Jan. 13, 2025
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Many countries and territories have installed significant solar power capacity into their electrical grids to supplement or provide an alternative to conventional energy sources. Solar power plants use one of two technologies:
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The worldwide growth of photovoltaics is extremely dynamic and varies strongly by country. In April , the total global solar power capacity reached 1 TW.[3] In , the leading country for solar power was China, with about 390 GW,[4][5] accounting for nearly two-fifths of the total global installed solar capacity. As of , there are more than 40 countries around the world with a cumulative PV capacity of more than one gigawatt, including Canada, South Africa, Chile, the United Kingdom, South Korea, Austria, Argentina and the Philippines.
The top installers of included China, the United States, and India.[6][7] Japan, Brazil, the Netherlands, France, Mexico and Germany were also among the top installers of . The available solar PV capacity in Australia is now sufficient to supply more than 15% of the nation's electrical energy while Honduras, Italy, Spain, Germany and Greece can produce between 9% and 14% of their respective annual domestic electricity consumption.[8][9]
After an almost two decade long hiatus, the deployment of CSP resumed in . However, the design for several new projects is being changed to cheaper photovoltaics.[10] Most operational CSP stations are located in Spain and the United States, while large solar farms using photovoltaics are being constructed in an expanding list of geographic regions. Other countries, like Finland, Denmark, Israel, Ukraine and Algeria, can also produce any portions of their electricity consumption.
The following table lists these data for each country:
Data are sourced from Ember and refer to the year unless otherwise specified.[11] The table only includes countries with more than 0.1 TWh of generation. Links for each location go to the relevant solar power page, when available.
Solar statistics by country in (unless otherwise specified) Country GenMany African countries receive on average a very high number of days per year of bright sunlight, especially the dry areas, which include the arid deserts (such as the Sahara) and the semi-desert steppes (such as the Sahel).[15] This gives solar power the potential to bring energy to virtually any location in Africa without the need for expensive large-scale grid-level infrastructural developments. The distribution of solar resources across Africa is fairly uniform, with more than 85% of the continent's landscape receiving at least 2,000 kWh/(m2 year). A study indicates that a solar generating facility covering just 0.3% of North Africa could supply all of the energy required by the European Union.[16]
Algeria has the highest technical and economical potential for solar power exploitation in the MENA region, with about 170 TWh per year. First industrial scale solar thermal power project has been initiated by inauguration of Hassi R'Mel power station in . This new hybrid power plant combines a 25-megawatt (MW) concentrating solar power array in conjunction with a 130 MW combined cycle gas turbine plant. In addition, Algeria has launched in a national program to develop renewable energy based on photovoltaics (PV), concentrated solar power (CSP) and wind power, and to promote energy efficiency. The program consists of installing up to 12 GW of power generating capacity from renewable sources to meet the domestic electricity demand by .
Benban Solar Park is a Photovoltaic power station with a total capacity of MW nominal power which corresponds to an annual production of approximately 3.8 TWh. It is located in Benban (Aswan Governorate) in the western desert, approximately 650 km south of Cairo and 40 km northwest of Aswan. Benban is currently[when?] the 4th largest solar power plant in the world.[citation needed]
Solar power in Morocco is enabled by the country having one of the highest rates of solar insolation among other countries' about 3,000 hours per year of sunshine but up to 3,600 hours in the desert. Morocco has launched one of the world's largest solar energy projects costing an estimated $9 billion. The aim of the project is to create 2,000 megawatts of solar generation capacity by the year .[17] Five solar power stations are to be constructed, including both photovoltaic and concentrated solar power technology. The Moroccan Agency for Solar Energy (MASEN), a public-private venture, has been established to lead the project. The first plant will be commissioned in ,[18] and the entire project in . Once completed, the solar project will provide 38% of Morocco's annual electricity generation.
