Solar power in the United Kingdom explained

Solar power has a small but growing role in electricity production in the United Kingdom.

There were few installations until 2010, when the UK government mandated subsidies in the form of a feed-in tariff (FIT), paid for by all electricity consumers. In the following years the cost of photovoltaic (PV) panels fell, and the FIT rates for new installations were reduced in stages until the scheme closed to new applications in 2019.[1]

, over 14.4gigawatt (GW) had been installed, a third of which was rooftop solar. Annual generation was 14TWh in 2022 (4.3% of UK electricity consumption) and peak generation was more than 11GW. PV panels have a capacity factor of around 10% in the UK climate. Home rooftop solar panels installed in 2022 were estimated to pay back their cost in ten to twenty years.[2]

Solar potential

The UK's annual insolation is in the range of 750–1,100kilowatt-hours per square metre (kWh/m2).London receives 0.52 and 4.74kWh/m2 per day in December and July, respectively.[3] While the sunniest parts of the UK receive much less solar radiation than the sunniest parts of Europe, the country's insolation in the south is comparable with that of central European countries, including Germany, which generates about 10.7% of its electricity from solar power.[4] Additionally, the UK's higher wind speeds cool PV modules, leading to higher efficiencies than could be expected at these levels of insolation.[5] Capacity factors of solar PV reached values between 9.8% and 11.4% in the UK in the 2013-2022 period.[6]

Derry Newman, chief executive of Solarcentury, argues that the UK's "famously overcast weather does not make it an unsuitable place for solar power, as solar panels work on daylight, not necessarily direct sunlight."[7] Some solar cells work better in direct sunlight, others can use more diffuse light. While insolation rates are lower in England than France and Spain, they are still usable.[8]

Solar PV installed capacity and generation

See also: Growth of photovoltaics.

Year end2008[9] 20092010[10] 2011[11] 2012[12] [13] 20132014201520162017[14] 201820192020[15] 202120222023
Capacity
(MW)		22 27 95 965 1,736 2,822 5,378 9,118 11,562 12,69012,992 13,265 13,579 13,965 14,66015,993
Generation
(GW·h)		17 20 33 244 1,354 2,010 4,054 7,533 10,395 11,45712,736 12,418 12,903 12,138 13,92113,826
Effective Capacity factor 0.087 0.084 0.0390.0280.0880.081 0.0860.0940.1020.1030.111 0.111 0.108 0.099 0.1080.103
% of total
electricity consumption		<0.01 <0.01 0.01 0.07 0.37 0.64 1.2 2.2 3.1 3.43.8 3.8 4.1 3.9 4.34.8

Solar PV deployment in the UK. Capacity in megawatt (MWp)

Source: DECC – Department of Energy & Climate Change, Statistics – Solar photovoltaics deployment (period from 2010 onward)[14]

The table above shows electricity production from solar panels as a percentage of the final consumption of electricity in the UK and not gross supply to the grid. These numbers may be updated as the UK government has an average time lag of around 6months in completing the backlog of officially processing the large number of solar installations.

History

In 2006, the United Kingdom had installed about 12MW of photovoltaic capacity,[16] which represented only 0.3% of total European solar PV of 3,400MW.[17] In August 2006, there was widespread news coverage in the United Kingdom of the major high street electrical retailers Currys' decision to stock PV modules, manufactured by Sharp, at a cost of £1,000 per module. The retailer also provided an installation service.

Solar power installations increased rapidly in subsequent years, as a result of reductions in the cost of PV panels, and the introduction of a feed-in-tariff (FiT) subsidy in April 2010.

FiT payments for new installations were cut a review announced by DECC on 9June 2011.[18] As a result, large arrays of solar panels became a less attractive investment opportunity for developers, especially for projects greater than 250kW, so large field arrays such as these were less likely to be built beyond the 1 August 2011 cut-off date.[19] At the end of 2011, there were 230,000 solar power projects in the UK,[20] with a total installed generating capacity of 750MW.[21]

In 2012, the government announced that 4million homes across the UK would be powered by the sun within eight years,[22] representing 22 gigawatts (GW) of installed solar power capacity by 2020. At the end of September 2013, retailer IKEA announced that solar panel packages for houses would be sold at 17 UK stores by July 2014. The decision followed a successful pilot project at their Thurrock store, during which one system was sold almost every day. The panels were manufactured by the Chinese company Hanergy.[23] This partnership did not last and in October 2015 Ikea ended its relationship with Hanergy.[24]

