Solar power in the United Kingdom

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BedZED 2007.jpg CIS Tower.jpg
Solar panels on a 1930s semi on Barleyfields Road, Wetherby (31st May 2013).JPG
Top-left: solar panels on the BedZED development in the London Borough of Sutton. Bottom-left: residential rooftop solar PV in Wetherby, Leeds. Right: the CIS Tower was clad in building-integrated PV and connected to the grid in 2005.

Solar power represented a very small part of electricity production in United Kingdom until 2011. The installed base has increased rapidly in recent years as a result of reductions in the cost of photovoltaic (PV) panels, and the introduction of a feed-in tariff (FIT) subsidy in April 2010.[1] As of February 2016, there is a total installed capacity of over 9.2 GW of solar power.[2][3] The 48 MW Southwick Estate solar farm, near Fareham, was the largest in the UK at the time of its completion in March 2015.[4] In 2012, the government had said that 4 million homes across the UK will be powered by the sun within eight years,[5] representing 22,000 MW of installed solar power capacity by 2020.[1]

History

In 2006, the United Kingdom had installed about 12 megawatts (MW) of photovoltaic capacity[6] and represented only 0.3% of total European solar PV of 3,400 MW.[7] At the end of 2011, there were 230,000 solar power projects in the United Kingdom,[1] with a total installed generating capacity of 750 MW.[8] By February 2012 the installed capacity had reached 1,000 MW.[9]

Due to an EU agreement to generate 15% of electricity from renewables by 2020, in June 2008 a new programme to encourage homeowners to generate their own electricity was announced, which also included a feed-in tariff.

Solar resource

Solar potential in the UK and on the European continent (different colour scale)

The UK's annual insolation is in the range of 750–1,100 kilowatt-hours per square metre (kWh/m²). London receives 0.52 and 4.74 kWh/m² per day in December and July, respectively.[10] 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 7% of its electricity from solar power.[11] Additionally, the UK's higher wind speeds cool PV modules, leading to higher efficiencies than could be expected at these levels of insolation.[12] The Department of Energy and Climate Change (DECC) assumes an average capacity factor of 9.7% for solar photovoltaics in the UK.[13]

A 1,000 km2 (390 sq mi), 200,000 MW solar farm in Scotland, where the insolation is about 900 kWh/m²/yr would provide 180,000 GWh per year, equal to all of Scotland's energy demand. Since most of that would be in the summer, when Scotland receives 12–14 hours of sun, the excess would need to be stored or exported, and wind, hydro-electric, nuclear and carbon based energy would need to be used in the winter. About 47% of energy in Scotland is used for heat, and can be substantially reduced by increasing insulation of buildings.[14]

PV commercialisation

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 provides an installation service.

The introduction of the Feed-in-Tariff (FiT) in 2010 saw rapid growth of the UK photovoltaic market, with many thousands of domestic installations along with numerous commercial, community and industrial projects. On 13 July 2011, construction of the largest solar park in the United Kingdom was completed in Newark-on-Trent in Nottinghamshire. The 4.9 MW free-field system was built just in seven weeks after being granted planning permission. The system will generate an estimated 4,860 MW·h of electricity (an average power of 560 kW) into the national grid each year.[15] There are several other examples of 4–5 MW field arrays of photovoltaics in the UK, including the 5 MW Langage Solar Park, the 5 MW Westmill Solar Farm, the 4.51 MW Marsten Solar Farm and Toyota's 4.6 MW plant in Burnaston, Derbyshire.[16] The cuts to the feed in tariff made in the fast track review announced by DECC on 9 June 2011[17] mean that large arrays of solar photovoltaics are now a much less attractive investment opportunity for developers (especially for projects greater than 250 kW), so large field arrays such as these are unlikely to be built beyond the 1 August 2011 cut off date, at least not until 2012, when PV prices reduce somewhat - a utility scale solar farm is paid 8.9 p/kWhr generated.[18]

  • Sharp Solar, has a facility in Llay near Wrexham.[19]
  • G42i is building (2007) the world's first commercial scale dye sensitized TiO2 module plant.
  • Solar Century offers BIPV modules to fit with standard UK concrete tiles.

The first solar park in Wales came on stream in 2011 at Rhosygilwen, north Pembrokeshire.[20] As of June 2014 there were 18 schemes generating more than 5 MW and 34 in planning or construction.[21]

Solar power use has increased very rapidly in recent years, albeit from a small base, as a result of reductions in the cost of photovoltaic (PV) panels, and the introduction of a Feed-in tariff (FIT) subsidy in April 2010.[1] At the end of 2011, there were 230,000 solar power projects in the United Kingdom,[1] with a total installed generating capacity of 750 megawatts (MW).[8] By February 2012 the installed capacity had reached 1,000 MW.[9] In 2012, the government said that 4 million homes across the UK will be powered by the sun within eight years.[5] The government expects Britain to have 22 gigawatts of installed solar power capacity by 2020.[1]

The first large solar farm in the United Kingdom, a 32 MW solar farm, began construction in November 2012. It is located in Leicestershire, and is expected to be completed before April 2013, when the feed in tariff for large systems will be reduced. It is located between the runways of the former military airfield, Wymeswold.[22]