South Africa had MW of PV installations and 100 MW of concentrating solar thermal at the end of . It is expected to reach an installed capacity 8,400 MW by , along with 8,400 MW of wind power.[19] The country's insolation greatly exceeds the average values in Europe, Russia, and most of North America.[20]
Armenia due its geographical and climate properties is well-suited for the solar energy utilization. According to the Ministry of Energy Infrastructure and Natural Resources of Armenia the country is capable of producing kWh/m2 per year. For comparison European countries are capable of around kWh/m2 per year on average.[21] Two main panel types utilized in Armenia are the photovoltaic and thermal solar panels. The country is aiming to invest heavy in the segment of renewable energy, as that arises from the geopolitical situation in the region, where Armenia has tenuous relations with some competitive (due to distance) oil-rich suppliers of the region. Thus, besides the investment in the sector by the state - e.g. providing finance for solar energy utilization for rural areas, Armenia also prepared a suitable legislative base to help attract foreign investments of capital - e.g. the guarantee by the state to buy at least for 15 years the surplus energy that will be produced by the solar plants.[22] The country is aiming to developing its economy sustainably, through increase in the technological potential and productivity.
China is leading the world in solar PV generation, with the total installed capacity exceeding 600 GW by the end of .[4][26] Since overtaking Germany in , China has been #1 in the world in solar power.[27] China is the world's largest market for both photovoltaics and solar thermal energy. and in the last few years, more than half of the total PV additions came from the country. Solar power in the People's Republic of China is one of the biggest industries and the subsidies by the government have helped in bringing down the cost of solar power, not only in China, but the whole world. China also leads the world in solar water heating with 290 GWth in operation at the end of , accounting for about 70% of the total world capacity. China's goal is to reach 1,300 GW of Solar Capacity by .
India has the world's third fastest expanding solar power program (next only to China & USA). In the year alone India added a record 9,255 MW of solar power with another 9,627 MW of solar projects under development.[28][29][30][31] India launched its National Solar Mission in under the National Action Plan on Climate Change, with plans to generate 20 GW by . This target has been achieved four years ahead of its deadline with India surpassing 20 GW of installed solar capacity in January .[32][29][33][34][35] In January , Indian Prime Minister Narendra Modi announced an initiative to increase the solar capacity to 100 GW[36] and total renewable power capacity to 175 gigawatts (GW) by . This target is ambitious considering the worldwide installed solar capacity at that time was 177 GW, out of which only 2.5 GW was installed in India.
To reach the goal of 100 GW of installed solar capacity by , Modi's government has set a target to auction at least 77 gigawatts of additional solar power capacity by March .[37] A total of 1.2 GW of solar power is tendered in the first week of and a solar power tender of 20 GW, world's largest so far, is to be auctioned off in one go in .[37] Several large grid-scale solar parks are in operation, several of which are among the world's largest such as Kurnool Ultra Mega Solar Park with the capacity of 1,000 MW, the Kamuthi Solar Power Project with the capacity of 648 MW, the 345 MW Charanka Solar Park, the 480 MW Bhadla Solar Park with a proposed capacity of 2,255 MW and the Gujarat solar parks with a combined capacity of 605 MW.[38] In July , Indian Railways rolled out trains with rooftop solar to power the lights, fans and displays inside the coaches.[39][40] Cochin International Airport, seventh busiest in India, is the first one in the world to run entirely on solar power,[41][42] handling more than 1,000 flights a week. Similarly, the Union Territory of Diu is fully run by solar power.[43]
Solar power features prominently in Modi government's US$2.5 billion SAUBHAGYA scheme launched in July to electrify every Indian household by ' a huge task considering around 300 million people were without electricity. The use of local mini-grids run on solar power is "a big part of the push, with 60 percent of new connections expected to be to renewable power", according to a report by the International Energy Agency.[44] The government provides subsidy of up to 90% of the upfront capital cost to install solar-powered water pumping systems for irrigation and drinking water.[32] As of 30 November , more than 142,000 solar pumps have been installed to irrigate the agricultural fields.[33] This scheme weans farmers away from diesel-powered pumps and generates extra income for them by allowing to sell surplus power to the grid. It is one of the innovative ways that the government is empowering the rural population with the help of solar energy by addressing specific issues such as water availability. The solar panels are being built over the irrigation canals to preserve water from evaporation in drought-prone sunny areas. The world's first canal-top solar project was set up on Narmada in Gujarat in . For the last mile connectivity in remote and inaccessible areas, the government provides solar power packs of 200 to 300 watt-peak (Wp), along with battery bank, that includes five LED lights, one DC fan and one DC power plug.[34] Other schemes includes Solar Street Light Scheme, providing solar direct current lighting systems, solar lanterns, solar cookers, etc.