By 2016 the total installed capacity was over 10,000MW. In the summer half-year from April to September 2016, UK solar panels produced more electricity (6,964GWh) than did coal power (6,342GWh); each meeting about 5% of demand.[25]

UK solar PV installed capacity at the end of 2017 was 12.8GW, representing a 3.4% share of total electricity generation.[14] Provisionally, as of the end of January 2019 there was 13,123MW installed UK solar capacity across 979,983 installations. This is an increase of 323MW in slightly more than a year.[26] A new record peak generation from photovoltaics was set at 11.2GW on 02 June 2024.[27]

New solar PV installations slowed in 2020, though to a lesser extent, with 217MW being added in 2020 compared with 273MW in 2019. COVID-19 restrictions may have caused delays in some projects.[14]

2022 saw a big increase in domestic installations with over 130,000 installations added in the 10kW or less range, to take the total number of these small-scale installations to 1,179,495. Total capacity as of February 2023 stood at 14,432MW, with an average of 72MW added each month over the previous six months.

Solar PV by size of installations

Cumulative installed capacity[28] !Size!July 2018 (MW)!Dec 2021 (MW)[29] !Dec 2022 (MW)
0 to < 4kW2,567.92,862.23,145.9
4 to < 10kW224.7331.1489.9
10 to < 50kW786.8965.41,048.5
50kW to < 5MW3,468.53,633.53,665.1
5 to < 25MW4,310.94,260.44,314.0
> 25MW1,512.41,586.71,626.7
Total12,871.213,639.314,289.3
Pre 2009 estimate
(for comparison)		14.6

Residential solar PV

According to a report on behalf of the European Commission, in 2015 the United Kingdom had 2,499MW of residential solar PV capacity, with 775,000residential solar PV producers, representing 2.7% of households.[30] The average size of residential solar PV systems was estimated to be 3.25kW, and the technical potential for residential solar PV in the United Kingdom was estimated at 41,636MW.

MCS (Microgeneration Certification Scheme) claim 61,320 UK properties had solar panels installed in 2021, an increase of 71% on the previous year.[31] The average payback time for residential solar PV in the UK was 11.4 years as of 2015, but subsequent increases in the price of domestic energy have significantly decreased this. The April 2022 rise in the price cap saw payback times reduced on average by 2.5 years.[32]

Some of the advantages of small scale residential solar include eliminating the need for extra land, keeping cost saving advantages in local communities and empowering households to become producer/consumers of renewable electricity, raising awareness of wasteful consumption habits and environmental issues through direct experience. It will take anything from 4 to 20years to recoup the money spent on solar panels, this depends on a number of factors for example how many modules you have, how big they are, if they are south facing and where you live. Some studies have found that feed in tariff schemes have disproportionately benefited wealthier households with little or no assistance to help poorer household access financial loans or affordable schemes, whilst the costs of schemes are distributed evenly across utility bills.

In his Spring Statement of March 2022, Chancellor Rishi Sunak announced a reduction of VAT on the installation of energy-saving materials (including solar PV systems) to 0% (previously 5%) for a period of five years from 1 April 2022, stating "the measure is intended to incentivise the take-up of ESMs in line with the government's net zero objectives".[33]

Large scale solar power parks

NameMWCountyLocationStatus
Botley West Solar Farm840OxfordshireProposed[34]
Cottam Solar Project600LincolnshireProposed[35]
Amlwch / Llyn Alaw350AngleseyProposed[36]
Cleve Hill Solar Park350KentUnder construction [37]
Gate Burton - Solar & Energy Storage Park531LincolnshireApproved[38]
Sunnica Energy Farm (East and West)500CambridgeshireApproved[39]
Longfield Solar Energy Farm500EssexProposed
Heckington Fen Solar Park500LincolnshireProposed
West Burton Solar Project480LincolnshireProposed
Mallard Pass Solar Farm350LincolnshireApproved[40]
Little Crow Solar Park150LincolnshireApproved, awaiting construction
Wentlooge Renewable Energy Hub125GwentProposed
Llanwern Solar farm75NewportOperational since 2021
Shotwick solar farm72FlintshireOperational since 2016[41]

The first solar park in Wales became operational in 2011 at Rhosygilwen, north Pembrokeshire.[42]