At the end of September 2013, IKEA announced that solar panel packages for houses will be sold at 17 United Kingdom IKEA stores by the end of July 2014. The decision followed a successful pilot project at the Lakeside IKEA store, whereby one photovoltaic (PV) system was sold almost every day. The panels are manufactured by the Chinese company Hanergy.[23] This partnership did not last and in October 2015 Ikea ended their relationship with Hanergy.[24]

Government programmes

The Energy Saving Trust that administers government grants for domestic photovoltaic systems, the Low Carbon Building Programme, estimates that an installation for an average-sized house would cost between £5,000–£8,000, with most domestic systems usually between 1.5 and 3 kWp, and yield annual savings between £150 and £200.[25]

The Green Energy for Schools programme will be providing 100 schools across the UK with solar panels. The first school in Wales was the Tavernspite School, near Whitland, which has received panels worth £20,000, sufficient to produce 3,000 kW·h of electricity each year.[26]

Feed-in tariff

Discussion on implementation of a feed-in tariff programme concluded on 26 September 2008, and the results were published in 2009.[27]

The government in the UK agreed in April 2010 to pay for all grid-connected generated electricity at an initial rate of up to 41.3p (US$0.67) per kWh, whether used locally or exported.[28] The rates proved more attractive than necessary, and in August 2011, were drastically reduced for installations over 50 kW,[29] a policy change criticized as marking "the end of the UK’s solar industry as we know it".[30]

Feed In Tariff rates are reviewed every three months by the government and new rates are set based on how many installations there had been within the period[citation needed]. As of 8 February 2016, the rate is 4.39 pence per kWh of power generated for domestic systems of 4kWp (p means peak i.e. the maximum power that the system can produce) or less and where homes meet the minimum EPC requirement of band D.[31] The Export Tariff is 4.85 pence per kWh exported to the grid. The amount of electricity exported is not usually measured for domestic installations. It is calculated by assuming that 50% of the electricity produced is exported into the grid.

George Monbiot, an environmentalist seeking to replace fossil fuels with carbon-free sources of energy, opposes subsidies for solar power within the UK, "because the facts show unequivocally that this is a terrible investment."[32] On the other hand, 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."[33] 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.[34] Many of the solar panels can be monitored on the internet, such as the Slepe Farm in Dorset, a 492 kW solar field.[35]

Net metering

Net metering is only available from one company, Eastern Energy, where it is referred to as "SolarNet".[36]

Statistics

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Main articles: Solar power in the European Union and Growth of photovoltaics

Solar power generation totals can only be an estimate due to the nature of each solar site experiencing its own weather, individual siting and angle in relation to the sun etc. Also as the power generated then used by equipment onsite will never reach the grid from all sites the total can never be directly calculated by government statistics as obtained from the national grid. Given this there will still be quite accurate estimates which combine weather reports from around the UK and the simple addition of average generation potential of Solar Panels in the UK in any given year.

The below table 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. Also these numbers may be updated as the UK government has an average time lag of around 6 months in terms of completing the backlog of official processing of the large number of solar installations.

Year end 2008 2009 2010 2011 2012 2013 2014 2015
Capacity[3]
(MW)		 22 27 95 965 1,736 2,822 5,228 8,915
Generation
(GW·h)		 17 20 33 259 1,328 2,015 3,931 7,556
 % of total
electricity consumption		 <0.001 <0.001 0.001 0.07 0.37 0.64 1.29 2.49
References [37] [37] [37][38] [38][39] [40][41] [41] [42] [43]
Solar PV deployment in the UK. Capacity in megawatt (MWp).
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
2010
2011
2012
2013
2014
2015
Source: DECC – Department of Energy & Climate Change, Statistics – Solar photovoltaics deployment (period from 2010 onward)[3]

PV installations by region

PV capacity in watts per capita by region in 2013[40]
  0–1 watt
  1–10 watts
  10–50 watts
  50–100 watts
  100–200 watts
  200–350 watts

See also

References

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  2. https://www.gov.uk/government/statistics/solar-photovoltaics-deployment
  3. 3.0 3.1 3.2 Lua error in package.lua at line 80: module 'strict' not found.
  4. Hampshire solar farm is UK’s largest, Paul Spackman, March 17, 2015
  5. 5.0 5.1 Lua error in package.lua at line 80: module 'strict' not found.
  6. Eurobserv'er'
  7. Solar Photovoltaics
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  12. Solar Cell Efficiency
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  14. Solar energy in Scotland
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  18. Table of Feed In Tariffs
  19. Sharp Solar celebrates five years as world number one
  20. Lua error in package.lua at line 80: module 'strict' not found.
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  22. Construction Begins on Britain’s Largest Solar Plant
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  24. http://www.ft.com/intl/cms/s/0/194972d6-814b-11e5-a01c-8650859a4767.html#axzz3u77XMJVh
  25. Solar Electricity, Energy Saving Trust
  26. Free solar power first for school
  27. UK Renewable Energy Strategy Consultation
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  31. https://www.ofgem.gov.uk/system/files/docs/2016/02/feed-in_tariff_generation_and_export_tables_08.02.2016_-_31.03.2016.pdf
  32. Lua error in package.lua at line 80: module 'strict' not found.
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  34. Colored Solar Panels Don’t Need Direct Sunlight
  35. Slepe Farm
  36. SolarNet and Net Metering
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  43. https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/524695/Energy_Trends_March_2016.pdf

External links

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