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Photovoltaic power station

February 16, 2024

"Solar power plant" redirects here. For list of solar thermal stations, see List of solar thermal power stations.

A photovoltaic power station, also known as a solar park, solar farm, or solar power plant, is a large-scale grid-connected photovoltaic power system (PV system) designed for the supply of merchant power. They are different from most building-mounted and other decentralized solar power because they supply power at the utility level, rather than to a local user or users. Utility-scale solar is sometimes used to describe this type of project.

The 40.5 MW Jännersdorf Solar Park in Prignitz, Germany

This approach differs from concentrated solar power, the other major large-scale solar generation technology, which uses heat to drive a variety of conventional generator systems. Both approaches have their own advantages and disadvantages, but to date, for a variety of reasons, photovoltaic technology has seen much wider use. As of 2019, about 97% of utility-scale solar power capacity was PV.[1][2]

In some countries, the nameplate capacity of photovoltaic power stations is rated in megawatt-peak (MWp), which refers to the solar array's theoretical maximum DC power output. In other countries, the manufacturer states the surface and the efficiency. However, Canada, Japan, Spain, and the United States often specify using the converted lower nominal power output in MWAC, a measure more directly comparable to other forms of power generation. Most solar parks are developed at a scale of at least 1 MWp. As of 2018, the world's largest operating photovoltaic power stations surpassed 1 gigawatt. At the end of 2019, about 9,000 solar farms were larger than 4 MWAC (utility scale), with a combined capacity of over 220 GWAC.[1]

Most of the existing large-scale photovoltaic power stations are owned and operated by independent power producers, but the involvement of community and utility-owned projects is increasing.[3] Previously, almost all were supported at least in part by regulatory incentives such as feed-in tariffs or tax credits, but as levelized costs fell significantly in the 2010s and grid parity has been reached in most markets, external incentives are usually not needed.

History edit

 
Serpa Solar Park built in Portugal in 2006

The first 1 MWp solar park was built by Arco Solar at Lugo near Hesperia, California, at the end of 1982,[4] followed in 1984 by a 5.2 MWp installation in Carrizo Plain.[5] Both have since been decommissioned (although a new plant, Topaz Solar Farm, was commissioned in Carrizo Plain in 2015).[6] The next stage followed the 2004 revisions[7] to the feed-in tariffs in Germany,[8] when a substantial volume of solar parks were constructed.[8]

Several hundred installations over 1 MWp have since been installed in Germany, of which more than 50 are over 10 MWp.[9] With its introduction of feed-in tariffs in 2008, Spain briefly became the largest market with some 60 solar parks over 10 MW,[10] but these incentives have since been withdrawn.[11] The USA,[12] China,[13] India,[14] France,[15] Canada,[16] Australia,[17] and Italy,[18] among others, have also become major markets as shown on the list of photovoltaic power stations.

The largest sites under construction have capacities of hundreds of MWp and some more than 1 GWp.[19][20][21]

Siting and land use edit

 
Mosaic distribution of the photovoltaic (PV) power plants in the landscape of Southeast Germany

The land area required for a desired power output varies depending on the location,[22] the efficiency of the solar panels,[23] the slope of the site,[24] and the type of mounting used. Fixed tilt solar arrays using typical panels of about 15% efficiency[25] on horizontal sites, need about 1 hectare (2.5 acres)/MW in the tropics and this figure rises to over 2 hectares (4.9 acres) in northern Europe.[22]

Because of the longer shadow the array casts when tilted at a steeper angle,[26] this area is typically about 10% higher for an adjustable tilt array or a single axis tracker, and 20% higher for a 2-axis tracker,[27] though these figures will vary depending on the latitude and topography.[28]

The best locations for solar parks in terms of land use are held to be brown field sites, or where there is no other valuable land use.[29] Even in cultivated areas, a significant proportion of the site of a solar farm can also be devoted to other productive uses, such as crop growing[30][31] or biodiversity.[32] The change in albedo affects local temperature. One study claims a temperature rise due to the heat island effect,[33] and another study claims that surroundings in arid ecosystems become cooler.[34]

Agrivoltaics edit

Agrivoltaics is using the same area of land for both solar photovoltaic power and agriculture. A recent study found that the value of solar generated electricity coupled to shade-tolerant crop production created an over 30% increase in economic value from farms deploying agrivoltaic systems instead of conventional agriculture.[35]

Solar landfill edit

 
Solar arrays on a full landfill in Rehoboth, MA

A Solar landfill is a repurposed used landfill that is converted to a solar array solar farm.[36]

Co-location edit

In some cases, several different solar power stations with separate owners and contractors are developed on adjacent sites.[37][38] This can offer the advantage of the projects sharing the cost and risks of project infrastructure such as grid connections and planning approval.[39][40] Solar farms can also be co-located with wind farms.[41]

Sometimes 'solar park' is used to describe a set of individual solar power stations, which share sites or infrastructure,[39][42][43] and 'cluster' is used where several plants are located nearby without any shared resources.[44] Some examples of solar parks are the Charanka Solar Park, where there are 17 different generation projects; Neuhardenberg,[45][46] with eleven plants, and the Golmud solar park with total reported capacity over 500 MW.[47][48] An extreme example would be calling all of the solar farms in the Gujarat state of India a single solar park, the Gujarat Solar Park.

To avoid land use altogether, in 2022, a 5 MW floating solar park was installed in the Alqueva Dam reservoir, Portugal, enabling solar power and hydroelectric energy to be combined.[49] Separately, a German engineering firm committed to integrating an offshore floating solar farm with an offshore wind farm to use ocean space more efficiently.[49] The projects involve "hybridization", in which different renewable energy technologies are combined in one site.[49]

Solar farms in space edit

The first successful test in January 2024 of a solar farm in space—collecting solar power from a photovoltaic cell and beaming energy down to Earth—constituted an early feasibility demonstration completed.[50] Such setups are not limited by cloud cover or the Sun’s cycle.[50]

Technology edit

Most solar parks are ground mounted PV systems, also known as free-field solar power plants.[51] They can either be fixed tilt or use a single axis or dual axis solar tracker.[52] While tracking improves the overall performance, it also increases the system's installation and maintenance cost.[53][54] A solar inverter converts the array's power output from DC to AC, and connection to the utility grid is made through a high voltage, three phase step up transformer of typically 10 kV and above.[55][56]

Solar array arrangements edit

The solar arrays are the subsystems which convert incoming light into electrical energy.[57] They comprise a multitude of solar panels, mounted on support structures and interconnected to deliver a power output to electronic power conditioning subsystems.[58] The majority are free-field systems using ground-mounted structures,[51] usually of one of the following types:

Fixed arrays edit

Many projects use mounting structures where the solar panels are mounted at a fixed inclination calculated to provide the optimum annual output profile.[52] The panels are normally oriented towards the Equator, at a tilt angle slightly less than the latitude of the site.[59] In some cases, depending on local climatic, topographical or electricity pricing regimes, different tilt angles can be used, or the arrays might be offset from the normal east–west axis to favour morning or evening output.[60]

A variant on this design is the use of arrays, whose tilt angle can be adjusted twice or four times annually to optimise seasonal output.[52] They also require more land area to reduce internal shading at the steeper winter tilt angle.[26] Because the increased output is typically only a few percent, it seldom justifies the increased cost and complexity of this design.[27]

Dual axis trackers edit

Main article: Solar tracker
 
Bellpuig Solar Park near Lerida, Spain uses pole-mounted 2-axis trackers

To maximise the intensity of incoming direct radiation, solar panels should be orientated normal to the sun's rays.[61] To achieve this, arrays can be designed using two-axis trackers, capable of tracking the sun in its daily movement across the sky, and as its elevation changes throughout the year.[62]

These arrays need to be spaced out to reduce inter-shading as the sun moves and the array orientations change, so need more land area.[63] They also require more complex mechanisms to maintain the array surface at the required angle. The increased output can be of the order of 30%[64] in locations with high levels of direct radiation, but the increase is lower in temperate climates or those with more significant diffuse radiation, due to overcast conditions. So dual axis trackers are most commonly used in subtropical regions,[63] and were first deployed at utility scale at the Lugo plant.[4]

Single axis trackers edit

A third approach achieves some of the output benefits of tracking, with a lesser penalty in terms of land area, capital and operating cost. This involves tracking the sun in one dimension – in its daily journey across the sky – but not adjusting for the seasons.[65] The angle of the axis is normally horizontal, though some, such as the solar park at Nellis Air Force Base, which has a 20° tilt,[66] incline the axis towards the equator in a north–south orientation – effectively a hybrid between tracking and fixed tilt.[67]

Single axis tracking systems are aligned along axes roughly north–south.[68] Some use linkages between rows so that the same actuator can adjust the angle of several rows at once.[65]

Power conversion edit

Solar panels produce direct current (DC) electricity, so solar parks need conversion equipment[58] to convert this to alternating current (AC), which is the form transmitted by the electricity grid. This conversion is done by inverters. To maximise their efficiency, solar power plants also vary the electrical load, either within the inverters or as separate units. These devices keep each solar array string close to its peak power point.[69]

There are two primary alternatives for configuring this conversion equipment; centralized and string inverters,[70] although in some cases individual, or micro-inverters are used.[71] Single inverters allows optimizing the output of each panel, and multiple inverters increases the reliability by limiting the loss of output when an inverter fails.[72]

Centralized inverters edit

 
Waldpolenz Solar Park[73] is divided into blocks, each with a centralised inverter

These units have relatively high capacity, typically of the order between 1 MW up to 7 MW for newer units (2020),[74] so they condition the output of a substantial block of solar arrays, up to perhaps 2 hectares (4.9 acres) in area.[75] Solar parks using centralized inverters are often configured in discrete rectangular blocks, with the related inverter in one corner, or the centre of the block.[76][77][78]

String inverters edit

String inverters are substantially lower in capacity than central inverters, of the order of 10 kW up to 250 KW for newer models (2020),[74][79] and condition the output of a single array string. This is normally a whole, or part of, a row of solar arrays within the overall plant. String inverters can enhance the efficiency of solar parks, where different parts of the array are experiencing different levels of insolation, for example where arranged at different orientations, or closely packed to minimise site area.[72]

Transformers edit

The system inverters typically provide power output at voltages of the order of 480 VAC up to 800 VAC.[80][81] Electricity grids operate at much higher voltages of the order of tens or hundreds of thousands of volts,[82] so transformers are incorporated to deliver the required output to the grid.[56] Due to the long lead time, the Long Island Solar Farm chose to keep a spare transformer onsite, as transformer failure would have kept the solar farm offline for a long period.[83] Transformers typically have a life of 25 to 75 years, and normally do not require replacement during the life of a photovoltaic power station.[84]

System performance edit

Main article: Photovoltaic system performance
 
Power station in Glynn County, Georgia

The performance of a solar park depends on the climatic conditions, the equipment used and the system configuration. The primary energy input is the global light irradiance in the plane of the solar arrays, and this in turn is a combination of the direct and the diffuse radiation.[85] In some regions soiling, the accumulation of dust or organic material on the solar panels that blocks incident light, is a significant loss factor.[86]

A key determinant of the output of the system is the conversion efficiency of the solar panels, which depends in particular on the type of solar cell used.[87]

There will be losses between the DC output of the solar panels and the AC power delivered to the grid, due to a wide range of factors such as light absorption losses, mismatch, cable voltage drop, conversion efficiencies, and other parasitic losses.[88] A parameter called the 'performance ratio'[89] has been developed to evaluate the total value of these losses. The performance ratio gives a measure of the output AC power delivered as a proportion of the total DC power which the solar panels should be able to deliver under the ambient climatic conditions. In modern solar parks the performance ratio should typically be in excess of 80%.[90][91]

System degradation edit

Early photovoltaic systems output decreased as much as 10%/year,[5] but as of 2010 the median degradation rate was 0.5%/year, with panels made after 2000 having a significantly lower degradation rate, so that a system would lose only 12% of its output performance in 25 years. A system using panels which degrade 4%/year will lose 64% of its output during the same period.[92] Many panel makers offer a performance guarantee, typically 90% in ten years and 80% over 25 years. The output of all panels is typically warranted at plus or minus 3% during the first year of operation.[93]

The business of developing solar parks edit

 
Westmill Solar Park[94] is the world's largest community-owned solar power station[95]

Solar power plants are developed to deliver merchant electricity into the grid as an alternative to other renewable, fossil or nuclear generating stations.[96]

The plant owner is an electricity generator. Most solar power plants today are owned by independent power producers (IPP's),[97] though some are held by investor- or community-owned utilities.[98]

Some of these power producers develop their own portfolio of power plants,[99] but most solar parks are initially designed and constructed by specialist project developers.[100] Typically the developer will plan the project, obtain planning and connection consents, and arrange financing for the capital required.[101] The actual construction work is normally contracted to one or more engineering, procurement, and construction (EPC) contractors.[102][unreliable source?]

Major milestones in the development of a new photovoltaic power plant are planning consent,[103] grid connection approval,[104] financial close,[105] construction,[106] connection and commissioning.[107] At each stage in the process, the developer will be able to update estimates of the anticipated performance and costs of the plant and the financial returns it should be able to deliver.[108]

Planning approval edit

 
Acceptance of wind and solar facilities in one's community is stronger among U.S. Democrats (blue), while acceptance of nuclear power plants is stronger among U.S. Republicans (red).[109]

Photovoltaic power stations occupy at least one hectare for each megawatt of rated output,[110] so require a substantial land area; which is subject to planning approval. The chances of obtaining consent, and the related time, cost and conditions, vary by jurisdiction and location. Many planning approvals will also apply conditions on the treatment of the site after the station has been decommissioned in the future.[81] A professional health, safety and environment assessment is usually undertaken during the design of a PV power station in order to ensure the facility is designed and planned in accordance with all HSE regulations.