In January , the Prime Minister of India, Narendra Modi, and the former President of France, François Hollande, laid the foundation stone for the headquarters of the International Solar Alliance (ISA) in Gwalpahari, India, an alliance of 121 countries, announced at the Paris COP21 climate summit.[45][46] The ISA focuses on promoting and developing solar energy and reducing production and development costs through wider deployment of solar technologies in the developing world.[47][48] On 30 June , the alliance entered into a partnership with the World Bank for accelerating mobilization of finance for solar energy ' an estimated US$ billion in investments that will be needed by , to meet ISA's goals for the massive deployment of affordable solar energy worldwide.
At the World Future Energy Summit (WFES) held in Abu Dhabi in January , the government of India announced the setting up of a $350 million solar development fund to enable financing of solar projects. Prime Minister Narendra Modi promoted solar energy during the plenary speech at World Economic Forum annual meet in Davos in and invited investments in the sector in India promising ease of doing business.[49] Modi's ambitious plan when announced in the leading up to the Paris COP21 climate summit received much skepticism and the government's strategy to scale-up the renewable energy by relying on competitive bidding to reduce the cost was regarded as infeasible. However, starting around ', new renewable energy became cheaper to build than running existing coal-fired plants in India. As of January , 65% of coal power generation in India is being sold at higher rates than new renewable energy bids in competitive power auctions.[50] India has scrapped tenders for coal-fired power stations and around 80% of new coal-fired power plants under planning have been halted or canceled.[51] In the month of May alone, plans for building coal power for nearly 14 GW ' about the same as the total amount in the UK ' were canceled on account of declining solar costs.[52] Analyst Tim Buckley said "Measures taken by the Indian Government to improve energy efficiency coupled with ambitious renewable energy targets and the plummeting cost of solar has had an impact on existing as well as proposed coal fired power plants, rendering an increasing number as financially unviable. India's solar tariffs have literally been free falling in recent months."[52][53] As reported by NYTimes in May , "According to research released last week at a United Nations climate meeting in Germany, China and India should easily exceed the targets they set for themselves in the Paris Agreement..... India is now expected to obtain 40 percent of its electricity from non-fossil fuel sources by , eight years ahead of schedule."[54][55]
Solar power in Japan has been expanding since the late s. By the end of , cumulative installed PV capacity reached over 50 GW with nearly 8 GW installed in the year . The country is a leading manufacturer of solar panels and is in the top 4 ranking for countries with the most solar PV installed. Overall installed capacity is now estimated to be sufficient to supply 2.5% of the nation's annual electricity demand.[9] The insolation is good at about 4.3 to 4.8 kWh/(m2·day).
Japan was the world's second largest market for solar PV growth in and , adding a record 6.9 GW and 9.6 GW of nominal nameplate capacity, respectively.
Pakistan has set up a solar power park, funded by the Chinese company TBEA, in the Cholistan desert near Yazman, about 30 kilometers from the eastern city of Bahawalpur. The solar project, which is set up on 5,000 acres, is producing 100 MW . Another Chinese company, Zonergy has installed a Solar Power Plant with capacity of 900 MW in the same region.
The first unit was completed with a cost of 15 billion rupees in a short period of eleven months. The electricity generated by the project was added to the national grid through grid stations and power supply transmission lines. The second phase of the park, consisting of 900 MW, was completed in two years with the help of Chinese Government.[56][57][58]
The energy crisis in Pakistan during the decade of had led to a shortage in electricity, in response the Pakistani people are increasingly turning to solar power to get electricity at homes. The government is targeting to cover 40% of its energy consumption from solar and renewables by . Years and saw a huge demand on residential solar systems in Pakistan.
