implement above-market feed-in tariffs for specific technologies.[172] [173]

In 2012 the U.S. Department of Commerce placed a 31% tariff on solar cells made in China.[174] In 2018, the Trump administration placed a 30% tariff on all imported solar equipment.[175]

Solar renewable energy certificates

In recent years, states that have passed Renewable Portfolio Standard (RPS) or Renewable Electricity Standard (RES) laws have relied on the use of solar renewable energy certificates (SRECs) to meet state requirements. This is done by adding a specific solar carve-out to the state Renewable Portfolio Standard (RPS). The first SREC program was implemented in 2005 by the state of New Jersey and has since expanded to several other states, including Maryland, Delaware, Ohio, Massachusetts, North Carolina and Pennsylvania.[176]

An SREC program is an alternative to the feed-in tariff model popular in Europe. The key difference between the two models is the market-based mechanism that drives the value of the SRECs, and therefore the value of the subsidy for solar. In a feed-in tariff model, the government sets the value for the electricity produced by a solar facility. If the level is higher, more solar power is built and the program is more costly. If the feed-in tariff is set lower, less solar power is built and the program is ineffective. The problem with SRECs is a lack of certainty for investors. A feed-in tariff provides a known return on investment, while an SREC program provides a possible return on investment.

Power purchase agreements

In 2006 investors began offering free solar panel installation in return for a 25-year contract, or power purchase agreement, to purchase electricity at a fixed price, normally set at or below existing electric rates.[177] [178] By 2009 over 90% of commercial photovoltaics installed in the United States were installed using a power purchase agreement.[179] Approximately 90% of the photovoltaics installed in the United States is in states that specifically address power purchase agreements.[180]

New construction mandates

In March 2013, Lancaster, California became the first U.S. city to mandate the inclusion of solar panels on new homes, requiring that "every new housing development must average 1 kilowatt per house."[181]

Generation (PV and CSP)

Utility-scale solar generation in the United States (GWh)
YearNREL
total
EIA util
total
EIA util
% of total
JanFebMarAprMayJunJulAugSepOctNovDec
1996 521
1997 511
1998 502
1999 495
2000 804 493
2001 822 543 7 13 31 39 81 91 92 85 65 21 14 4
2002 857 555 11 24 44 46 58 96 86 75 53 31 28 4
2003 929 534 13 18 50 60 68 91 62 62 56 36 14 4
2004 1,020 575 13 11 53 57 82 88 82 73 61 34 15 8
2005 1,145 550 8 13 37 57 81 87 71 75 60 37 12 2
2006 1,312 508 13 20 33 52 71 70 62 83 54 32 16 3
2007 1,718 612 13 19 48 54 84 84 86 75 68 48 23 3
2008 2,208 864 16 36 75 94 99 128 111 105 93 60 29 19
2009 2,922 891 7 30 78 99 110 103 121 116 95 68 40 21
2010 4,505 1,212 10 33 76 112 153 176 161 156 138 75 77 44
2011 7,454 1,818 40 85 122 164 191 223 191 229 186 159 107 121
2012 12,692 4,327 95 135 231 319 462 527 509 462 458 431 347 349
2013 21,074 9,036 310 433 619 667 753 871 829 944 949 988 824 850
2014 32,553 17,691 751 835 1,317 1,487 1,750 1,923 1,788 1,879 1,832 1,717 1,380 1,032
2015 44,296 24,893 1,155 1,484 2,072 2,379 2,504 2,558 2,627 2,788 2,217 1,910 1,730 1,570
2016 52,833 36,054 1,486 2,242 2,617 2,880 3,425 3,473 3,945 3,969 3,635 3,191 2,767 2,424
2017 77,097 53,287 2,324 2,751 4,514 4,907 5,785 6,115 5,569 5,369 5,059 4,650 3,209 3,035
2018 96,147 63,825 3,319 3,896 5,056 6,057 6,849 7,415 6,755 6,695 5,961 4,970 3,743 3,110
2019 107,275 71,937 3,580 3,836 5,899 6,752 7,162 7,971 8,133 7,877 6,817 6,093 4,364 3,453
2020 132,631 89,199 4,459 5,561 6,350 7,921 9,653 9,654 10,610 9,315 7,732 7,085 5,767 5,091
2021 164,422 115,258 5,559 6,330 9,296 10,892 12,457 12,197 12,192 11,967 11,214 9,268 7,795 6,091
2022 204,110 145,598 8,158 9,312 11,86813,438 15,161 15,953 15,686 14,375 13,405 12,1878,460 7,033
2023 224,206164,5028,1379,38112,275 14,97317,000 17,775 18,988 17,45615,23613,74910,0859,200
2024 -----78,6969,651 12,38915,668 18,938 22,050
Last entry, % of total

Source: NREL,[182] [183] EIA;[184] [185] [128] [186] [187] [188] NREL includes distributed generation, EIA, including the monthly data above, includes only utility-scale generation. "EIA util % of total" is the percentage of all electricity produced at utility-scale facilities that is generated by utility-scale solar.

See also

US renewables:

General:

International:

Further reading

External links

Notes and References

  1. Web site: Table 1.1. Net Generation by Energy Source: Total (All Sectors) . U.S. Energy Information Administration . August 11, 2023.
  2. Web site: Solar Industry Research Data . Solar Energy Industries Association . June 4, 2022.
  3. Web site: Renewable Capacity Statistics 2022 . 32 . irena.org . June 4, 2022 . en.
  4. Web site: Nearly 28 GW of new US generating capacity added in 2021, led by wind . Dlin . Susan. February 7, 2022 . S&P Global . June 4, 2022.
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