Grid connection edit

The availability, locality and capacity of the connection to the grid is a major consideration in planning a new solar park, and can be a significant contributor to the cost.[111]

Most stations are sited within a few kilometres of a suitable grid connection point. This network needs to be capable of absorbing the output of the solar park when operating at its maximum capacity. The project developer will normally have to absorb the cost of providing power lines to this point and making the connection; in addition often to any costs associated with upgrading the grid, so it can accommodate the output from the plant.[112] Therefore, solar power stations are sometimes built at sites of former coal-fired power stations to reuse existing infrastructure.[113]

Operation and maintenance edit

Once the solar park has been commissioned, the owner usually enters into a contract with a suitable counterparty to undertake operation and maintenance (O&M).[114] In many cases this may be fulfilled by the original EPC contractor.[115]

Solar plants' reliable solid-state systems require minimal maintenance, compared to rotating machinery.[116] A major aspect of the O&M contract will be continuous monitoring of the performance of the plant and all of its primary subsystems,[117] which is normally undertaken remotely.[118] This enables performance to be compared with the anticipated output under the climatic conditions actually experienced.[105] It also provides data to enable the scheduling of both rectification and preventive maintenance.[119] A small number of large solar farms use a separate inverter[120][121] or maximizer[122] for each solar panel, which provide individual performance data that can be monitored. For other solar farms, thermal imaging is used to identify non-performing panels for replacement.[123]

Power delivery edit

A solar park's income derives from the sales of electricity to the grid, and so its output is metered in real-time with readings of its energy output provided, typically on a half-hourly basis, for balancing and settlement within the electricity market.[124]

Income is affected by the reliability of equipment within the plant and also by the availability of the grid network to which it is exporting.[125][unreliable source?] Some connection contracts allow the transmission system operator to curtail the output of a solar park, for example at times of low demand or high availability of other generators.[126] Some countries make statutory provision for priority access to the grid[127] for renewable generators, such as that under the European Renewable Energy Directive.[128]

Economics and finance edit

In recent years, PV technology has improved its electricity generating efficiency, reduced the installation cost per watt as well as its energy payback time (EPBT). It has reached grid parity in most parts of the world and become a mainstream power source.[129][130][131]

As solar power costs reached grid parity, PV systems were able to offer power competitively in the energy market. The subsidies and incentives, which were needed to stimulate the early market as detailed below, were progressively replaced by auctions[132] and competitive tendering leading to further price reductions.

Competitive energy costs of utility-scale solar edit

The improving competitiveness of utility-scale solar became more visible as countries and energy utilities introduced auctions[133] for new generating capacity. Some auctions are reserved for solar projects,[134] while others are open to a wider range of sources.[135]

The prices revealed by these auctions and tenders have led to highly competitive prices in many regions. Amongst the prices quoted are:

Competitive energy prices achieved by utility-scale PV plants in renewable energy auctions
Date Country Agency Lowest price Equivalent
US¢/kWh		 Equivalent
€/MWh 2022		 Reference
Oct 2017 Saudi Arabia Renewable Energy Project Development Office US$17.9/MWh 1.79 16 [136]
Nov 2017 Mexico CENACE US$17.7/MWh 1.77 16 [137]
Mar 2019 India Solar Energy Corporation of India INR 2.44/kWh 3.5 32 [138]
Jul 2019 Brazil Agencia Nacional de Energía Eléctrica BRL 67.48/MWh 1.752 16 [139]
Jul 2020 Abu Dhabi, UAE Abu Dhabi Power Corporation AED fils 4.97/kWh 1.35 12 [140]
Aug 2020 Portugal Directorate-General for Energy and Geology €0.01114/kWh 1.327 12 [141]
Dec 2020 India Gujarat Urja Vikas Nigam INR 1.99/kWh 2.69 24 [142]

Grid parity edit

Main article: Grid parity

Solar generating stations have become progressively cheaper in recent years, and this trend is expected to continue.[143] Meanwhile, traditional electricity generation is becoming progressively more expensive.[144] These trends led to a crossover point when the levelised cost of energy from solar parks, historically more expensive, matched or beat the cost of traditional electricity generation.[145] This point depends on locations and other factors, and is commonly referred to as grid parity.[146]

For merchant solar power stations, where the electricity is being sold into the electricity transmission network, the levelised cost of solar energy will need to match the wholesale electricity price. This point is sometimes called 'wholesale grid parity' or 'busbar parity'.[147]

Prices for installed PV systems show regional variations, more than solar cells and panels, which tend to be global commodities. The IEA explains these discrepancies due to differences in "soft costs", which include customer acquisition, permitting, inspection and interconnection, installation labor and financing costs.[148]

Incentive mechanisms edit

Main article: Financial incentives for photovoltaics

In the years before grid parity had been reached in many parts of the world, solar generating stations needed some form of financial incentive to compete for the supply of electricity.[149][unreliable source?] Many countries used such incentives to support the deployment of solar power stations.[150]

Feed-in tariffs edit

Main article: Feed-in tariff

Feed-in tariffs are designated prices which must be paid by utility companies for each kilowatt hour of renewable electricity produced by qualifying generators and fed into the grid.[151] These tariffs normally represent a premium on wholesale electricity prices and offer a guaranteed revenue stream to help the power producer finance the project.[152]

Renewable portfolio standards and supplier obligations edit

Main article: Renewable portfolio standard

These standards are obligations on utility companies to source a proportion of their electricity from renewable generators.[153] In most cases, they do not prescribe which technology should be used and the utility is free to select the most appropriate renewable sources.[154]

There are some exceptions where solar technologies are allocated a proportion of the RPS in what is sometimes referred to as a 'solar set aside'.[155]

Loan guarantees and other capital incentives edit

Main article: Loan guarantee

Some countries and states adopt less targeted financial incentives, available for a wide range of infrastructure investment, such as the US Department of Energy loan guarantee scheme,[156] which stimulated a number of investments in the solar power plant in 2010 and 2011.[157]

Tax credits and other fiscal incentives edit

Another form of indirect incentive which has been used to stimulate investment in solar power plant was tax credits available to investors. In some cases the credits were linked to the energy produced by the installations, such as the Production Tax Credits.[158] In other cases the credits were related to the capital investment such as the Investment Tax Credits[159]

International, national and regional programmes edit

In addition to free market commercial incentives, some countries and regions have specific programs to support the deployment of solar energy installations.

The European Union's Renewables Directive[160] sets targets for increasing levels of deployment of renewable energy in all member states. Each has been required to develop a National Renewable Energy Action Plan showing how these targets would be met, and many of these have specific support measures for solar energy deployment.[161] The directive also allows states to develop projects outside their national boundaries, and this may lead to bilateral programs such as the Helios project.[162]

The Clean Development Mechanism[163] of the UNFCCC is an international programme under which solar generating stations in certain qualifying countries can be supported.[164]

Additionally many other countries have specific solar energy development programmes. Some examples are India's JNNSM,[165] the Flagship Program in Australia,[166] and similar projects in South Africa[167] and Israel.[168]

Financial performance edit

The financial performance of the solar power plant is a function of its income and its costs.[27]

The electrical output of a solar park will be related to the solar radiation, the capacity of the plant and its performance ratio.[89] The income derived from this electrical output will come primarily from the sale of the electricity,[169] and any incentive payments such as those under Feed-in Tariffs or other support mechanisms.[170]

Electricity prices may vary at different times of day, giving a higher price at times of high demand.[171] This may influence the design of the plant to increase its output at such times.[172]

The dominant costs of solar power plants are the capital cost, and therefore any associated financing and depreciation.[173] Though operating costs are typically relatively low, especially as no fuel is required,[116] most operators will want to ensure that adequate operation and maintenance cover[117] is available to maximise the availability of the plant and thereby optimise the income to cost ratio.[174]

Geography edit

Main articles: Solar power by country and Growth of photovoltaics

The first places to reach grid parity were those with high traditional electricity prices and high levels of solar radiation.[22] The worldwide distribution of solar parks is expected to change as different regions achieve grid parity.[175] This transition also includes a shift from rooftop towards utility-scale plants, since the focus of new PV deployment has changed from Europe towards the Sunbelt markets where ground-mounted PV systems are favored.[176]: 43 

Because of the economic background, large-scale systems are presently distributed where the support regimes have been the most consistent, or the most advantageous.[177] Total capacity of worldwide PV plants above 4 MWAC was assessed by Wiki-Solar as c. 220 GW in c. 9,000 installations at the end of 2019[1] and represents about 35 percent of estimated global PV capacity of 633 GW, up from 25 percent in 2014.[178][176][needs update] Activities in the key markets are reviewed individually below.

China edit

Main article: Solar power in China

In 2013 China overtook Germany as the nation with the most utility-scale solar capacity.[179] Much of this has been supported by the Clean Development Mechanism.[180] The distribution of power plants around the country is quite broad, with the highest concentration in the Gobi desert[13] and connected to the Northwest China Power Grid.[181]

Germany edit

Main article: Solar power in Germany

The first multi-megawatt plant in Europe was the 4.2 MW community-owned project at Hemau, commissioned in 2003.[182] But it was the revisions to the German feed-in tariffs in 2004,[7] which gave the strongest impetus to the establishment of utility-scale solar power plants.[183] The first to be completed under this programme was the Leipziger Land solar park developed by Geosol.[184] Several dozen plants were built between 2004 and 2011, several of which were at the time the largest in the world. The EEG, the law which establishes Germany's feed-in tariffs, provides the legislative basis not just for the compensation levels, but other regulatory factors, such as priority access to the grid.[127] The law was amended in 2010 to restrict the use of agricultural land,[185] since which time most solar parks have been built on so-called 'development land', such as former military sites.[45] Partly for this reason, the geographic distribution of photovoltaic power plants in Germany[9] is biased towards the former East Germany.[186][187]

India edit

 
Bhadla Solar Park is the world's largest solar park located in India
Main article: Solar power in India

India has been rising up the leading nations for the installation of utility-scale solar capacity. The Charanka Solar Park in Gujarat was opened officially in April 2012[188] and was at the time the largest group of solar power plants in the world.

Geographically the states with the largest installed capacity are Telangana, Rajasthan and Andhra Pradesh with over 2 GW of installed solar power capacity each.[189] Rajasthan and Gujarat share the Thar Desert, along with Pakistan. In May 2018, the Pavagada Solar Park became functional and had a production capacity of 2GW. As of February 2020, it is the largest Solar Park in the world.[190][191] In September 2018 Acme Solar announced that it had commissioned India's cheapest solar power plant, the 200 MW Rajasthan Bhadla solar power park.[192]

Italy edit

Main article: Solar power in Italy

Italy has a large number of photovoltaic power plants, the largest of which is the 84 MW Montalto di Castro project.[193]

Jordan edit

By the end of 2017, it was reported that more than 732 MW of solar energy projects had been completed, which contributed to 7% of Jordan's electricity.[194] After having initially set the percentage of renewable energy Jordan aimed to generate by 2020 at 10%, the government announced in 2018 that it sought to beat that figure and aim for 20%.[195][needs update]

Spain edit

Main article: Solar power in Spain

The majority of the deployment of solar power stations in Spain to date occurred during the boom market of 2007–8.[196][needs update] The stations are well distributed around the country, with some concentration in Extremadura, Castile-La Mancha and Murcia.[10]

United States edit

Main article: Solar power in the United States
 
Locations of solar photovoltaic facility locations having a direct current capacity of 1 megawatt or more[197]

The US deployment of photovoltaic power stations is largely concentrated in southwestern states.[12] The Renewable Portfolio Standards in California[198] and surrounding states[199][200] provide a particular incentive.

Notable solar parks edit

Main article: List of photovoltaic power stations

The following solar parks were, at the time they became operational, the largest in the world or their continent, or are notable for the reasons given:

Noteworthy solar power plants
Name Country[201] Nominal power
(MW)[202][203]		 Commissioned Notes
Lugo,[4] San Bernardino County, California USA 1 MW Dec 1982 First MW plant
Carrisa Plain[5] USA 5.6 MW Dec 1985 World's largest at the time
Hemau[182] Germany 4.0 MW Apr 2003 Europe's largest community-owned facility[182] at the time
Leipziger Land[184] Germany 4.2 MW Aug 2004 Europe's largest at the time; first under FITs[27][184]
Pocking[204] Germany 10 MW Apr 2006 Briefly the world's largest
Nellis Air Force Base, Nevada[205] USA 14 MW Dec 2007 America's largest at the time
Olmedilla[206] Spain 60 MW Jul 2008 World's and Europe's largest at the time
Setouchi Kirei Japan 235 MW Unknown Largest solar park in Japan
Makran Iran 20 MW Unknown Largest solar park in Iran
Sinan[207] Korea 24 MW Aug 2008 Asia's largest at the time
Waldpolenz, Saxony[73] Germany 40 MW Dec 2008 World's largest thin film plant. Extended to 52 MW in 2011[27]
DeSoto, Florida[208] USA 25 MW Oct 2009 America's largest at the time
La Roseraye[209] Reunion 11 MW Apr 2010 Africa's first 10 MW+ plant
Sarnia, Ontario[210] Canada 97 MWP Sep 2010 World's largest at the time. Corresponds to 80 MWAC.
Golmud, Qinghai,[211] China 200 MW Oct 2011 World's largest at the time
Finow Tower[212] Germany 85 MW Dec 2011 Extension takes it to Europe's largest
Lopburi[213] Thailand 73 MW Dec 2011 Asia's largest (outside China)[27] at the time
Perovo, Crimea[214] Ukraine 100 MW Dec 2011 Becomes Europe's largest
Charanka, Gujarat[215][216] India 221 MW Apr 2012 Asia's largest solar park
Agua Caliente, Arizona[217] USA 290 MWAC Jul 2012 World's largest solar plant at the time
Neuhardenberg, Brandenburg[45] Germany 145 MW Sep 2012 Becomes Europe's largest solar cluster
Greenhough River, Western Australia,[218] Australia 10 MW Oct 2012 Australasia's first 10 MW+ plant
Tze'elim, Negev Israel 120 MW Jan 2020 Largest PV plant in Israel[219]
Majes and Repartición Peru 22 MW Oct 2012 First utility-scale plants in South America[220][221]
Westmill Solar Park, Oxfordshire[94] United Kingdom 5 MW Oct 2012 Acquired by Westmill Solar Co-operative to become world's largest community-owned solar power station[95]
San Miguel Power, Colorado USA 1.1 MW Dec 2012 Biggest community-owned plant in USA[222]
Sheikh Zayed, Nouakchott[223] Mauritania 15 MW Apr 2013 Largest solar power plant in Africa[224]
Topaz,[19] Riverside County, California USA 550 MWAC Nov 2013 World's largest solar park at the time[225]
Amanacer, Copiapó, Atacama Chile 93.7 MW Jan 2014 Largest in South America[226] at the time
Jasper, Postmasburg, Northern Cape South Africa 88 MW Nov 2014 Largest plant in Africa
Longyangxia PV/Hydro power project, Gonghe, Qinghai China 850 MWP Dec 2014 Phase II of 530 MW added to 320 MW Phase I (2013)[227] makes this the world's largest solar power station
Nyngan, New South Wales Australia 102 MW Jun 2015 Becomes largest plant in Australasia and Oceania
Solar Star,[228] Los Angeles County, California USA 579 MWAC Jun 2015 Becomes the world's largest solar farm installation project (Longyanxia having been constructed in two phases)
Cestas, Aquitaine France 300 MW Dec 2015 Largest PV plant in Europe[229]
Finis Terrae, María Elena, Tocopilla Chile 138 MWAC May 2016 Becomes largest plant in South America[230]
Monte Plata Solar, Monte Plata Dominican Republic 30 MW March 2016 Largest PV plant in The Caribbean.[231][232]
Ituverava, Ituverava, São Paulo Brazil 210 MW Sep 2017 Largest PV plant in South America[233]
Bungala, Port Augusta, SA Australia 220 MWAC Nov 2018 Becomes Australasia's largest solar power plant[234]
Noor Abu Dhabi, Sweihan, Abu Dhabi United Arab Emirates 1,177 MWP Jun 2019 The largest single solar power plant (as opposed to co-located group of projects) in Asia and the world.[235][236]
Cauchari Solar Plant, Cauchari Argentina 300 MW Oct 2019 Becomes South America's largest solar power plant
Benban Solar Park, Benban, Aswan Egypt 1,500 MW Oct 2019 Group of 32 co-located projects becomes the largest in Africa.[237]
Bhadla Solar Park, Bhadlachuhron Ki, Rajasthan India 2,245 MW Mar 2020 Group of 31 co-located solar plants reported to be the largest solar park in the world.[238]
High Plateaus East, Adrar Algeria 90 MW Unknown Largest solar park in Algeria
Villanueva Solar Park Mexico 828 MW 2018 Largest solar park in North America
Kalyon Karapınar Solar Power Plant Turkey 1,350 MW 2023 Largest solar park in Turkey
Núñez de Balboa solar plant, Usagre, Badajoz Spain 500 MWAC Mar 2020 Overtakes Mula Photovoltaic Power Plant (450 MWAC installed three months earlier) to become Europe's largest solar power plant.[239]