Total capacity for residential homes was estimated at 100 MW by , with further 200 MW installed in and another 500 MW installed in , for a cumulative installed capacity of approximately MW at the end of .
In , the Philippines generated a modest 1,246 GWh of solar energy.[59] Given the country's geographic location advantage and the high potential for generating electricity from solar energy, its generation capacity is expected to increase from the current 1.2% of the total 23 GW to at least 3.5% of the total 43 GW generating capacity by .[60]
The Sinan solar power plant is a 24 MW photovoltaic power station in Sinan, Jeollanam-do, South Korea. As of , it is the largest photovoltaic installation in Asia. The project was developed by the German company Conergy and it cost US$150 million. It was built by the Dongyang Engineering & Construction Corporation.[61]
The government has a long-term plan to make the PV solar capacity become 6.5 GW by and 20 GW by .[62] To give further incentives, the government has designated solar energy and LED industries as two industries to actively develop in the near future.
Uzbekistan has been working towards increasing its solar power capacity, with a goal of reaching 4 GW by and 5 GW by . However, additional policies and support mechanisms may be needed to reach the country's maximum solar energy potential and continue to increase its use of solar energy in the coming years.[63]
In , Thailand has more solar power capacity than all the rest of Southeast Asia combined. Thailand's solar capacity will rise to 2,500-2,800 MW in the end of from about 1,300 MW in . Thailand aims to increase its solar capacity to 6,000 MW by . That would account for 9% of total electricity generation.[64]
There is no oil on Israeli land and the country's tenuous relations with its oil-rich neighbors (see Arab'Israeli conflict) has made the search for a stable source of energy a national priority.[65][66] So Israel has embraced solar energy. Israeli innovation and research has advanced solar technology to a degree that it is almost cost-competitive with fossil fuels.[67] Its abundant sun made the country a natural location for the promising technology. The high amount of sunshine received by the Negev Desert every year has spurred an internationally renowned solar research and development industry, with Arnold Goldman (founder of Luz, Luz II and BrightSource Energy), Harry Tabor and David Faiman of the National Solar Energy Center its more prominent members.[65] At the end of a feed-in tariff scheme was approved, which immediately put in motion the building of many residential and commercial solar energy power station projects. Luz and Bright Source R&D centers in Jerusalem pioneered industrial scale solar energy fields with initial installations in California's Mojave Desert.
The ongoing economic crisis in Lebanon has led to a shortage in electricity, in response the Lebanese people are increasingly turning to solar power to provide electricity. The government is targeting to cover 30% of its energy consumption from renewables by .[68] Years and saw a huge demand on residential solar systems. No given official numbers yet.
Total capacity was estimated at 90 MW by , with further 100 MW installed in and another 500 MW installed in , for a cumulative installed capacity of approximately 690 MW at the end of .[69]
The Saudi agency in charge of developing the nations renewable energy sector, Ka-Care, announced in May that the nation would install 41 gigawatts of solar capacity by , this plan was later revised to 9.5 GW installed capacity. At the time of this announcement, Saudi Arabia had only 0.003 gigawatts of installed solar energy capacity.[70]
In there has been a proposal for a total of 200 GW of solar power capacity by . The newly announced project is estimated to cost $200 billion through .[citation needed]
Registered solar capacity of Turkey stood at 3,420 MW by the end of ,[71] although the actual installation can be lower. The increase in registrations mostly happened in December and was attributed to a reduction in feed-in tariffs starting from (from US$0.13 to US$0.10). By April , Turkey's installed capacity reached 13.9 GW and supplies 6% of total electric consumption of the country.[72] In , Turkey is the biggest producer of the solar panels in Europe.[73]
In , the Shams solar power station, a 100 MW Concentrated solar power plant near Abu Dhabi became operational. The US$600 million Shams 1 is the largest CSP plant outside the United States and Spain and is expected to be followed by two more stations, Shams 2 and Shams 3.[74]
European deployment of photovoltaics has slowed down considerably since the record year of . This is mainly due to the strong decline of new installations in some major markets such as Germany and Italy, while the United Kingdom and some smaller European countries are still expected to break new records in .[75] Spain deployed about 350 MW (+18%) of concentrated solar power (CSP) in , and remains a worldwide leader of this technology. European countries still account for about 60 percent of worldwide deployed capacity of solar power in .[76][77]