On 13 July 2011, construction of the largest solar park in the United Kingdom was completed in Newark-on-Trent in Nottinghamshire.The 4.9MW free-field system was built in just seven weeks after being granted planning permission.The system generates an estimated 4,860MWh of electricity (an average power of 560kW) into the national grid each year.[43] There are several other examples of 45MW field arrays of photovoltaics in the UK, including the 5MW Language Solar Park, the 5MW Westmill Solar Farm, the 4.51MW Marsten Solar Farm and Toyota's 4.6MW plant in Burnaston, Derbyshire.[44]

The first large solar farm in the United Kingdom, a 32MW solar farm, began construction in November 2012 in Leicestershire, between the runways of the former military airfield, Wymeswold.[45]

As of June 2014 there were 18 schemes generating more than 5MW and 34 in planning or construction in Wales.[46]

In 2023, the queue for grid connection was a problem.[47]

Planning considerations

Adding solar panels to the external elevations and roofs of a dwelling will change the appearance of both the property and the local street view. This in some cases will require planning permission from the local authority. For a Listed Building or in a Conservation Area, planning permission is mandatory. Otherwise, the owner of a domestic dwelling where solar panels are being installed can in most cases proceed under their Permitted Development rights, as long as certain height limitations are adhered to.

Government programmes

The Energy Saving Trust that administers government grants for domestic photovoltaic systems, the Low Carbon Building Programme, estimated that an installation for an average-sized house would cost between £5,000–£8,000, with most domestic systems usually between 1.5 and 3kWp, and yield annual savings between £150 and £200 (in 2008).[48]

The Green Energy for Schools programme was intended to provide 100 schools across the UK with solar panels. The first school in Wales was at Tavernspite, in Pembrokeshire, and received panels worth £20,000.[49]

The average UK home consumes about 3,000 kWh of electricity per year, equivalent to about 1ton of per home (dependent on electricity industry energy mix). That equates to 25 million tons of CO2 per year from UK domestic electricity consumption., there is no compulsion for new builds to incorporate any solar power generation.

Feed-in tariff

See main article: Feed-in tariffs in the United Kingdom.

Discussion on implementation of a feed-in tariff programme concluded on 26 September 2008, and the results were published in 2009.[50] The UK government agreed in April 2010 to pay for all grid-connected generated electricity at an initial rate of up to 41.3pence (US$0.67) per kWh, whether used locally or exported.[51] The rates proved more attractive than necessary, and in August 2011, were drastically reduced for installations over 50kW,[52] a policy change criticised as marking "the end of the UK's solar industry as we know it".[53] Subsequently, feed-in tariff rates were adjusted annually by the government,[54] and a requirement was introduced for new claims that the home's rating on the Energy Performance Certificate (EPC) had to be 'D' or better.[55] The amount of electricity exported is not usually measured for domestic installations; instead it is calculated by assuming that 50% of the electricity produced is exported into the grid.

The Department for Business, Energy and Industrial Strategy published a consultation on 19 July 2018, stating their intention to close the FIT scheme to new applicants from 1 April 2019[56] and not replace it with a new subsidy.[57]

The Feed-in Tariff was closed to new entries on 1 April 2019, but households are still able to claim on existing tariffs where available.

Smart Export Guarantee

On 10 June 2019, Ofgem announced[58] that BEIS had introduced the Smart Export Guarantee (SEG), in force from 1 January 2020. This is not a direct replacement of the feed-in tariff scheme, but rather an initiative that rewards solar generators for electricity exported to the grid. Energy suppliers with more than 150,000 domestic customers must provide at least one export tariff.[59] The export tariff rate must be greater than zero. Export is measured by smart meters which the energy supplier will install free of charge.

The SEG is available to households that generate up to 5 MW from solar PV, wind, micro-combined heat and power, hydro or anaerobic digestion.[60]

Contract for Difference

The Contract for Difference (CfD) scheme, introduced in 2013 to replace the Renewables Obligation, excluded solar PV schemes from the competitive auctions in 2015. The majority of successful CfD auction bidders came from the wind sector. In 2020 the UK government reversed this decision, opening the door for PV projects to compete in the CfD auctions against onshore wind projects.[61]

Future

Decentralised smaller scale generators which are not connected directly to the transmission network are forecast to increase.[62] New solar farms and battery storage may help to meet increased demand from electric vehicles.[63]