See also edit

References edit

  1. ^ a b c Wolfe, Philip (17 March 2020). "Utility-scale solar sets new record" (PDF). Wiki-Solar. Retrieved 11 May 2010.
  2. ^ "Concentrated solar power had a global total installed capacity of 6,451 MW in 2019". HelioCSP. 2 February 2020. Retrieved 11 May 2020.
  3. ^ "Expanding Renewable Energy in Pakistan's Electricity Mix". World Bank. Retrieved 17 July 2022.
  4. ^ a b c Arnett, J.C.; Schaffer, L. A.; Rumberg, J. P.; Tolbert, R. E. L.; et al. (1984). "Design, installation and performance of the ARCO Solar one-megawatt power plant". Proceedings of the Fifth International Conference, Athens, Greece. EC Photovoltaic Solar Energy Conference: 314. Bibcode:1984pvse.conf..314A.
  5. ^ a b c Wenger, H.J.; et al. "Decline of the Carrisa Plains PV power plant". Photovoltaic Specialists Conference, 1991., Conference Record of the Twenty Second IEEE. IEEE. doi:10.1109/PVSC.1991.169280. S2CID 120166422.
  6. ^ "Topaz Solar Farm, California". earthobservatory.nasa.gov. 5 March 2015. Retrieved 11 October 2022.
  7. ^ a b "The Renewable Energy Sources Act" (PDF). Bundesgesetzblatt 2004 I No. 40. Bundesumweltministerium(BMU). 21 July 2004. Retrieved 13 April 2013.[permanent dead link]
  8. ^ a b "Top 10 Solar PV power plants". SolarLab. 4 August 2023. Retrieved 9 August 2023.
  9. ^ a b "Solar parks map – Germany". Wiki-Solar. Retrieved 22 March 2018.
  10. ^ a b "Solar parks map – Spain". Wiki-Solar. Retrieved 22 March 2018.
  11. ^ "An Early Focus on Solar". National Geographic. Retrieved 22 March 2018.[dead link] Retrieved 5 March 2015
  12. ^ a b "Solar parks map – USA". Wiki-Solar. Retrieved 22 March 2018.
  13. ^ a b "Solar parks map – China". Wiki-Solar. Retrieved 22 March 2018.
  14. ^ "Solar parks map – India". Wiki-Solar. Retrieved 22 March 2018.
  15. ^ "Solar parks map – France". Wiki-Solar. Retrieved 22 March 2018.
  16. ^ "Solar parks map – Canada". Wiki-Solar. Retrieved 22 March 2018.
  17. ^ "Solar parks map – Australia". Wiki-Solar. Retrieved 22 March 2018.
  18. ^ "Solar parks map – Italy". Wiki-Solar. Retrieved 22 March 2018.
  19. ^ a b . First Solar. Archived from the original on 5 March 2013. Retrieved 2 March 2013.
  20. ^ Olson, Syanne (10 January 2012). "Dubai readies for 1,000MW Solar Park". PV-Tech. Retrieved 21 February 2012.
  21. ^ "MX Group Spa signs a 1.75 Billion Euros agreement for the construction in Serbia of the largest solar park in the world" (PDF). Retrieved 6 March 2012.
  22. ^ a b c "Statistics about selected locations for utility-scale solar parks". Wiki-Solar. Retrieved 5 March 2015.
  23. ^ Joshi, Amruta. "Estimating per unit area energy output from solar PV modules". National Centre for Photovoltaic Research and Education. Retrieved 5 March 2013.
  24. ^ "Screening Sites for Solar PV Potential" (PDF). Solar Decision Tree. US Environmental Protection Agency. Retrieved 5 March 2013.
  25. ^ . SolarJuice. Archived from the original on 30 April 2015. Retrieved 5 March 2013.
  26. ^ a b (PDF). Technical Questions & Answers. Solar Pro Magazine. Archived from the original (PDF) on 21 October 2012. Retrieved 5 March 2013.
  27. ^ a b c d e f Wolfe, Philip (2012). Solar Photovoltaic Projects in the Mainstream Power Market. Oxford: Routledge. p. 240. ISBN 978-0-415-52048-5.
  28. ^ "Solar Radiation on a Tilted Surface". PVEducation.org. Retrieved 22 April 2013.
  29. ^ "Solar parks: maximising environmental benefits". Natural England. Retrieved 30 August 2012.
  30. ^ "Person County Solar Park Makes Best Use of Solar Power and Sheep". solarenergy. Retrieved 22 April 2013.
  31. ^ "Person County Solar Park One". Carolina Solar Energy. Retrieved 22 April 2013.
  32. ^ "Solar Parks – Opportunities for Biodiversity". German Renewable Energies Agency. Archived from the original on 1 July 2013. Retrieved 22 April 2013.
  33. ^ Barron-Gafford, Greg A.; Minor, Rebecca L.; Allen, Nathan A.; Cronin, Alex D.; Brooks, Adria E.; Pavao-Zuckerman, Mitchell A. (December 2016). "The Photovoltaic Heat Island Effect: Larger solar power plants increase local temperatures". Scientific Reports. 6 (1): 35070. Bibcode:2016NatSR...635070B. doi:10.1038/srep35070. PMC 5062079. PMID 27733772. S2CID 4587161.
  34. ^ Guoqing, Li; Hernandez, Rebecca R; Blackburn, George Alan; Davies, Gemma; Hunt, Merryn; Whyatt, James Duncan; Armstrong, Alona (August 2021). "Ground-mounted photovoltaic solar parks promote land surface cool islands in arid ecosystems". Renewable and Sustainable Energy Transition. 1: 100008. doi:10.1016/j.rset.2021.100008. S2CID 239061813.
  35. ^ Harshavardhan Dinesh, Joshua M. Pearce, The potential of agrivoltaic systems, Renewable and Sustainable Energy Reviews, 54, 299–308 (2016).
  36. ^ https://time.com/6183376/landfills-becoming-solar-farms/
  37. ^ Wolfe, Philip. "The world's largest solar power stations" (PDF). Wiki-Solar. Retrieved 11 May 2020.
  38. ^ (PDF). Kern County Planning and Community development Department. Archived from the original (PDF) on 3 February 2016. Retrieved 22 April 2013.
  39. ^ a b Wolfe, Philip. "The world's largest solar parks" (PDF). Wiki-Solar. Retrieved 11 May 2020.
  40. ^ "Smart Grid transmission scheme for Evacuation of Solar Power" (PDF). Workshop on smart grid development. Pandit Deendayal Petroleum University. Retrieved 5 March 2013.
  41. ^ . E.On. Archived from the original on 7 March 2013. Retrieved 22 April 2013.
  42. ^ "Solar parks: maximising environmental benefits". Natural England. Retrieved 22 April 2013.
  43. ^ "First solar park set for Upington, Northern Cape". Frontier Market Intelligence. Retrieved 22 April 2013.
  44. ^ Wolfe, Philip. "Large clusters of solar power stations" (PDF). Wiki-Solar. Retrieved 11 May 2020.
  45. ^ a b c "ENFO entwickelt größtes Solarprojekt Deutschlands". Enfo AG. Retrieved 28 December 2012.
  46. ^ "Solarpark Neuhardenberg – site plan". Wiki-Solar. Retrieved 22 March 2018.
  47. ^ "Qinghai leads in photovoltaic power". China Daily. 2 March 2012. Retrieved 21 February 2013.
  48. ^ "Golmud Desert Solar Park – satellite view". Wiki-Solar. Retrieved 22 March 2018.
  49. ^ a b c Frangoul, Anmar (22 July 2022). "A pilot project in the North Sea will develop floating solar panels that glide over waves 'like a carpet'". CNBC. from the original on 22 July 2022.
  50. ^ a b Cuthbertson, Anthony (18 January 2024). "First ever space-to-Earth solar power mission succeeds". The Independent. from the original on 19 January 2024.
  51. ^ a b "Free-field solar power plants a solution that allows power to be generated faster and more cost-effectively than offshore wind". OpenPR. 20 April 2011. Retrieved 5 March 2013.
  52. ^ a b c "Optimum Tilt of Solar Panels". MACS Lab. Retrieved 19 October 2014.
  53. ^ (PDF). WattSun. Archived from the original (PDF) on 22 November 2010. Retrieved 30 August 2012.
  54. ^ "To Track or Not To Track, Part II". Report Snapshot. Greentech Solar. Retrieved 5 March 2013.
  55. ^ (PDF). Conergy. Archived from the original (PDF) on 17 January 2022. Retrieved 5 March 2013.
  56. ^ a b . Meridian Energy. Archived from the original on 16 June 2019. Retrieved 22 April 2013.
  57. ^ "Solar cells and photovoltaic arrays". Photovoltaics. Alternative Energy News. Retrieved 5 March 2013.
  58. ^ a b Kymakis, Emmanuel; et al. (PDF). Elsevier. Archived from the original (PDF) on 17 April 2012. Retrieved 30 December 2012.
  59. ^ "Mounting solar panels". 24 volt. Retrieved 5 March 2013.
  60. ^ (PDF). Sustainable Energy Authority of Ireland. Archived from the original (PDF) on 24 March 2012. Retrieved 30 December 2012.
  61. ^ "PV Energy Conversion Efficiency". Solar Energy. Solarlux. Retrieved 5 March 2013.
  62. ^ Mousazadeh, Hossain; et al. "A review of principle and sun-tracking methods for maximizing" (PDF). Renewable and Sustainable Energy Reviews 13 (2009) 1800–1818. Elsevier. Retrieved 30 December 2012.
  63. ^ a b Appleyard, David (June 2009). "Solar Trackers: Facing the Sun". Renewable Energy World. Retrieved 5 March 2013.
  64. ^ Suri, Marcel; et al. (PDF). Proceedings of 1st Southern African Solar Energy Conference (SASEC 2012), 21–23 May 2012, Stellenbosch, South Africa. GeoModel Solar, Bratislava, Slovakia. Archived from the original (PDF) on 8 March 2014. Retrieved 30 December 2012.
  65. ^ a b Shingleton, J. "One-Axis Trackers – Improved Reliability, Durability, Performance, and Cost Reduction" (PDF). National Renewable Energy Laboratory. Retrieved 30 December 2012.
  66. ^ (PDF). US Air Force. Archived from the original (PDF) on 24 January 2013. Retrieved 14 April 2013.
  67. ^ "T20 Tracker" (PDF). Data sheet. SunPower Corporation. Retrieved 14 April 2013.
  68. ^ Li, Zhimin; et al. (June 2010). "Optical performance of inclined south-north single-axis tracked solar panels". Energy. 10 (6): 2511–2516. doi:10.1016/j.energy.2010.02.050.
  69. ^ "Invert your thinking: Squeezing more power out of your solar panels". scientificamerican.com. Retrieved 9 June 2011.
  70. ^ "Understanding Inverter Strategies". Solar Novus Today. Retrieved 13 April 2013.
  71. ^ "Photovoltaic micro-inverters". SolarServer. Retrieved 13 April 2013.
  72. ^ a b "Case study: German solar park chooses decentralized control". Solar Novus. Retrieved 13 April 2013.
  73. ^ a b . Juwi. Archived from the original on 3 March 2016. Retrieved 13 April 2012.
  74. ^ a b Lee, Leesa (2 March 2010). "Inverter technology drives lower solar costs". Renewable Energy World. Retrieved 30 December 2012.
  75. ^ "Solar Farm Fact Sheet" (PDF). IEEE. Retrieved 13 April 2012.
  76. ^ (PDF). Invenergy. Archived from the original (PDF) on 3 February 2016. Retrieved 13 April 2012.
  77. ^ "McHenry Solar Farm" (PDF). ESA. Retrieved 13 April 2013.[permanent dead link]
  78. ^ (PDF). Dillon Consulting Limited. Archived from the original (PDF) on 3 February 2016. Retrieved 13 April 2013.
  79. ^ Appleyard, David. "Making waves: Inverters continue to push efficiency". Renewable Energy World. Archived from the original on 1 February 2013. Retrieved 13 April 2013.
  80. ^ . General Electric Company. Archived from the original on 15 April 2013. Retrieved 13 April 2013.
  81. ^ a b (PDF). Ownergy Plc. Archived from the original (PDF) on 14 May 2014. Retrieved 13 April 2013.
  82. ^ Larsson, Mats. "Coordinated Voltage Control" (PDF). International Energy Agency. Retrieved 13 April 2013.