Austria had 421.7 MW of photovoltaics at the end of , 234.5 MW of which was installed that year. Most of it is grid connected.[78] Photovoltaic deployment in Austria had been rather modest for many years, while in other European countries, such as Germany, Italy or Spain installations were booming with new records year after year until . The tide has turned in . New PV installations jumped to more than 200 megawatt per year in Austria in an overall declining European solar market. The European Photovoltaic Industry Association forecasts, that Austria, together with other midsized countries, will contribute significantly to European PV deployment in the coming years.[79]
In October , the city of Antwerp announced that they wanted to install 2,500 m2 of solar panels on the roofs of public buildings, which would be worth 265,000 kWh per annum.[80]
In December , Katoen Natie announced that they would install 800,000 m2 of solar panels in various places, including Antwerp.[81] It is expected that the installed solar power in the Flemish region will be increased by 25% when finished,[81] resulting in the largest installation in Europe.,[81] the total cost being 166 million euros.[82]
Bulgaria had seen a record year in when its PV capacity multiplied several times over to more than 1 GW. In , however, further deployment came to a halt.
Germany is among the top-4 ranked countries in terms of installed photovoltaic solar capacity. The overall capacity has reached 42.98 gigawatts (GW) by the end of .[83][84] Photovoltaics contribute almost 6% to the national electricity demands. Germany has seen an outstanding period of photovoltaic installations from until . During this boom, about 22 GW, or a third of the worldwide PV installations of that period was deployed in Germany alone. However, the boom period ended in , and Germany's national PV market has since declined significantly, due to the amendments in the German Renewable Energy Act (EEG) that reduced feed-in tariffs and set constraints on utility-scaled installations, limiting their size to no more than 10 MW.[85]
The current version of the EEG only guarantees financial assistance as long as the overall PV capacity has not yet reached 52 GW. It also foresees to regulate annual PV growth within a range of 2.5 GW to 3.5 GW by adjusting the guaranteed fees accordingly. The legislative reforms stipulates a 40 to 45 percent share from renewable energy sources by and a 55 to 60 percent share by .[86]
Large PV power plants in Germany include Senftenberg Solarpark, Finsterwalde Solar Park, Lieberose Photovoltaic Park, Strasskirchen Solar Park, Waldpolenz Solar Park, and Köthen Solar Park.
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By September , the total installed photovoltaic capacity in Greece had reached 2,523.5 MWp from which the 987.2 MWp were installed in the period between January'September despite the unprecedented financial crisis.[87] Greece ranks fifth worldwide with regard to per capita installed PV capacity. It is expected that PV produced energy will cover up to 7% of the country's electricity demand in .[88]
A large solar PV plant is planned for the island of Crete. Research continues into ways to make the actual solar collecting cells less expensive and more efficient. Smaller solar PV farms exist throughout the country.
Italy added nearly 400 MW of solar PV capacity in the year reaching a total installed PV capacity of around 19.7 GW.[89]
At the end of there were 155,977 solar PV plants, with a total capacity of 3,469.9 MW.[90]:'24' The number of plants and the total capacity surged in and following high incentives from Conto Energia. The total power capacity installed tripled and plants installed doubled in compared to , with an increase of plant's average dimensions.[90]:'24'
Energy production from photovoltaics was 1,905.7 GWh in . Annual growth rates were fast in recent years: 251% in and 182% in .[90]:'30' More than a fifth of the total production in came from the southern region of Apulia.[90]:'30'
In December , solar PV in Italy provided employment to 100,000 people especially in design and installation.[91]
A large photovoltaic power project, the Serpa solar power plant, has been completed in Portugal, in one of Europe's sunniest areas.[92] The 11 megawatt plant covers 150 acres (0.61 km2) and comprises 52,000 PV panels. The panels are raised 2 metres off the ground and the area will remain productive grazing land. The project will provide enough energy for 8,000 homes and will save an estimated 30,000 tonnes of carbon dioxide emissions per year.[93][94]
The Moura photovoltaic power station is located in the municipality of Moura, in the interior region of Alentejo, Portugal. Its construction involves two stages, with the first one being constructed in 13 months and completed in , and the other will be completed by , at a total cost of '250 million for the project.