See also

External links

Notes and References

  1. Web site: Feed-in Tariffs (FIT) . 2024-01-17 . Ofgem . en.
  2. Web site: 11 October 2022 . Are solar panels worth it? . 15 October 2022 . Architectural Digest.
  3. Web site: UK and Ireland Annual Insolation Map . ContemporaryEnergy.co.uk . 2007 .
  4. Web site: Snapshot of Global PV 1992–2014 . iea-pvps.org/index.php?id=32 . International Energy Agency – Photovoltaic Power Systems Programme . 30 March 2015 . https://web.archive.org/web/20150407023056/http://www.iea-pvps.org/index.php?id=92&eID=dam_frontend_push&docID=2430 . 7 April 2015 . live .
  5. Web site: Solar Cell Efficiency. solarpower2day.net.
  6. Web site: UK: load factor of solar PV 2022 . 2024-04-12 . Statista . en.
  7. Web site: UK's biggest solar energy farm connects to national grid. . 27 June 2011 . The Guardian .
  8. Web site: Colored Solar Panels Don't Need Direct Sunlight. inhabitat.com. 18 September 2009 .
  9. Web site: ENERGY TRENDS – Table 5: Capacity of, and electricity generated from, renewable sources from 2008 to 2010. decc.gov.uk. Department of Energy and Climate Change. 18 June 2014. http://webarchive.nationalarchives.gov.uk/20121217150421/http://www.decc.gov.uk/assets/decc/11/stats/publications/energy-trends/2076-trendsjun11.pdf. dead. 17 December 2012. 27. June 2011.
  10. Web site: EUROBSER'VER. Photovoltaic Barometer – installations 2010 and 2011. energies-renouvelables.org. 1 May 2013. https://web.archive.org/web/20140810235723/http://www.eurobserv-er.org/pdf/photovoltaic_2012.pdf. 10 August 2014. live. 6.
  11. Web site: June 2021 . Energy Trends: UK renewables . 21 June 2021 . Department of Energy & Climate Change . Renewable electricity capacity and generation (ET 6.1 – quarterly).
  12. Web site: Global Market Outlook for Photovoltaics 2014–2018. epia.org. EPIA – European Photovoltaic Industry Association. 12 June 2014. https://web.archive.org/web/20140625154728/http://www.epia.org/fileadmin/user_upload/Publications/EPIA_Global_Market_Outlook_for_Photovoltaics_2014-2018_-_Medium_Res.pdf. 25 June 2014. dead. 24.
  13. Web site: ENERGY TRENDS – Table 6.1. Renewable electricity capacity and generation. Department of Energy & Climate Change. 18 June 2014. 50. March 2014.
  14. Solar photovoltaics deployment April 2021 . 27 May 2021 . 29 May 2014 . 21 June 2021 . Department for Business, Energy & Industrial Strategy.
  15. https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/1147249/Energy_Trends_March_2023.pdf Energy Trends March 2023
  16. Web site: Observ'ER – l'observatoire des énergies renouvelables. Observ'ER. energies-renouvelables.org.
  17. Web site: Solar Photovoltaics. epia.org. 9 March 2011. https://web.archive.org/web/20110628073125/http://www.epia.org/press-room/press-releases/press-release-details/article/solar-photovoltaics-2010-a-record-year-in-all-respects.html?tx_ttnews%5BbackPid%5D=3&cHash=d1bd2a8766. 28 June 2011. dead.
  18. Web site: Fast-track review of Feed-in Tariffs. GOV.UK. 18 March 2011 .
  19. Web site: Tariffs payable per kWh of electricity produced – FI Tariffs – Feed-In Tariffs. fitariffs.co.uk.
  20. Web site: UK wants sustained cuts to solar panel tariffs . Yeganeh Torbati . 9 February 2012 . Reuters .
  21. Web site: Market Report 2011 . European Photovoltaic Industry Association . 2012 .
  22. Web site: Harvey . Fiona . Fiona Harvey . 9 February 2012 . Greg Barker: 4m homes will be solar-powered by 2020 . The Guardian.
  23. News: Ikea to sell solar panels in UK. stores. 1 October 2013. The Guardian. 30 September 2013. Reuters.
  24. News: Ikea ends residential solar panel deal with Hanergy. Financial Times. 2 November 2015 .
  25. Web site: Analysis: UK solar beats coal over half a year. Carbon Brief. 4 October 2016 . 6 October 2016.
  26. Web site: Solar PV deployment: February 2019 . 2023-08-24 . GOV.UK . en.
  27. Web site: PV Live Sheffield University. 21 June 2021.