  83. ^ "Long Island Solar Farm Goes Live!". Blue Oak Energy. Retrieved 22 April 2013. Retrieved 13 April 2013
  84. ^ "Analysis of Transformer Failures". BPL Global. Retrieved 22 April 2013. Retrieved 13 April 2013
  85. ^ Myers, D R (September 2003). "Solar Radiation Modeling and Measurements for Renewable Energy Applications: Data and Model Quality" (PDF). Proceedings of International Expert Conference on Mathematical Modeling of Solar Radiation and Daylight. Retrieved 30 December 2012.
  86. ^ Ilse K, Micheli L, Figgis BW, Lange K, Dassler D, Hanifi H, Wolfertstetter F, Naumann V, Hagendorf C, Gottschalg R, Bagdahn J (2019). "Techno-Economic Assessment of Soiling Losses and Mitigation Strategies for Solar Power Generation". Joule. 3 (10): 2303–2321. doi:10.1016/j.joule.2019.08.019. hdl:11573/1625631.
  87. ^ Green, Martin; Emery, Keith; Hishikawa, Yoshihiro & Warta, Wilhelm (2009). (PDF). Progress in Photovoltaics: Research and Applications. 17: 85–94. doi:10.1002/pip.880. S2CID 96129300. Archived from the original (PDF) on 11 June 2012. Retrieved 30 December 2012.
  88. ^ Picault, D; Raison, B.; Bacha, S.; de la Casa, J.; Aguilera, J. (2010). (PDF). Solar Energy. 84 (7): 1301–1309. Bibcode:2010SoEn...84.1301P. doi:10.1016/j.solener.2010.04.009. Archived from the original (PDF) on 27 March 2014. Retrieved 5 March 2013.
  89. ^ a b Marion, B (); et al. "Performance Parameters for Grid-Connected PV Systems" (PDF). NREL. Retrieved 30 August 2012.
  90. ^ (PDF). Proceeding Renexpo. CSun. Archived from the original (PDF) on 8 April 2022. Retrieved 5 March 2013.
  91. ^ . PV-Tech. Archived from the original on 22 February 2015. Retrieved 22 April 2013.
  92. ^ "Outdoor PV Degradation Comparison". National Renewable Energy Laboratory. Retrieved 22 April 2013. Retrieved 13 April 2013
  93. ^ "New Industry Leading Warrantee". REC Group. Retrieved 22 April 2013. Retrieved 13 April 2013
  94. ^ a b "Westmill Solar Park". Westmill Solar Co-operative Ltd. Retrieved 30 December 2012.
  95. ^ a b Grover, Sami. "World's Largest Community-Owned Solar Project Launches in England". Treehugger. Retrieved 30 December 2012.
  96. ^ "Alternative Energy". Alternative Energy. Retrieved 7 March 2013.
  97. ^ "independent power producer (IPP), non-utility generator (NUG)". Dictionary. Energy Vortex. Retrieved 30 December 2012.
  98. ^ "Investor-owned utility". The Free Dictionary. Retrieved 30 December 2012.
  99. ^ "Owners and IPPs". Deployment of utility-scale solar parks by company. Wiki-Solar. Retrieved 5 March 2015.
  100. ^ Wang, Ucilia (27 August 2012). "The Crowded Field of Solar Project Development". Renewable Energy World. Retrieved 30 December 2012.
  101. ^ "Leadership across the Entire Value Chain". First Solar. Retrieved 7 March 2013.
  102. ^ Englander, Daniel (18 May 2009). "Solar's New Important Players". Seeking Alpha. Retrieved 30 December 2012.
  103. ^ "Solar farm on 20 acres of Kauai land gets county planning commission approval". Solar Hawaii. 15 July 2011. Retrieved 7 March 2013.
  104. ^ "Aylesford – Certificate for grid connection". Aylesford Solar Park. AG Renewables. Retrieved 7 March 2013.
  105. ^ a b "SunEdison Closes R2.6 Billion (US$314 Million) in Funding for 58 MW (AC) in South Africa Solar Projects". SunEdison. Retrieved 7 March 2013.
  106. ^ "juwi starts build on its first solar park in South Africa". Renewable Energy Focus. 19 February 2013. Retrieved 7 March 2013.
  107. ^ "Saudi Arabia's Largest Solar Park Commissioned". Islamic Voice. 15 February 2013. Retrieved 7 March 2013.
  108. ^ "Large scale solar parks". Know Your Planet. Retrieved 7 March 2013.
  109. ^ Chiu, Allyson; Guskin, Emily; Clement, Scott (3 October 2023). "Americans don't hate living near solar and wind farms as much as you might think". The Washington Post. from the original on 3 October 2023.
  110. ^ "Statistics about some selected markets for utility-scale solar parks". Wiki-Solar. Retrieved 30 December 2012.
  111. ^ "Τα "κομμάτια του πάζλ" μιας επένδυσης σε Φ/Β". Greek Photovoltaics Guide. Renelux. Retrieved 30 December 2012.
  112. ^ "Connecting your new home, building or development to Ausgrid's electricity network". Ausgrid. Retrieved 30 December 2012.
  113. ^ "The Switch to Solar at Coal Power Plants and Mines is On". dpfacilities.com. Retrieved 17 November 2021.
  114. ^ McHale, Maureen. "Not All O&M Agreements Are Alike". InterPV. Retrieved 30 December 2012.
  115. ^ "Project Overview". Agua Caliente Solar Project. First Solar. Retrieved 7 March 2013.
  116. ^ a b "Advantages of Solar Energy". Conserve Energy Future. 20 January 2013. Retrieved 7 March 2013.
  117. ^ a b "Addressing Solar Photovoltaic Operations and Maintenance Challenges" (PDF). A Survey of Current Knowledge and Practices. Electric Power Research Institute (EPRI). Retrieved 30 December 2012.
  118. ^ "IT for Renewable energy sources management" (PDF). inAccess Networks. Retrieved 7 March 2013.
  119. ^ "Solar Park Maintenance". BeBa Energy. Retrieved 7 March 2013.
  120. ^ "Featured Array: Brewster Community Solar Garden® Facility". Retrieved 3 May 2013.
  121. ^ "Featured Array: Strain Ranches". Retrieved 3 May 2013.
  122. ^ "Talmage Solar Engineering, Inc. Unveils Largest Smart Array in North America" (Press release). 31 July 2012. Retrieved 3 May 2013.
  123. ^ "PV Power Plants 2012" (PDF). p. 35. Retrieved 3 May 2013.
  124. ^ "Introduction to the Balancing and Settlement Code". Elexon. Retrieved 30 December 2012.
  125. ^ Mitavachan, H.; et al. "A case study of a 3-MW scale grid-connected solar photovoltaic power plant at Kolar, Karnataka". Renewable Energy Systems. Indian Institute of Science.
  126. ^ "Electricity network delivery and access". UK Department of Energy and Climate Change. Retrieved 7 March 2013.
  127. ^ a b "Renewable electricity". European Renewable Energy Council. Retrieved 31 July 2012.
  128. ^ "Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable sources and amending and subsequently repealing Directives 2001/77/EC and 2003/30/EC". European Commission. Retrieved 7 March 2013.
  129. ^ "2014 Outlook: Let the Second Gold Rush Begin" (PDF). Deutsche Bank Markets Research. 6 January 2014. (PDF) from the original on 29 November 2014. Retrieved 22 November 2014.
  130. ^ Giles Parkinson (13 August 2014). "Citigroup: Outlook for global solar is getting brighter". RenewEconomy. Retrieved 18 August 2014.
  131. ^ "Solar power is entering the mainstream". Bloomberg Businessweek. Retrieved 22 April 2013.[dead link]
  132. ^ International Renewable Energy Agency (June 2019). "Renewable energy auctions and trends beyond price" (PDF): 32. Retrieved 8 January 2021. {{cite journal}}: Cite journal requires |journal= (help)
  133. ^ World Bank (October 2014). "Performance of Renewable Energy Auctions" (PDF): 39. Retrieved 8 January 2021. {{cite journal}}: Cite journal requires |journal= (help)
  134. ^ Dezem, Vanessa (31 October 2014). "Brazil Solar Power Auction May Spur $1 Billion in Investment". Renewable Energy World. Bloomberg. Retrieved 8 January 2021.
  135. ^ Gorey, Colm (11 September 2020). "160 wind turbines and 1,750 hectares of solar approved in first State auction". Silicon Republic. Retrieved 8 January 2021.
  136. ^ "Saudi Arabia sets lowest-ever PV price; IEA hikes solar growth outlook by a third". Reuters. 11 October 2017. Retrieved 8 January 2021.
  137. ^ "Mexico sets world's lowest solar price; Energy storage to hit 125 GW by 2030". Reuters. 22 November 2017. Retrieved 8 January 2021.
  138. ^ "Rajasthan solar auction draws electricity price of just 3.5 US cents". IndustryAbout. 5 March 2019. Retrieved 8 January 2021.
  139. ^ "Brazil posts new world record low price for solar power". Business Green. 2 July 2019. Retrieved 8 January 2021.
  140. ^ Ombello, Carlo (8 July 2020). "1.35 Cents/kWh: Record Abu Dhabi Solar Bid Is A Sober Reminder To Upbeat Fossil Fuel Pundits". CleanTechnica. Retrieved 8 January 2021.
  141. ^ Shahan, Zachary (30 August 2020). "New Record-Low Solar Price Bid – 1.3¢/kWh". CleanTechnica. Retrieved 8 January 2021.
  142. ^ "Indian PV auction delivers final record low price of $0.0269/kWh". Focus Technica. 22 December 2020. Retrieved 8 January 2021.
  143. ^ Aaron (23 November 2012). "Solar panels to keep getting cheaper". Evo Energy. Retrieved 13 January 2015.
  144. ^ Jago, Simon (6 March 2013). "Prices going one way". Energy Live News. Retrieved 7 March 2013.
  145. ^ Burkart, Karl. "5 breakthroughs that will make solar power cheaper than coal". Mother Nature Network. Retrieved 7 March 2013.
  146. ^ Spross, Jeff. "Solar Report Stunner: Unsubsidized 'Grid Parity Has Been Reached In India', Italy–With More Countries Coming in 2014". Climate Progress. Retrieved 22 April 2013.
  147. ^ Morgan Baziliana; et al. (17 May 2012). Re-considering the economics of photovoltaic power. UN-Energy (Report). United Nations. Archived from the original on 16 May 2016. Retrieved 20 November 2012.
  148. ^ "Technology Roadmap: Solar Photovoltaic Energy" (PDF). IEA. 2014. (PDF) from the original on 1 October 2014. Retrieved 7 October 2014.
  149. ^ Wolfe, Philip (19 May 2009). "Priorities for low carbon transition". The politics of Climate Change. The Policy Network. Retrieved 7 March 2013.
  150. ^ "Taxes and Incentives for renewable energy" (PDF). KPMG. Retrieved 7 March 2013.
  151. ^ "Policymaker's Guide to Feed-in Tariff Policy Design". National Renewable Energy Laboratory. Retrieved 22 April 2013. Couture, T., Cory, K., Kreycik, C., Williams, E., (2010). National Renewable Energy Laboratory, U.S. Dept. of Energy
  152. ^ "What are Feed-in Tariffs". Feed-in Tariffs Limited. Retrieved 7 March 2013.
  153. ^ "Race to the Top: The Expanding Role of U.S. State Renewable Portfolio Standards". University of Michigan. Retrieved 22 April 2013.
  154. ^ "Investment in electricity generation – the role of costs, incentives and risks" (PDF). UK Energy Research Centre. Retrieved 7 March 2013.
  155. ^ . Dsire Solar. Archived from the original on 21 October 2012. Retrieved 30 December 2012.
  156. ^ "Innovative Technology Loan Guarantee Program" (PDF). US DOE Loan Guarantee Program Office (LGPO). Retrieved 21 February 2012.
  157. ^ "Independent Review: DOE's Loan Guarantee Program Has Worked, Can Be Better". GreenTech Media. Retrieved 7 March 2013.