Romania has an installed capacity of 1.2 GW as of . Romania is located in an area with a good solar potential of 210 sunny days per year and with an annual solar energy flux between 1,000 kWh/m2/year and 1,300 kWh/m2/year. The most important solar regions of Romania are the Black Sea coast, Dobrogea and Oltenia.
Current production of 5 MW is very modest, however there are plans for an expansion in capacity by 70 MW in '13 in a $210 million joint project by Rosnano and Renova.[95] The development of renewable energy in Russia has been held back by the lack of a conducive framework and government policy.[96]
Spain was an early adopter in the development of solar energy, since it is one of the countries of Europe with more hours of sunshine. The Spanish government committed to achieving a target of 12 percent of primary energy from renewable energy by with an installed solar generating capacity of megawatts (MW).[97] Spain is the top tenth in the installed PV solar capacity and used to export 80 percent of solar power output to Germany.[98] Total solar power in Spain reached nearly 7 GW by the end of including both installed PV and CSP.[99] Nearly 8 TWh of electricity was generated from photovoltaics, and 5 TWh from CSP plants in .[100] Solar PV accounted for nearly 3% of total electricity generation in along with an additional of 1.9% from solar thermal.[101]
Through a ministerial ruling in March , the Spanish government removed economic barriers to the connection of renewable energy technologies to the electricity grid. The Royal Decree 436/ equalized conditions for large-scale solar thermal and photovoltaic plants and guaranteed feed-in tariffs, which led to a boost in solar power adoption in Spain.[102] In the wake of the financial crisis, the Spanish government drastically cut its subsidies for solar power and capped future increases in capacity at 500 MW per year leading to a stagnation in the new installations.[103]
At the end of , there were 230,000 solar power projects in the United Kingdom,[104] with a total installed generating capacity of 750 megawatts (MW).[105] By February the installed capacity had reached 1,000 MW.[106] 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 .[104] In , the government said that 4 million homes across the UK will be powered by the sun within eight years,[107] representing 22,000 MW of installed solar power capacity by .[104] As of April , PV capacity had risen to 6,562 MW across 698,860 installations.[108] The latest government figures indicates UK solar photovoltaic (PV) generation capacity has reached 12,404 MW in December .[109]
Sarnia Photovoltaic Power Plant near Sarnia, Ontario, was in September the world's largest photovoltaic plant with an installed capacity of 80 MWp.[110] until surpassed by a plant in China. The Sarnia plant covers 950 acres (380 ha) and contains about 10.3 million sq feet / 966,000 square metres (96.6 ha), which is about 1.3 million thin film panels. The expected annual energy yield is about 120,000 MW·h, which if produced in a coal-fired plant would require emission of 39,000 tonnes of CO2 per year.
Canada has many regions that are sparsely populated and difficult to access, but also does not have optimal access to sunlight given the high latitudes of much of the country. Photovoltaic cells are increasingly used as standalone units, mostly as off-grid distributed electricity generation to power remote homes, telecommunications equipment, oil and pipeline monitoring stations and navigational devices. The Canadian PV market has grown quickly and Canadian companies make solar modules, controls, specialized water pumps, high efficiency refrigerators and solar lighting systems.[111] Ontario has subsidized solar power energy to promote its growth.