  28. Web site: UK Solar & PV Market Report 2019. 24 September 2018. UK Business Energy. en-GB. 28 September 2019.
  29. https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/1146600/Solar_photovoltaics_deployment_February_2023.xlsx
  30. Web site: Residential prosumers in the European energy union..
  31. Web site: 21 March 2022 . Annual UK solar PV installations hit output milestone . 20 June 2022 . MCS . en-GB.
  32. Web site: May 2022 . Solar panels pay for themselves 2.5 years faster following price cap rise . 20 June 2022 . MakeMyHouseGreen Blog.
  33. Web site: The Value Added Tax (Installation of Energy-Saving Materials) Order 2022 . 20 June 2022 . GOV.UK . en.
  34. Web site: Home - Botley West . 2023-06-20 . botleywest.co.uk.
  35. Web site: Renewable Energy Planning Database: quarterly extract Apr 2023 . 2 May 2023 . 2023-06-19.
  36. Web site: Mega solar sites planned over thousands of acres of land on Anglesey. June 2021 . 15 September 2021.
  37. Web site: Butler . Rory . 2023-04-25 . Project Fortress: Construction starts on 'UK's largest solar plant' . 2023-06-19 . Construction Wave . en-US.
  38. Web site: Government approves three new solar farms that could power 400,000 homes . Sky News . 12 July 2024.
  39. Web site: Sunnica £600m solar farm approved despite objections . 2024-07-12 . BBC.
  40. Web site: Government approves solar farm despite opposition . BBC . 13 July 2024.
  41. Web site: Power plant profile: Shotwick Solar PV Park, UK . Power Technology . 31 May 2024.
  42. News: BBC. Wales' first solar park powers up in Pembrokeshire. 8 July 2011. 25 June 2014.
  43. Web site: Conergy completes record-breaking UK solar park. 13 July 2011. Solar Power Portal.
  44. Web site: Just how many solar projects beat the fast track review?. Hughes. Emma. 3 August 2011. Solar Power Portal. Semiconductor Media, Ltd. 4 August 2011.
  45. Web site: Construction Begins on Britain's Largest Solar Plant. solartribune.com.
  46. News: Solar parks: Large scale schemes 'to double' in Wales. 25 June 2014. 25 June 2014. BBC.
  47. Web site: Economics of solar have 'switched' but grid and 'cumulative overdevelopment' challenges remain . 2 February 2023 .
  48. Web site: Grants and Loans. energysavingtrust.org.uk. dead. https://web.archive.org/web/20081011064419/http://www.energysavingtrust.org.uk/generate_your_own_energy/types_of_renewables/solar_electricity. 11 October 2008.
  49. Web site: Free solar power first for school. 19 May 2008. BBC News. .
  50. Web site: UK Renewable Energy Strategy Consultation. berr.gov.uk. 20 August 2008. https://web.archive.org/web/20081012080414/http://www.berr.gov.uk/consultations/page46797.html. 12 October 2008. dead.
  51. Web site: Feed-in Tariff scheme . 1 April 2011 . Energy Saving Trust . 4 August 2011 .
  52. Web site: Curtain falls on solar subsidy boom . Will . Nichols . 1 August 2011 . BusinessGreen . Incisive Media Investments Limited . 4 August 2011 .
  53. Web site: The end of large-scale solar as we know it . Emma . Hughes . 1 August 2011 . Solar Power Portal . Semiconductor Media, Ltd . 4 August 2011 .
  54. Web site: Feed-In Tariff (FIT) rates. ofgem.gov.uk.
  55. https://www.ofgem.gov.uk/system/files/docs/2016/02/feed-in_tariff_generation_and_export_tables_08.02.2016_-_31.03.2016.pdf
  56. Web site: Feed-in Tariffs (FIT) . Ofgem.
  57. Web site: Renewable Energy News – July 2018. Chris. Jardine. 8 August 2018.
  58. Web site: Smart Export Guarantee (SEG) . Ofgem. 10 June 2019 .
  59. Web site: The future for small-scale low-carbon generation: part A . GOV.UK. 8 January 2019 .
  60. Web site: Smart Export Guarantee (SEG) . 20 June 2022 . Ofgem . en.
  61. Web site: Solar Power Portal BEIS backs down on CfDs as it allows solar back in the scheme.
  62. Web site: Future Energy Scenarios in five minutes . . 20 April 2019.
  63. News: Battery storage and solar farms to power 100 UK 'Electric Forecourts' . edie . 29 March 2019.

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