  158. ^ "Production Tax Credit for Renewable Energy". Union of Concerned Scientists. Retrieved 30 August 2012.
  159. ^ "Business Energy Investment Tax Credit (ITC)". US Department of Energy. Retrieved 21 February 2012.
  160. ^ "Directive 2009/28/EC of the European Parliament and of the Council". Renewables Directive. European Commission.
  161. ^ Ragwitz, Mario; et al. "Assessment of National Renewable Energy Action Plans" (PDF). REPAP 2020. Fraunhofer Institut. Retrieved 7 March 2013.
  162. ^ Williams, Andrew (3 November 2011). "Project Helios: A brighter future for Greece?". Solar Novus Today. Retrieved 7 March 2013.
  163. ^ "Clean Development Mechanism (CDM)". UNFCCC. Retrieved 30 December 2012.
  164. ^ "CDM projects grouped in types". UNEP Risø Centre. Retrieved 7 March 2013.
  165. ^ Ministry of New and Renewable Energy. . Scheme documents. Government of India. Archived from the original on 31 January 2018. Retrieved 30 December 2012.
  166. ^ Department for Resources, Energy and Tourism (11 December 2009). "Solar Flagships Program Open for Business". Government of Australia. Retrieved 30 December 2012.
  167. ^ "South Africa: Renewable Energy Programme to Bring R47 Billion in Investment". allAfrica.com. 29 October 2012. Retrieved 30 December 2012.
  168. ^ "Solar Energy". Ministry of Energy and Water Resources. Retrieved 30 December 2012.
  169. ^ "Investment in Solar Parks". Solar Partner. Retrieved 7 March 2013.
  170. ^ "Community ownership". FAQs. Westmill Solar Cooperative. Retrieved 7 March 2013.
  171. ^ . Pacific Gas and Electric. Archived from the original on 2 February 2014. Retrieved 7 March 2013.
  172. ^ "Optimum Orientation of Solar Panels for Time-of-Use Rates". Macs Lab. Retrieved 22 April 2013.
  173. ^ "The Optimum Financing Structure". Green Rhino Energy. Retrieved 7 March 2013.
  174. ^ Belfiore, Francesco. "Optimizing PV Plant O&M Requires Focus on the Project Lifecycle". Renewable Energy World. Retrieved 7 March 2013.
  175. ^ "Solar Photovoltaics competing in the energy sector – On the road to competitiveness". European Photovoltaic Industry Association. Retrieved 13 April 2013.
  176. ^ a b (PDF). epia.org. EPIA – European Photovoltaic Industry Association. Archived from the original (PDF) on 25 June 2014. Retrieved 12 June 2014.
  177. ^ "Renewable Power, Policy, and the Cost of Capital". UNEP/BASE Sustainable Energy Finance Initiative. Retrieved 22 April 2013. Retrieved 13 April 2013
  178. ^ "Utility-scale solar breaks all records in 2014 to reach 36 GW" (PDF). wiki-solar.org. Wiki-Solar.
  179. ^ Hill, Joshua (22 February 2013). "Giant Solar Farm Capacity Doubling Inside 12 Months Breaking 12 GW". Clean Technica. Retrieved 7 March 2013.
  180. ^ "Project search". CDM: Project activities. UNFCCC. Retrieved 7 March 2013.
  181. ^ "Northwest China Grid Company Limited". Northwest China Grid Company Limited. Retrieved 22 April 2013.
  182. ^ a b c "In Hemau liefert der weltweit größte Solarpark umweltfreundlichen Strom aus der Sonne" (in German). Stadt Hemau. Retrieved 13 April 2013.
  183. ^ "Best of Both Worlds: What if German installation costs were combined with the best solar resources?". National Renewable Energy Laboratory. Retrieved 22 April 2013. Retrieved 13 April 2013
  184. ^ a b c "Leipziger Land project" (PDF). Geosol. Retrieved 13 April 2013.
  185. ^ Olson, Syanne (14 January 2011). "IBC Solar completes grid connection for 13.8MW German solar park". PV-Tech. Retrieved 7 March 2013.
  186. ^ "Eastern Germany's sunny future". Michael Dumiak. Fortune magazine. 22 May 2007. Retrieved 15 January 2018.
  187. ^ "German PV Funding Up in the Air Again". SolarBuzz. Retrieved 22 April 2013. Retrieved 13 April 2013
  188. ^ . Indian Solar Summit. 19 April 2012. Archived from the original on 25 June 2012. Retrieved 7 March 2013.
  189. ^ (PDF). Ministry of New and Renewable Energy, Govt. of India. 31 October 2017. Archived from the original (PDF) on 12 July 2017. Retrieved 24 November 2017.
  190. ^ "Full Page Reload". IEEE Spectrum: Technology, Engineering, and Science News. Retrieved 24 February 2020.
  191. ^ "World's largest solar park launched in Karnataka". The Economic Times. 1 March 2018. Retrieved 24 February 2020.
  192. ^ "Acme Solar Commissions India's Cheapest Solar Power Plant". Retrieved 29 September 2018.
  193. ^ "Top 10 Solar PV Power Plants". InterPV. Retrieved 22 April 2013. Retrieved 13 April 2013
  194. ^ "103 MW solar plant comes online in Jordan". PV magazine. 26 April 2018. Retrieved 28 April 2018.
  195. ^ Brian Parkin (23 April 2018). "Jordan Eyes Power Storage as Next Step in Green Energy Drive". Bloomberg L.P. Retrieved 23 April 2018.
  196. ^ Rosenthal, Elisabeth (8 March 2010). "Solar Industry Learns Lessons in Spanish Sun". The New York Times. Retrieved 7 March 2013.
  197. ^ "U.S. Solar Photovoltaic Database". eerscmap.usgs.gov. United States Geological Survey (USGS). November 2023.
  198. ^ . California Public Utilities Commission. Archived from the original on 7 March 2013. Retrieved 7 March 2013.
  199. ^ "Nevada Energy Portfolio Standard". Database of State Incentives for Renewables & Efficiency. US Department of Energy. Retrieved 7 March 2013.
  200. ^ "Arizona Energy Portfolio Standard". Database of State Incentives for Renewables & Efficiency. US Department of Energy. Retrieved 7 March 2013.
  201. ^ "Solar Parks mapping". Wiki-Solar. Retrieved 1 March 2016. The locations of these and other plants over 10MW are illustrated in
  202. ^ Wolfe, Philip. "Capacity rating for solar generating stations". Wiki-Solar. Retrieved 22 August 2013.
  203. ^ Note that nominal power may be AC or DC, depending on the plant. See "AC-DC conundrum: Latest PV power-plant ratings follies put focus on reporting inconsistency (update)". PV-Tech. Retrieved 22 April 2013. Retrieved 13 April 2013
  204. ^ "The world's largest photovoltaic solar power plant is in Pocking". Solar Server. Retrieved 30 August 2012.
  205. ^ (PDF). United States Air Force. Archived from the original (PDF) on 24 January 2013. Retrieved 30 August 2012.
  206. ^ "The Olmedilla Solar Park". Retrieved 30 August 2012.
  207. ^ "24 MW: SinAn, South Korea" (PDF). Conergy. Retrieved 30 August 2012.
  208. ^ . Florida Power and Light. Archived from the original on 15 September 2012. Retrieved 30 August 2012.
  209. ^ "EDF Energies Nouvelles secures building permits for two solar power plants (15.3 MW) on Reunion Island". EDF Energies Nouvelles. 23 July 2008. Retrieved 30 August 2012.
  210. ^ . Enbridge. Archived from the original on 17 October 2012. Retrieved 30 August 2012.
  211. ^ "Chint Solar successfully completed Golmud 20MW photovoltaic power station". PVsolarChina.com. Retrieved 30 August 2012.
  212. ^ "FinowTower I + II; Mit 84,7 MWp das größte Solarstrom-Kraftwerk Europas". SolarHybrid. Retrieved 30 August 2012.
  213. ^ . CLP Group. Archived from the original on 13 June 2012. Retrieved 30 August 2012.
  214. ^ "Activ Solar Commissions 100-Plus MW Perovo Solar PV Station in Ukraine's Crimea". Clean Technica. 29 December 2011. Retrieved 13 January 2015.
  215. ^ . Energy Insight. 25 April 2012. Archived from the original on 23 September 2017. Retrieved 30 August 2012.
  216. ^ (PDF). Archived from the original (PDF) on 13 March 2013. Retrieved 3 May 2013.
  217. ^ "Agua Caliente Solar Project". First Solar. Retrieved 31 August 2012.
  218. ^ Leader, Jessica (10 October 2012). "Australia's Greenough River Solar Farm Opens Amid Renewable Target Debate". huffingtonpost.com. Retrieved 22 April 2013., Reuters, Rebekah Kebede, 9 October 2012 Retrieved 13 April 2013
  219. ^ "Largest photovoltaic power plant in Israel to commence operations". The Jerusalem Post | JPost.com. 15 October 2019. Retrieved 28 October 2022.
  220. ^ "Photovoltaic stations". T-Solar Group. Retrieved 16 May 2015. Repartición solar farm, Location: Municipalidad Distrital La Joya. Province: Arequipa. Power: 22 MWp
  221. ^ "President Humala inaugurates T-Solar Group photovoltaic solar-power plants in Peru". 27 October 2012. Retrieved 19 April 2013.
  222. ^ Ayre, James (27 December 2012). "Biggest Community-Owned Solar Array in US Now Online". Clean Technica. Retrieved 13 January 2015.
  223. ^ "Sheikh Zayed site location". Retrieved 19 April 2013.
  224. ^ WAM (18 April 2013). "Shaikh Zayed Solar Power Plant in Mauritania inaugurated by Shaikh Saeed". Gulf News. Retrieved 13 January 2015.
  225. ^ Topaz, the Largest Solar Plant in the World, Is Now Fully Operational, Greentechmedia, Eric Wesoff, 24 November 2014
  226. ^ Woods, Lucy (9 June 2014). "SunEdison inaugurates 100MW Chile solar plant". PV-Tech. Retrieved 22 July 2016.
  227. ^ "World's Largest Hydro/PV Hybrid Project Synchronized". Corporate News. China State Power Investment Corporation. 14 December 2014. Retrieved 22 July 2016.
  228. ^ "Solar Star, Largest PV Power Plant in the World, Now Operational". GreenTechMedia.com. 24 June 2015.
  229. ^ Canellas, Claude; et al. (1 December 2015). "New French solar farm, Europe's biggest, cheaper than new nuclear". Reuters. Retrieved 1 March 2016.
  230. ^ "Enel Starts Production at its Largest Solar PV Project in Chile". Renewable Energy World. 31 May 2016. Retrieved 22 July 2016.
  231. ^ "Inauguran en Monte Plata la planta de energía solar más grande de la región". Acento.
  232. ^ Francisco, Mayelin (30 March 2016). "Inaugurada planta de energía solar en Monte Plata".
  233. ^ "ENEL starts operation of South America's two largest solar parks in Brazil". ENEL Green Power. 18 September 2017. Retrieved 13 March 2019.
  234. ^ Mesbahi, Mina (8 February 2019). "Top 35 Solar Project in Australia". SolarPlaza. Retrieved 11 May 2020.
  235. ^ "Noor Abu Dhabi solar plant begins commercial operation". from the original on 30 June 2019. Retrieved 30 June 2019.
  236. ^ "World's Largest Solar Power Plant Switched On". Forbes. from the original on 30 June 2019. Retrieved 30 June 2019.
  237. ^ "Benban, Africa's largest solar park, completed". ebrd.com. Retrieved 29 November 2019.
  238. ^ "With 2,245 MW of Commissioned Solar Projects, World's Largest Solar Park is Now at Bhadla". 19 March 2020. Retrieved 20 March 2020.
  239. ^ "Núñez de Balboa completed: Iberdrola finalizes the construction of the largest photovoltaic plant in Europe within one year". Iberdrola. Retrieved 28 February 2020.