One of the most important uses for PV cells is in northern communities, many of which depend on high-cost diesel fuel to generate electricity. Since the s, the federal government and industry has encouraged the development of solar technologies for these communities. Some of these efforts have focused on the use of hybrid systems that provide power 24 hours a day, using solar power when sunlight is available, in combination with another energy source.[111]
In June , the Girasol Solar Park was inaugurated as the largest solar PV farm in the country and the entire Antilles region. It has a total installed capacity of 120 megawatts and it is estimated that it will produce 240,000 MWh per year, enough to supply the electricity consumption of more than 100,000 Dominican homes. Girasol will avoid the emission into the atmosphere of 150,000 tons of CO2 annually and the import of 400,000 barrels of oil, which contributes to mitigate the effects of climate change and represents savings in foreign exchange, respectively.[112][113]
Before this, in the Dominican Republic, the Monte Plata Project was the largest operating solar plant in the Caribbean with an installed capacity of 69MW.[114][115]
In , a 1.6 MW photovoltaic rooftop system at a seaside resort, located near the parish capital, Lucea in the parish of Hanover, was inaugurated.[116][117] It was developed by Sofos Jamaica,[118] and is the largest in Jamaica until a 20 MW utility-scale solar PV plant is constructed in the Parish of Clarendon in .[119][120][121]
No central database yet exists with information on installed capacity but, web searches reveal media articles, press releases and vendor web pages that share some details. Based on these sources up to the middle of , there was over 3.7 MW connected to the grid but, a sizeable portion of that total, including the 1.6 MW rooftop system of a seaside resort[117] and a commercial 500 kW-system in the country's capital, Kingston,[122] do not feed power back to the grid despite being interconnected.
Mexico was the greatest solar energy producer in Latin America before being overtaken by Brazil. Currently, it is the second largest Latin American producer, with an installed capacity of over 9 GW (in ).[123]
Solar power in the United States includes utility-scale solar power plants as well as local distributed generation, mostly from rooftop photovoltaics. Installations have been growing rapidly in recent years as costs have declined with the U.S. hitting 76 GW of installed solar PV capacity at the end of .[124] The United States is in the top 4 ranking for countries with the most solar PV installed. The American Solar Energy Industries Association projected that total solar PV capacity would reach over 100 GW by .[125]
Electrical generation has been rising in tandem with capacity as U.S. Energy Information Administration data show that utility-scale solar power generated 1.8% of total U.S. electricity in , up from <0.1% in .[126][127] This figure is even higher in certain states, already reaching over 10% of generation in five states (California, Hawaii, Nevada, Massachusetts, and Vermont).[128]
The United States conducted much early research in photovoltaics and concentrated solar power and is among the top countries in the world in deploying the technology, being home to 4 of the 10 largest utility-scale photovoltaic power stations in the world as of . The energy resource continues to be encouraged through official policy with 29 states having set mandatory renewable energy targets as of October , solar power being specifically included in 20 of them.[129][130] Aside from utility projects, roughly 784,000 homes and businesses in the nation have installed solar systems through the second quarter of .[131]
A number of Pacific island states have committed to high percentages of renewable energy use, both to serve as an example to other countries and to cut the high costs of imported fuels. A number of solar installations have been financed and assisted by Australia, Japan, New Zealand and the United Arab Emirates.[132] Solar farms have gone online in Tuvalu, Fiji and Kiribati.[133] UAE-Pacific Partnership Fund solar projects completed by Masdar in included: 1MW in the Solomon Islands, 500 kW in Nauru, 600 kW in the Marshall Islands, 600 kW in Micronesia and a 450 kW solar-diesel hybrid plant in Palau.[134][135] American Samoa has 2 MW of solar installed at Pago Pago Airport.[136]
Australia had over 23,466 megawatts (MW) of installed photovoltaic (PV) solar power by September making it a leader in solar power deployment on a watts per capita basis.[137] The largest solar power station in Australia is the 313 MW Limondale Solar Farm. Other significant solar arrays include the 275 MW Darlington Point Solar Farm, 220 MW Bungala solar plant, 200 MW Sunraysia Solar Farm and 174 MW Wellington Solar Farm.
A 9 MWe (megawatts, electrical) solar thermal `coal saver' system was constructed at Liddell power station. The system used `compact linear Fresnel reflector' technology developed in Australia. It provided solar-powered steam to the 600 MW black coal power station's boiler feedwater heater. By , it was "effectively" closed and an effort to build a similar 40 MW solar boost at Kogan Creek coal power station was stopped.[138]
The planned Australia'ASEAN Power Link aims to connect Singapore to 26,000MW of solar and wind energy in the north west of Australia.