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  • Interactive mapping of worldwide projects over 10MW

February 16, 2024
photovoltaic, power, station, solar, power, plant, redirects, here, list, solar, thermal, stations, list, solar, thermal, power, stations, photovoltaic, power, station, also, known, solar, park, solar, farm, solar, power, plant, large, scale, grid, connected, . Solar power plant redirects here For list of solar thermal stations see List of solar thermal power stations A photovoltaic power station also known as a solar park solar farm or solar power plant is a large scale grid connected photovoltaic power system PV system designed for the supply of merchant power They are different from most building mounted and other decentralized solar power because they supply power at the utility level rather than to a local user or users Utility scale solar is sometimes used to describe this type of project The 40 5 MW Jannersdorf Solar Park in Prignitz GermanyThis approach differs from concentrated solar power the other major large scale solar generation technology which uses heat to drive a variety of conventional generator systems Both approaches have their own advantages and disadvantages but to date for a variety of reasons photovoltaic technology has seen much wider use As of 2019 update about 97 of utility scale solar power capacity was PV 1 2 In some countries the nameplate capacity of photovoltaic power stations is rated in megawatt peak MWp which refers to the solar array s theoretical maximum DC power output In other countries the manufacturer states the surface and the efficiency However Canada Japan Spain and the United States often specify using the converted lower nominal power output in MWAC a measure more directly comparable to other forms of power generation Most solar parks are developed at a scale of at least 1 MWp As of 2018 the world s largest operating photovoltaic power stations surpassed 1 gigawatt At the end of 2019 about 9 000 solar farms were larger than 4 MWAC utility scale with a combined capacity of over 220 GWAC 1 Most of the existing large scale photovoltaic power stations are owned and operated by independent power producers but the involvement of community and utility owned projects is increasing 3 Previously almost all were supported at least in part by regulatory incentives such as feed in tariffs or tax credits but as levelized costs fell significantly in the 2010s and grid parity has been reached in most markets external incentives are usually not needed Contents 1 History 2 Siting and land use 2 1 Agrivoltaics 2 2 Solar landfill 2 3 Co location 2 4 Solar farms in space 3 Technology 3 1 Solar array arrangements 3 1 1 Fixed arrays 3 1 2 Dual axis trackers 3 1 3 Single axis trackers 3 2 Power conversion 3 2 1 Centralized inverters 3 2 2 String inverters 3 2 3 Transformers 3 3 System performance 3 4 System degradation 4 The business of developing solar parks 4 1 Planning approval 4 2 Grid connection 4 3 Operation and maintenance 4 4 Power delivery 5 Economics and finance 5 1 Competitive energy costs of utility scale solar 5 2 Grid parity 5 3 Incentive mechanisms 5 3 1 Feed in tariffs 5 3 2 Renewable portfolio standards and supplier obligations 5 3 3 Loan guarantees and other capital incentives 5 3 4 Tax credits and other fiscal incentives 5 3 5 International national and regional programmes 5 4 Financial performance 6 Geography 6 1 China 6 2 Germany 6 3 India 6 4 Italy 6 5 Jordan 6 6 Spain 6 7 United States 7 Notable solar parks 8 See also 9 References 10 External linksHistory edit nbsp Serpa Solar Park built in Portugal in 2006The first 1 MWp solar park was built by Arco Solar at Lugo near Hesperia California at the end of 1982 4 followed in 1984 by a 5 2 MWp installation in Carrizo Plain 5 Both have since been decommissioned although a new plant Topaz Solar Farm was commissioned in Carrizo Plain in 2015 6 The next stage followed the 2004 revisions 7 to the feed in tariffs in Germany 8 when a substantial volume of solar parks were constructed 8 Several hundred installations over 1 MWp have since been installed in Germany of which more than 50 are over 10 MWp 9 With its introduction of feed in tariffs in 2008 Spain briefly became the largest market with some 60 solar parks over 10 MW 10 but these incentives have since been withdrawn 11 The USA 12 China 13 India 14 France 15 Canada 16 Australia 17 and Italy 18 among others have also become major markets as shown on the list of photovoltaic power stations The largest sites under construction have capacities of hundreds of MWp and some more than 1 GWp 19 20 21 Siting and land use edit nbsp Mosaic distribution of the photovoltaic PV power plants in the landscape of Southeast GermanyThe land area required for a desired power output varies depending on the location 22 the efficiency of the solar panels 23 the slope of the site 24 and the type of mounting used Fixed tilt solar arrays using typical panels of about 15 efficiency 25 on horizontal sites need about 1 hectare 2 5 acres MW in the tropics and this figure rises to over 2 hectares 4 9 acres in northern Europe 22 Because of the longer shadow the array casts when tilted at a steeper angle 26 this area is typically about 10 higher for an adjustable tilt array or a single axis tracker and 20 higher for a 2 axis tracker 27 though these figures will vary depending on the latitude and topography 28 The best locations for solar parks in terms of land use are held to be brown field sites or where there is no other valuable land use 29 Even in cultivated areas a significant proportion of the site of a solar farm can also be devoted to other productive uses such as crop growing 30 31 or biodiversity 32 The change in albedo affects local temperature One study claims a temperature rise due to the heat island effect 33 and another study claims that surroundings in arid ecosystems become cooler 34 Agrivoltaics edit Agrivoltaics is using the same area of land for both solar photovoltaic power and agriculture A recent study found that the value of solar generated electricity coupled to shade tolerant crop production created an over 30 increase in economic value from farms deploying agrivoltaic systems instead of conventional agriculture 35 Solar landfill edit nbsp Solar arrays on a full landfill in Rehoboth MAA Solar landfill is a repurposed used landfill that is converted to a solar array solar farm 36 Co location edit In some cases several different solar power stations with separate owners and contractors are developed on adjacent sites 37 38 This can offer the advantage of the projects sharing the cost and risks of project infrastructure such as grid connections and planning approval 39 40 Solar farms can also be co located with wind farms 41 Sometimes solar park is used to describe a set of individual solar power stations which share sites or infrastructure 39 42 43 and cluster is used where several plants are located nearby without any shared resources 44 Some examples of solar parks are the Charanka Solar Park where there are 17 different generation projects Neuhardenberg 45 46 with eleven plants and the Golmud solar park with total reported capacity over 500 MW 47 48 An extreme example would be calling all of the solar farms in the Gujarat state of India a single solar park the Gujarat Solar Park To avoid land use altogether in 2022 a 5 MW floating solar park was installed in the Alqueva Dam reservoir Portugal enabling solar power and hydroelectric energy to be combined 49 Separately a German engineering firm committed to integrating an offshore floating solar farm with an offshore wind farm to use ocean space more efficiently 49 The projects involve hybridization in which different renewable energy technologies are combined in one site 49 Solar farms in space edit The first successful test in January 2024 of a solar farm in space collecting solar power from a photovoltaic cell and beaming energy down to Earth constituted an early feasibility demonstration completed 50 Such setups are not limited by cloud cover or the Sun s cycle 50 Technology editMost solar parks are ground mounted PV systems also known as free field solar power plants 51 They can either be fixed tilt or use a single axis or dual axis solar tracker 52 While tracking improves the overall performance it also increases the system s installation and maintenance cost 53 54 A solar inverter converts the array s power output from DC to AC and connection to the utility grid is made through a high voltage three phase step up transformer of typically 10 kV and above 55 56 Solar array arrangements edit The solar arrays are the subsystems which convert incoming light into electrical energy 57 They comprise a multitude of solar panels mounted on support structures and interconnected to deliver a power output to electronic power conditioning subsystems 58 The majority are free field systems using ground mounted structures 51 usually of one of the following types Fixed arrays edit Many projects use mounting structures where the solar panels are mounted at a fixed inclination calculated to provide the optimum annual output profile 52 The panels are normally oriented towards the Equator at a tilt angle slightly less than the latitude of the site 59 In some cases depending on local climatic topographical or electricity pricing regimes different tilt angles can be used or the arrays might be offset from the normal east west axis to favour morning or evening output 60 A variant on this design is the use of arrays whose tilt angle can be adjusted twice or four times annually to optimise seasonal output 52 They also require more land area to reduce internal shading at the steeper winter tilt angle 26 Because the increased output is typically only a few percent it seldom justifies the increased cost and complexity of this design 27 Dual axis trackers edit Main article Solar tracker nbsp Bellpuig Solar Park near Lerida Spain uses pole mounted 2 axis trackersTo maximise the intensity of incoming direct radiation solar panels should be orientated normal to the sun s rays 61 To achieve this arrays can be designed using two axis trackers capable of tracking the sun in its daily movement across the sky and as its elevation changes throughout the year 62 These arrays need to be spaced out to reduce inter shading as the sun moves and the array orientations change so need more land area 63 They also require more complex mechanisms to maintain the array surface at the required angle The increased output can be of the order of 30 64 in locations with high levels of direct radiation but the increase is lower in temperate climates or those with more significant diffuse radiation due to overcast conditions So dual axis trackers are most commonly used in subtropical regions 63 and were first deployed at utility scale at the Lugo plant 4 Single axis trackers edit A third approach achieves some of the output benefits of tracking with a lesser penalty in terms of land area capital and operating cost This involves tracking the sun in one dimension in its daily journey across the sky but not adjusting for the seasons 65 The angle of the axis is normally horizontal though some such as the solar park at Nellis Air Force Base which has a 20 tilt 66 incline the axis towards the equator in a north south orientation effectively a hybrid between tracking and fixed tilt 67 Single axis tracking systems are aligned along axes roughly north south 68 Some use linkages between rows so that the same actuator can adjust the angle of several rows at once 65 Power conversion edit Solar panels produce direct current DC electricity so solar parks need conversion equipment 58 to convert this to alternating current AC which is the form transmitted by the electricity grid This conversion is done by inverters To maximise their efficiency solar power plants also vary the electrical load either within the inverters or as separate units These devices keep each solar array string close to its peak power point 69 There are two primary alternatives for configuring this conversion equipment centralized and string inverters 70 although in some cases individual or micro inverters are used 71 Single inverters allows optimizing the output of each panel and multiple inverters increases the reliability by limiting the loss of output when an inverter fails 72 Centralized inverters edit nbsp Waldpolenz Solar Park 73 is divided into blocks each with a centralised inverterThese units have relatively high capacity typically of the order between 1 MW up to 7 MW for newer units 2020 74 so they condition the output of a substantial block of solar arrays up to perhaps 2 hectares 4 9 acres in area 75 Solar parks using centralized inverters are often configured in discrete rectangular blocks with the related inverter in one corner or the centre of the block 76 77 78 String inverters edit String inverters are substantially lower in capacity than central inverters of the order of 10 kW up to 250 KW for newer models 2020 74 79 and condition the output of a single array string This is normally a whole or part of a row of solar arrays within the overall plant String inverters can enhance the efficiency of solar parks where different parts of the array are experiencing different levels of insolation for example where arranged at different orientations or closely packed to minimise site area 72 Transformers edit The system inverters typically provide power output at voltages of the order of 480 VAC up to 800 VAC 80 81 Electricity grids operate at much higher voltages of the order of tens or hundreds of thousands of volts 82 so transformers are incorporated to deliver the required output to the grid 56 Due to the long lead time the Long Island Solar Farm chose to keep a spare transformer onsite as transformer failure would have kept the solar farm offline for a long period 83 Transformers typically have a life of 25 to 75 years and normally do not require replacement during the life of a photovoltaic power station 84 System performance edit Main article Photovoltaic system performance nbsp Power station in Glynn County GeorgiaThe performance of a solar park depends on the climatic conditions the equipment used and the system configuration The primary energy input is the global light irradiance in the plane of the solar arrays and this in turn is a combination of the direct and the diffuse radiation 85 In some regions soiling the accumulation of dust or organic material on the solar panels that blocks incident light is a significant loss factor 86 A key determinant of the output of the system is the conversion efficiency of the solar panels which depends in particular on the type of solar cell used 87 There will be losses between the DC output of the solar panels and the AC power delivered to the grid due to a wide range of factors such as light absorption losses mismatch cable voltage drop conversion efficiencies and other parasitic losses 88 A parameter called the performance ratio 89 has been developed to evaluate the total value of these losses The performance ratio gives a measure of the output AC power delivered as a proportion of the total DC power which the solar panels should be able to deliver under the ambient climatic conditions In modern solar parks the performance ratio should typically be in excess of 80 90 91 System degradation edit Early photovoltaic systems output decreased as much as 10 year 5 but as of 2010 the median degradation rate was 0 5 year with panels made after 2000 having a significantly lower degradation rate so that a system would lose only 12 of its output performance in 25 years A system using panels which degrade 4 year will lose 64 of its output during the same period 92 Many panel makers offer a performance guarantee typically 90 in ten years and 80 over 25 years The output of all panels is typically warranted at plus or minus 3 during the first year of operation 93 The business of developing solar parks edit nbsp Westmill Solar Park 94 is the world s largest community owned solar power station 95 Solar power plants are developed to deliver merchant electricity into the grid as an alternative to other renewable fossil or nuclear generating stations 96 The plant owner is an electricity generator Most solar power plants today are owned by independent power producers IPP s 97 though some are held by investor or community owned utilities 98 Some of these power producers develop their own portfolio of power plants 99 but most solar parks are initially designed and constructed by specialist project developers 100 Typically the developer will plan the project obtain planning and connection consents and arrange financing for the capital required 101 The actual construction work is normally contracted to one or more engineering procurement and construction EPC contractors 102 unreliable source Major milestones in the development of a new photovoltaic power plant are planning consent 103 grid connection approval 104 financial close 105 construction 106 connection and commissioning 107 At each stage in the process the developer will be able to update estimates of the anticipated performance and costs of the plant and the financial returns it should be able to deliver 108 Planning approval edit nbsp Acceptance of wind and solar facilities in one s community is stronger among U S Democrats blue while acceptance of nuclear power plants is stronger among U S Republicans red 109 Photovoltaic power stations occupy at least one hectare for each megawatt of rated output 110 so require a substantial land area which is subject to planning approval The chances of obtaining consent and the related time cost and conditions vary by jurisdiction and location Many planning approvals will also apply conditions on the treatment of the site after the station has been decommissioned in the future 81 A professional health safety and environment assessment is usually undertaken during the design of a PV power station in order to ensure the facility is designed and planned in accordance with all HSE regulations Grid connection edit The availability locality and capacity of the connection to the grid is a major consideration in planning a new solar park and can be a significant contributor to the cost 111 Most stations are sited within a few kilometres of a suitable grid connection point This network needs to be capable of absorbing the output of the solar park when operating at its maximum capacity The project developer will normally have to absorb the cost of providing power lines to this point and making the connection in addition often to any costs associated with upgrading the grid so it can accommodate the output from the plant 112 Therefore solar power stations are sometimes built at sites of former coal fired power stations to reuse existing infrastructure 113 Operation and maintenance edit Once the solar park has been commissioned the owner usually enters into a contract with a suitable counterparty to undertake operation and maintenance O amp M 114 In many cases this may be fulfilled by the original EPC contractor 115 Solar plants reliable solid state systems require minimal maintenance compared to rotating machinery 116 A major aspect of the O amp M contract will be continuous monitoring of the performance of the plant and all of its primary subsystems 117 which is normally undertaken remotely 118 This enables performance to be compared with the anticipated output under the climatic conditions actually experienced 105 It also provides data to enable the scheduling of both rectification and preventive maintenance 119 A small number of large solar farms use a separate inverter 120 121 or maximizer 122 for each solar panel which provide individual performance data that can be monitored For other solar farms thermal imaging is used to identify non performing panels for replacement 123 Power delivery edit A solar park s income derives from the sales of electricity to the grid and so its output is metered in real time with readings of its energy output provided typically on a half hourly basis for balancing and settlement within the electricity market 124 Income is affected by the reliability of equipment within the plant and also by the availability of the grid network to which it is exporting 125 unreliable source Some connection contracts allow the transmission system operator to curtail the output of a solar park for example at times of low demand or high availability of other generators 126 Some countries make statutory provision for priority access to the grid 127 for renewable generators such as that under the European Renewable Energy Directive 128 Economics and finance editIn recent years PV technology has improved its electricity generating efficiency reduced the installation cost per watt as well as its energy payback time EPBT It has reached grid parity in most parts of the world and become a mainstream power source 129 130 131 As solar power costs reached grid parity PV systems were able to offer power competitively in the energy market The subsidies and incentives which were needed to stimulate the early market as detailed below were progressively replaced by auctions 132 and competitive tendering leading to further price reductions Competitive energy costs of utility scale solar edit The improving competitiveness of utility scale solar became more visible as countries and energy utilities introduced auctions 133 for new generating capacity Some auctions are reserved for solar projects 134 while others are open to a wider range of sources 135 The prices revealed by these auctions and tenders have led to highly competitive prices in many regions Amongst the prices quoted are Competitive energy prices achieved by utility scale PV plants in renewable energy auctions Date Country Agency Lowest price EquivalentUS kWh Equivalent MWh 2022 ReferenceOct 2017 Saudi Arabia Renewable Energy Project Development Office US 17 9 MWh 1 79 16 136 Nov 2017 Mexico CENACE US 17 7 MWh 1 77 16 137 Mar 2019 India Solar Energy Corporation of India INR 2 44 kWh 3 5 32 138 Jul 2019 Brazil Agencia Nacional de Energia Electrica BRL 67 48 MWh 1 752 16 139 Jul 2020 Abu Dhabi UAE Abu Dhabi Power Corporation AED fils 4 97 kWh 1 35 12 140 Aug 2020 Portugal Directorate General for Energy and Geology 0 01114 kWh 1 327 12 141 Dec 2020 India Gujarat Urja Vikas Nigam INR 1 99 kWh 2 69 24 142 Grid parity edit Main article Grid parity Solar generating stations have become progressively cheaper in recent years and this trend is expected to continue 143 Meanwhile traditional electricity generation is becoming progressively more expensive 144 These trends led to a crossover point when the levelised cost of energy from solar parks historically more expensive matched or beat the cost of traditional electricity generation 145 This point depends on locations and other factors and is commonly referred to as grid parity 146 For merchant solar power stations where the electricity is being sold into the electricity transmission network the levelised cost of solar energy will need to match the wholesale electricity price This point is sometimes called wholesale grid parity or busbar parity 147 Prices for installed PV systems show regional variations more than solar cells and panels which tend to be global commodities The IEA explains these discrepancies due to differences in soft costs which include customer acquisition permitting inspection and interconnection installation labor and financing costs 148 Incentive mechanisms edit Main article Financial incentives for photovoltaics In the years before grid parity had been reached in many parts of the world solar generating stations needed some form of financial incentive to compete for the supply of electricity 149 unreliable source Many countries used such incentives to support the deployment of solar power stations 150 Feed in tariffs edit Main article Feed in tariff Feed in tariffs are designated prices which must be paid by utility companies for each kilowatt hour of renewable electricity produced by qualifying generators and fed into the grid 151 These tariffs normally represent a premium on wholesale electricity prices and offer a guaranteed revenue stream to help the power producer finance the project 152 Renewable portfolio standards and supplier obligations edit Main article Renewable portfolio standard These standards are obligations on utility companies to source a proportion of their electricity from renewable generators 153 In most cases they do not prescribe which technology should be used and the utility is free to select the most appropriate renewable sources 154 There are some exceptions where solar technologies are allocated a proportion of the RPS in what is sometimes referred to as a solar set aside 155 Loan guarantees and other capital incentives edit Main article Loan guarantee Some countries and states adopt less targeted financial incentives available for a wide range of infrastructure investment such as the US Department of Energy loan guarantee scheme 156 which stimulated a number of investments in the solar power plant in 2010 and 2011 157 Tax credits and other fiscal incentives edit Another form of indirect incentive which has been used to stimulate investment in solar power plant was tax credits available to investors In some cases the credits were linked to the energy produced by the installations such as the Production Tax Credits 158 In other cases the credits were related to the capital investment such as the Investment Tax Credits 159 International national and regional programmes edit In addition to free market commercial incentives some countries and regions have specific programs to support the deployment of solar energy installations The European Union s Renewables Directive 160 sets targets for increasing levels of deployment of renewable energy in all member states Each has been required to develop a National Renewable Energy Action Plan showing how these targets would be met and many of these have specific support measures for solar energy deployment 161 The directive also allows states to develop projects outside their national boundaries and this may lead to bilateral programs such as the Helios project 162 The Clean Development Mechanism 163 of the UNFCCC is an international programme under which solar generating stations in certain qualifying countries can be supported 164 Additionally many other countries have specific solar energy development programmes Some examples are India s JNNSM 165 the Flagship Program in Australia 166 and similar projects in South Africa 167 and Israel 168 Financial performance edit The financial performance of the solar power plant is a function of its income and its costs 27 The electrical output of a solar park will be related to the solar radiation the capacity of the plant and its performance ratio 89 The income derived from this electrical output will come primarily from the sale of the electricity 169 and any incentive payments such as those under Feed in Tariffs or other support mechanisms 170 Electricity prices may vary at different times of day giving a higher price at times of high demand 171 This may influence the design of the plant to increase its output at such times 172 The dominant costs of solar power plants are the capital cost and therefore any associated financing and depreciation 173 Though operating costs are typically relatively low especially as no fuel is required 116 most operators will want to ensure that adequate operation and maintenance cover 117 is available to maximise the availability of the plant and thereby optimise the income to cost ratio 174 Geography editMain articles Solar power by country and Growth of photovoltaics The first places to reach grid parity were those with high traditional electricity prices and high levels of solar radiation 22 The worldwide distribution of solar parks is expected to change as different regions achieve grid parity 175 This transition also includes a shift from rooftop towards utility scale plants since the focus of new PV deployment has changed from Europe towards the Sunbelt markets where ground mounted PV systems are favored 176 43 Because of the economic background large scale systems are presently distributed where the support regimes have been the most consistent or the most advantageous 177 Total capacity of worldwide PV plants above 4 MWAC was assessed by Wiki Solar as c 220 GW in c 9 000 installations at the end of 2019 1 and represents about 35 percent of estimated global PV capacity of 633 GW up from 25 percent in 2014 178 176 needs update Activities in the key markets are reviewed individually below China edit Main article Solar power in China In 2013 China overtook Germany as the nation with the most utility scale solar capacity 179 Much of this has been supported by the Clean Development Mechanism 180 The distribution of power plants around the country is quite broad with the highest concentration in the Gobi desert 13 and connected to the Northwest China Power Grid 181 Germany edit Main article Solar power in Germany The first multi megawatt plant in Europe was the 4 2 MW community owned project at Hemau commissioned in 2003 182 But it was the revisions to the German feed in tariffs in 2004 7 which gave the strongest impetus to the establishment of utility scale solar power plants 183 The first to be completed under this programme was the Leipziger Land solar park developed by Geosol 184 Several dozen plants were built between 2004 and 2011 several of which were at the time the largest in the world The EEG the law which establishes Germany s feed in tariffs provides the legislative basis not just for the compensation levels but other regulatory factors such as priority access to the grid 127 The law was amended in 2010 to restrict the use of agricultural land 185 since which time most solar parks have been built on so called development land such as former military sites 45 Partly for this reason the geographic distribution of photovoltaic power plants in Germany 9 is biased towards the former East Germany 186 187 India edit nbsp Bhadla Solar Park is the world s largest solar park located in IndiaMain article Solar power in India India has been rising up the leading nations for the installation of utility scale solar capacity The Charanka Solar Park in Gujarat was opened officially in April 2012 188 and was at the time the largest group of solar power plants in the world Geographically the states with the largest installed capacity are Telangana Rajasthan and Andhra Pradesh with over 2 GW of installed solar power capacity each 189 Rajasthan and Gujarat share the Thar Desert along with Pakistan In May 2018 the Pavagada Solar Park became functional and had a production capacity of 2GW As of February 2020 it is the largest Solar Park in the world 190 191 In September 2018 Acme Solar announced that it had commissioned India s cheapest solar power plant the 200 MW Rajasthan Bhadla solar power park 192 Italy edit Main article Solar power in Italy Italy has a large number of photovoltaic power plants the largest of which is the 84 MW Montalto di Castro project 193 Jordan edit By the end of 2017 it was reported that more than 732 MW of solar energy projects had been completed which contributed to 7 of Jordan s electricity 194 After having initially set the percentage of renewable energy Jordan aimed to generate by 2020 at 10 the government announced in 2018 that it sought to beat that figure and aim for 20 195 needs update Spain edit Main article Solar power in Spain The majority of the deployment of solar power stations in Spain to date occurred during the boom market of 2007 8 196 needs update The stations are well distributed around the country with some concentration in Extremadura Castile La Mancha and Murcia 10 United States edit Main article Solar power in the United States nbsp Locations of solar photovoltaic facility locations having a direct current capacity of 1 megawatt or more 197 The US deployment of photovoltaic power stations is largely concentrated in southwestern states 12 The Renewable Portfolio Standards in California 198 and surrounding states 199 200 provide a particular incentive Notable solar parks editMain article List of photovoltaic power stations The following solar parks were at the time they became operational the largest in the world or their continent or are notable for the reasons given Noteworthy solar power plants Name Country 201 Nominal power MW 202 203 Commissioned NotesLugo 4 San Bernardino County California USA 1 MW Dec 1982 First MW plantCarrisa Plain 5 USA 5 6 MW Dec 1985 World s largest at the timeHemau 182 Germany 4 0 MW Apr 2003 Europe s largest community owned facility 182 at the timeLeipziger Land 184 Germany 4 2 MW Aug 2004 Europe s largest at the time first under FITs 27 184 Pocking 204 Germany 10 MW Apr 2006 Briefly the world s largestNellis Air Force Base Nevada 205 USA 14 MW Dec 2007 America s largest at the timeOlmedilla 206 Spain 60 MW Jul 2008 World s and Europe s largest at the timeSetouchi Kirei Japan 235 MW Unknown Largest solar park in JapanMakran Iran 20 MW Unknown Largest solar park in IranSinan 207 Korea 24 MW Aug 2008 Asia s largest at the timeWaldpolenz Saxony 73 Germany 40 MW Dec 2008 World s largest thin film plant Extended to 52 MW in 2011 27 DeSoto Florida 208 USA 25 MW Oct 2009 America s largest at the timeLa Roseraye 209 Reunion 11 MW Apr 2010 Africa s first 10 MW plantSarnia Ontario 210 Canada 97 MWP Sep 2010 World s largest at the time Corresponds to 80 MWAC Golmud Qinghai 211 China 200 MW Oct 2011 World s largest at the timeFinow Tower 212 Germany 85 MW Dec 2011 Extension takes it to Europe s largestLopburi 213 Thailand 73 MW Dec 2011 Asia s largest outside China 27 at the timePerovo Crimea 214 Ukraine 100 MW Dec 2011 Becomes Europe s largestCharanka Gujarat 215 216 India 221 MW Apr 2012 Asia s largest solar parkAgua Caliente Arizona 217 USA 290 MWAC Jul 2012 World s largest solar plant at the timeNeuhardenberg Brandenburg 45 Germany 145 MW Sep 2012 Becomes Europe s largest solar clusterGreenhough River Western Australia 218 Australia 10 MW Oct 2012 Australasia s first 10 MW plantTze elim Negev Israel 120 MW Jan 2020 Largest PV plant in Israel 219 Majes and Reparticion Peru 22 MW Oct 2012 First utility scale plants in South America 220 221 Westmill Solar Park Oxfordshire 94 United Kingdom 5 MW Oct 2012 Acquired by Westmill Solar Co operative to become world s largest community owned solar power station 95 San Miguel Power Colorado USA 1 1 MW Dec 2012 Biggest community owned plant in USA 222 Sheikh Zayed Nouakchott 223 Mauritania 15 MW Apr 2013 Largest solar power plant in Africa 224 Topaz 19 Riverside County California USA 550 MWAC Nov 2013 World s largest solar park at the time 225 Amanacer Copiapo Atacama Chile 93 7 MW Jan 2014 Largest in South America 226 at the timeJasper Postmasburg Northern Cape South Africa 88 MW Nov 2014 Largest plant in AfricaLongyangxia PV Hydro power project Gonghe Qinghai China 850 MWP Dec 2014 Phase II of 530 MW added to 320 MW Phase I 2013 227 makes this the world s largest solar power stationNyngan New South Wales Australia 102 MW Jun 2015 Becomes largest plant in Australasia and OceaniaSolar Star 228 Los Angeles County California USA 579 MWAC Jun 2015 Becomes the world s largest solar farm installation project Longyanxia having been constructed in two phases Cestas Aquitaine France 300 MW Dec 2015 Largest PV plant in Europe 229 