Solar power in New Zealand currently only generates 0.1 percent of New Zealand's electricity since more emphasis has been placed on hydroelectric, geothermal, and wind power in New Zealand's push for renewable energy. Solar power systems were installed in 42 schools in New Zealand in the Schoolgen program, a program developed by Genesis Energy to educate students in solar power. Each participating school has a 2 kW solar panel. Between February and 29 December 29, , 395.714 MWh were produced.[139]
In , New Zealand's largest thin film solar array was the 20 kW array installed at Hubbard Foods[140] A 21.6 kW photovoltaic array was installed in Queenstown in .[141] In April , New Zealand's largest solar power plant was the 68.4 kW array installed to meet 70% of the electricity needs of South Auckland Forging Engineering Ltd, which is expected to pay for itself in eight to nine years.[142][143]
Argentina reached a milestone of 1 GW of solar power in .[citation needed]
Brazil began to install solar energy on a massive scale starting in , quickly becoming the Latin American country with the most solar energy installed. The total installed solar power in Brazil was estimated at 21 GW at October , generating approximately 2.48% of the country's electricity demand. In Brazil will be among the 10 largest countries in the world in terms of installed solar power.[144] In , Brazil was the 14th country in the world in terms of installed solar power (7.8 GW).[145]
In , Brazil entered, for the first time, the list of the ten countries with the highest accumulated installed power from photovoltaic solar source. The country ended with 24 gigawatts (GW) of solar operating power. With this result, Brazil took eighth place in the international ranking.[146]
Chile is currently the third Latin American country (and second in South America) with the most installed solar energy, 4.4 GW in .[147] As the Atacama Desert has the highest solar irradiation in the world, and Chile has always had problems obtaining energy (the country basically does not produce oil, gas and coal), renewable energy is seen as the solution for the country's shortcomings in the energy field.[148][149]
The 246MW El Romero solar photovoltaic plant open in November at Vallenar in the Atacama region[150] It was the largest solar farm in Latin America when it opened.
By the first half of Chile reached 546 MW of PV installed capacity, and 1,647 MW are under construction.[151]
The following is a list of photovoltaic power stations that are larger than 500 megawatts (MW) in current net capacity.[1] Most are individual photovoltaic power stations, but some are groups of co-located plants owned by different independent power producers and with separate transformer connections to the grid. Wiki-Solar reports total global capacity of utility-scale photovoltaic plants to be some 96 GWAC which generated 1.3% of global power by the end of .[2][3][4][5][6]
The size of photovoltaic power stations has increased progressively over the last decade with frequent new capacity records. The 97 MW Sarnia Photovoltaic Power Plant went online in . Huanghe Hydropower Golmud Solar Park reached 200 MW in . In August , Agua Caliente Solar Project in Arizona reached 247 MW only to be passed by three larger plants in . In , two plants were tied as largest: Topaz Solar Farm, a PV solar plant at 550 MWAC in central coast area and a second 550-MW plant, the Desert Sunlight Solar Farm located in the far eastern desert region of California.[7][8] These two plants were superseded by a new world's largest facility in June when the 579 MWAC Solar Star project went online in the Antelope Valley region of Los Angeles County, California.[9]
Gonghe Talatan Solar Park (in Gonghe County, Qinghai, China) as the largest solar park in the world with a capacity of 15,600MW as of and a planning area of 609 km2, which is close to the land area of Singapore.[10]
As with other forms of power generation, there are important regional habitat modification problems, such as the heat island effect, and the resulting stress to local threatened species.[11] Several planned large facilities in the U.S. state of California have been downsized due in part to such concerns.[12][13]
The following is a list of operating solar farms that are 500 MW or larger.
These lists include a mixture of individual solar power plants and of groups of co-located projects, usually called solar parks.[14]
This is a dynamic list and may never be able to satisfy particular standards for completeness. You can help by adding missing items with reliable sources. Name Country Location CapacityMedia related to Photovoltaic power stations at Wikimedia Commons
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