Finis Terrae Maria Elena Tocopilla Chile 138 MWAC May 2016 Becomes largest plant in South America 230 Monte Plata Solar Monte Plata Dominican Republic 30 MW March 2016 Largest PV plant in The Caribbean 231 232 Ituverava Ituverava Sao Paulo Brazil 210 MW Sep 2017 Largest PV plant in South America 233 Bungala Port Augusta SA Australia 220 MWAC Nov 2018 Becomes Australasia s largest solar power plant 234 Noor Abu Dhabi Sweihan Abu Dhabi United Arab Emirates 1 177 MWP Jun 2019 The largest single solar power plant as opposed to co located group of projects in Asia and the world 235 236 Cauchari Solar Plant Cauchari Argentina 300 MW Oct 2019 Becomes South America s largest solar power plantBenban Solar Park Benban Aswan Egypt 1 500 MW Oct 2019 Group of 32 co located projects becomes the largest in Africa 237 Bhadla Solar Park Bhadlachuhron Ki Rajasthan India 2 245 MW Mar 2020 Group of 31 co located solar plants reported to be the largest solar park in the world 238 High Plateaus East Adrar Algeria 90 MW Unknown Largest solar park in AlgeriaVillanueva Solar Park Mexico 828 MW 2018 Largest solar park in North AmericaKalyon Karapinar Solar Power Plant Turkey 1 350 MW 2023 Largest solar park in TurkeyNunez de Balboa solar plant Usagre Badajoz Spain 500 MWAC Mar 2020 Overtakes Mula Photovoltaic Power Plant 450 MWAC installed three months earlier to become Europe s largest solar power plant 239 See also edit nbsp Energy portal nbsp Renewable energy portalGrowth of photovoltaics List of solar thermal power stations List of photovoltaic power stations List of photovoltaics companies List of solar cell manufacturers Photovoltaics Photovoltaic system Solar energy Solar power by country Theory of solar cellReferences edit a b c Wolfe Philip 17 March 2020 Utility scale solar sets new record PDF Wiki Solar Retrieved 11 May 2010 Concentrated solar power had a global total installed capacity of 6 451 MW in 2019 HelioCSP 2 February 2020 Retrieved 11 May 2020 Expanding Renewable Energy in Pakistan s Electricity Mix World Bank Retrieved 17 July 2022 a b c Arnett J C Schaffer L A Rumberg J P Tolbert R E L et al 1984 Design installation and performance of the ARCO Solar one megawatt power plant Proceedings of the Fifth International Conference Athens Greece EC Photovoltaic Solar Energy Conference 314 Bibcode 1984pvse conf 314A a b c Wenger H J et al Decline of the Carrisa Plains PV power plant Photovoltaic Specialists Conference 1991 Conference Record of the Twenty Second IEEE IEEE doi 10 1109 PVSC 1991 169280 S2CID 120166422 Topaz Solar Farm California earthobservatory nasa gov 5 March 2015 Retrieved 11 October 2022 a b The Renewable Energy Sources Act PDF Bundesgesetzblatt 2004 I No 40 Bundesumweltministerium BMU 21 July 2004 Retrieved 13 April 2013 permanent dead link a b Top 10 Solar PV power plants SolarLab 4 August 2023 Retrieved 9 August 2023 a b Solar parks map Germany Wiki Solar Retrieved 22 March 2018 a b Solar parks map Spain Wiki Solar Retrieved 22 March 2018 An Early Focus on Solar National Geographic Retrieved 22 March 2018 dead link Retrieved 5 March 2015 a b Solar parks map USA Wiki Solar Retrieved 22 March 2018 a b Solar parks map China Wiki Solar Retrieved 22 March 2018 Solar parks map India Wiki Solar Retrieved 22 March 2018 Solar parks map France Wiki Solar Retrieved 22 March 2018 Solar parks map Canada Wiki Solar Retrieved 22 March 2018 Solar parks map Australia Wiki Solar Retrieved 22 March 2018 Solar parks map Italy Wiki Solar Retrieved 22 March 2018 a b Topaz Solar Farm First Solar Archived from the original on 5 March 2013 Retrieved 2 March 2013 Olson Syanne 10 January 2012 Dubai readies for 1 000MW Solar Park PV Tech Retrieved 21 February 2012 MX Group Spa signs a 1 75 Billion Euros agreement for the construction in Serbia of the largest solar park in the world PDF Retrieved 6 March 2012 a b c Statistics about selected locations for utility scale solar parks Wiki Solar Retrieved 5 March 2015 Joshi Amruta Estimating per unit area energy output from solar PV modules National Centre for Photovoltaic Research and Education Retrieved 5 March 2013 Screening Sites for Solar PV Potential PDF Solar Decision Tree US Environmental Protection Agency Retrieved 5 March 2013 An overview of PV panels SolarJuice Archived from the original on 30 April 2015 Retrieved 5 March 2013 a b Calculating Inter Row Spacing PDF Technical Questions amp Answers Solar Pro Magazine Archived from the original PDF on 21 October 2012 Retrieved 5 March 2013 a b c d e f Wolfe Philip 2012 Solar Photovoltaic Projects in the Mainstream Power Market Oxford Routledge p 240 ISBN 978 0 415 52048 5 Solar Radiation on a Tilted Surface PVEducation org Retrieved 22 April 2013 Solar parks maximising environmental benefits Natural England Retrieved 30 August 2012 Person County Solar Park Makes Best Use of Solar Power and Sheep solarenergy Retrieved 22 April 2013 Person County Solar Park One Carolina Solar Energy Retrieved 22 April 2013 Solar Parks Opportunities for Biodiversity German Renewable Energies Agency Archived from the original on 1 July 2013 Retrieved 22 April 2013 Barron Gafford Greg A Minor Rebecca L Allen Nathan A Cronin Alex D Brooks Adria E Pavao Zuckerman Mitchell A December 2016 The Photovoltaic Heat Island Effect Larger solar power plants increase local temperatures Scientific Reports 6 1 35070 Bibcode 2016NatSR 635070B doi 10 1038 srep35070 PMC 5062079 PMID 27733772 S2CID 4587161 Guoqing Li Hernandez Rebecca R Blackburn George Alan Davies Gemma Hunt Merryn Whyatt James Duncan Armstrong Alona August 2021 Ground mounted photovoltaic solar parks promote land surface cool islands in arid ecosystems Renewable and Sustainable Energy Transition 1 100008 doi 10 1016 j rset 2021 100008 S2CID 239061813 Harshavardhan Dinesh Joshua M Pearce The potential of agrivoltaic systems Renewable and Sustainable Energy Reviews 54 299 308 2016 https time com 6183376 landfills becoming solar farms Wolfe Philip The world s largest solar power stations PDF Wiki Solar Retrieved 11 May 2020 Addendum to conditional use permit PDF Kern County Planning and Community development Department Archived from the original PDF on 3 February 2016 Retrieved 22 April 2013 a b Wolfe Philip The world s largest solar parks PDF Wiki Solar Retrieved 11 May 2020 Smart Grid transmission scheme for Evacuation of Solar Power PDF Workshop on smart grid development Pandit Deendayal Petroleum University Retrieved 5 March 2013 E ON s Solar PV Portfolio E On Archived from the original on 7 March 2013 Retrieved 22 April 2013 Solar parks maximising environmental benefits Natural England Retrieved 22 April 2013 First solar park set for Upington Northern Cape Frontier Market Intelligence Retrieved 22 April 2013 Wolfe Philip Large clusters of solar power stations PDF Wiki Solar Retrieved 11 May 2020 a b c ENFO entwickelt grosstes Solarprojekt Deutschlands Enfo AG Retrieved 28 December 2012 Solarpark Neuhardenberg site plan Wiki Solar Retrieved 22 March 2018 Qinghai leads in photovoltaic power China Daily 2 March 2012 Retrieved 21 February 2013 Golmud Desert Solar Park satellite view Wiki Solar Retrieved 22 March 2018 a b c Frangoul Anmar 22 July 2022 A pilot project in the North Sea will develop floating solar panels that glide over waves like a carpet CNBC Archived from the original on 22 July 2022 a b Cuthbertson Anthony 18 January 2024 First ever space to Earth solar power mission succeeds The Independent Archived from the original on 19 January 2024 a b Free field solar power plants a solution that allows power to be generated faster and more cost effectively than offshore wind OpenPR 20 April 2011 Retrieved 5 March 2013 a b c Optimum Tilt of Solar Panels MACS Lab Retrieved 19 October 2014 Tracked vs Fixed PV system cost and AC power production comparison PDF WattSun Archived from the original PDF on 22 November 2010 Retrieved 30 August 2012 To Track or Not To Track Part II Report Snapshot Greentech Solar Retrieved 5 March 2013 3 phase transformer PDF Conergy Archived from the original PDF on 17 January 2022 Retrieved 5 March 2013 a b Popua Solar Farm Meridian Energy Archived from the original on 16 June 2019 Retrieved 22 April 2013 Solar cells and photovoltaic arrays Photovoltaics Alternative Energy News Retrieved 5 March 2013 a b Kymakis Emmanuel et al Performance analysis of a grid connected photovoltaic park on the island of Crete PDF Elsevier Archived from the original PDF on 17 April 2012 Retrieved 30 December 2012 Mounting solar panels 24 volt Retrieved 5 March 2013 Best Practice Guide for Photovoltaics PV PDF Sustainable Energy Authority of Ireland Archived from the original PDF on 24 March 2012 Retrieved 30 December 2012 PV Energy Conversion Efficiency Solar Energy Solarlux Retrieved 5 March 2013 Mousazadeh Hossain et al A review of principle and sun tracking methods for maximizing PDF Renewable and Sustainable Energy Reviews 13 2009 1800 1818 Elsevier Retrieved 30 December 2012 a b Appleyard David June 2009 Solar Trackers Facing the Sun Renewable Energy World Retrieved 5 March 2013 Suri Marcel et al Solar Electricity Production from Fixed inclined and Sun tracking c Si Photovoltaic Modules in PDF Proceedings of 1st Southern African Solar Energy Conference SASEC 2012 21 23 May 2012 Stellenbosch South Africa GeoModel Solar Bratislava Slovakia Archived from the original PDF on 8 March 2014 Retrieved 30 December 2012 a b Shingleton J One Axis Trackers Improved Reliability Durability Performance and Cost Reduction PDF National Renewable Energy Laboratory Retrieved 30 December 2012 Nellis Air Force Base Solar Power System PDF US Air Force Archived from the original PDF on 24 January 2013 Retrieved 14 April 2013 T20 Tracker PDF Data sheet SunPower Corporation Retrieved 14 April 2013 Li Zhimin et al June 2010 Optical performance of inclined south north single axis tracked solar panels Energy 10 6 2511 2516 doi 10 1016 j energy 2010 02 050 Invert your thinking Squeezing more power out of your solar panels scientificamerican com Retrieved 9 June 2011 Understanding Inverter Strategies Solar Novus Today Retrieved 13 April 2013 Photovoltaic micro inverters SolarServer Retrieved 13 April 2013 a b Case study German solar park chooses decentralized control Solar Novus Retrieved 13 April 2013 a b Waldpolenz Solar Park Juwi Archived from the original on 3 March 2016 Retrieved 13 April 2012 a b Lee Leesa 2 March 2010 Inverter technology drives lower solar costs Renewable Energy World Retrieved 30 December 2012 Solar Farm Fact Sheet PDF IEEE Retrieved 13 April 2012 Sandringham Solar Farm PDF Invenergy Archived from the original PDF on 3 February 2016 Retrieved 13 April 2012 McHenry Solar Farm PDF ESA Retrieved 13 April 2013 permanent dead link Woodville Solar Farm PDF Dillon Consulting Limited Archived from the original PDF on 3 February 2016 Retrieved 13 April 2013 Appleyard David Making waves Inverters continue to push efficiency Renewable Energy World Archived from the original on 1 February 2013 Retrieved 13 April 2013 1 MW Brilliance Solar Inverter General Electric Company Archived from the original on 15 April 2013 Retrieved 13 April 2013 a b Planning aspects of solar parks PDF Ownergy Plc Archived from the original PDF on 14 May 2014 Retrieved 13 April 2013 Larsson Mats Coordinated Voltage Control PDF International Energy Agency Retrieved 13 April 2013 Long Island Solar Farm Goes Live Blue Oak Energy Retrieved 22 April 2013 Retrieved 13 April 2013 Analysis of Transformer Failures BPL Global Retrieved 22 April 2013 Retrieved 13 April 2013 Myers D R September 2003 Solar Radiation Modeling and Measurements for Renewable Energy Applications Data and Model Quality PDF Proceedings of International Expert Conference on Mathematical Modeling of Solar Radiation and Daylight Retrieved 30 December 2012 Ilse K Micheli L Figgis BW Lange K Dassler D Hanifi H Wolfertstetter F Naumann V Hagendorf C Gottschalg R Bagdahn J 2019 Techno Economic Assessment of Soiling Losses and Mitigation Strategies for Solar Power Generation Joule 3 10 2303 2321 doi 10 1016 j joule 2019 08 019 hdl 11573 1625631 Green Martin Emery Keith Hishikawa Yoshihiro amp Warta Wilhelm 2009 Solar Cell Efficiency Tables PDF Progress in Photovoltaics Research and Applications 17 85 94 doi 10 1002 pip 880 S2CID 96129300 Archived from the original PDF on 11 June 2012 Retrieved 30 December 2012 Picault D Raison B Bacha S de la Casa J Aguilera J 2010 Forecasting photovoltaic array power production subject to mismatch losses PDF Solar Energy 84 7 1301 1309 Bibcode 2010SoEn 84 1301P doi 10 1016 j solener 2010 04 009 Archived from the original PDF on 27 March 2014 Retrieved 5 March 2013 a b Marion B et al Performance Parameters for Grid Connected PV Systems PDF NREL Retrieved 30 August 2012 The Power of PV Case Studies on Solar Parks in Eastern PDF Proceeding Renexpo CSun Archived from the original PDF on 8 April 2022 Retrieved 5 March 2013 Avenal in ascendance Taking a closer look at the world s largest silicon thin film PV power plant PV Tech Archived from the original on 22 February 2015 Retrieved 22 April 2013 Outdoor PV Degradation Comparison National Renewable Energy Laboratory Retrieved 22 April 2013 Retrieved 13 April 2013 New Industry Leading Warrantee REC Group Retrieved 22 April 2013 Retrieved 13 April 2013 a b Westmill Solar Park Westmill Solar Co operative Ltd Retrieved 30 December 2012 a b Grover Sami World s Largest Community Owned Solar Project Launches in England Treehugger Retrieved 30 December 2012 Alternative Energy Alternative Energy Retrieved 7 March 2013 independent power producer IPP non utility generator NUG Dictionary Energy Vortex Retrieved 30 December 2012 Investor owned utility The Free Dictionary Retrieved 30 December 2012 Owners and IPPs Deployment of utility scale solar parks by company Wiki Solar Retrieved 5 March 2015 Wang Ucilia 27 August 2012 The Crowded Field of Solar Project Development Renewable Energy World Retrieved 30 December 2012 Leadership across the Entire Value Chain First Solar Retrieved 7 March 2013 Englander Daniel 18 May 2009 Solar s New Important Players Seeking Alpha Retrieved 30 December 2012 Solar farm on 20 acres of Kauai land gets county planning commission approval Solar Hawaii 15 July 2011 Retrieved 7 March 2013 Aylesford Certificate for grid connection Aylesford Solar Park AG Renewables Retrieved 7 March 2013 a b SunEdison Closes R2 6 Billion US 314 Million in Funding for 58 MW AC in South Africa Solar Projects SunEdison Retrieved 7 March 2013 juwi starts build on its first solar park in South Africa Renewable Energy Focus 19 February 2013 Retrieved 7 March 2013 Saudi Arabia s Largest Solar Park Commissioned Islamic Voice 15 February 2013 Retrieved 7 March 2013 Large scale solar parks Know Your Planet Retrieved 7 March 2013 Chiu Allyson Guskin Emily Clement Scott 3 October 2023 Americans don t hate living near solar and wind farms as much as you might think The Washington Post Archived from the original on 3 October 2023 Statistics about some selected markets for utility scale solar parks Wiki Solar Retrieved 30 December 2012 Ta kommatia toy pazl mias ependyshs se F B Greek Photovoltaics Guide Renelux Retrieved 30 December 2012 Connecting your new home building or development to Ausgrid s electricity network Ausgrid Retrieved 30 December 2012 The Switch to Solar at Coal Power Plants and Mines is On dpfacilities com Retrieved 17 November 2021 McHale Maureen Not All O amp M Agreements Are Alike InterPV Retrieved 30 December 2012 Project Overview Agua Caliente Solar Project First Solar Retrieved 7 March 2013 a b Advantages of Solar Energy Conserve Energy Future 20 January 2013 Retrieved 7 March 2013 a b Addressing Solar Photovoltaic Operations and Maintenance Challenges PDF A Survey of Current Knowledge and Practices Electric Power Research Institute EPRI Retrieved 30 December 2012 IT for Renewable energy sources management PDF inAccess Networks Retrieved 7 March 2013 Solar Park Maintenance BeBa Energy Retrieved 7 March 2013 Featured Array Brewster Community Solar Garden Facility Retrieved 3 May 2013 Featured Array Strain Ranches Retrieved 3 May 2013 Talmage Solar Engineering Inc Unveils Largest Smart Array in North America Press release 31 July 2012 Retrieved 3 May 2013 PV Power Plants 2012 PDF p 35 Retrieved 3 May 2013 Introduction to the Balancing and Settlement Code Elexon Retrieved 30 December 2012 Mitavachan H et al A case study of a 3 MW scale grid connected solar photovoltaic power plant at Kolar Karnataka Renewable Energy Systems Indian Institute of Science Electricity network delivery and access UK Department of Energy and Climate Change Retrieved 7 March 2013 a b Renewable electricity European Renewable Energy Council Retrieved 31 July 2012 Directive 2009 28 EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable sources and amending and subsequently repealing Directives 2001 77 EC and 2003 30 EC European Commission Retrieved 7 March 2013 2014 Outlook Let the Second Gold Rush Begin PDF Deutsche Bank Markets Research 6 January 2014 Archived PDF from the original on 29 November 2014 Retrieved 22 November 2014 Giles Parkinson 13 August 2014 Citigroup Outlook for global solar is getting brighter RenewEconomy Retrieved 18 August 2014 Solar power is entering the mainstream Bloomberg Businessweek Retrieved 22 April 2013 dead link International Renewable Energy Agency June 2019 Renewable energy auctions and trends beyond price PDF 32 Retrieved 8 January 2021 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help World Bank October 2014 Performance of Renewable Energy Auctions PDF 39 Retrieved 8 January 2021 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Dezem Vanessa 31 October 2014 Brazil Solar Power Auction May Spur 1 Billion in Investment Renewable Energy World Bloomberg Retrieved 8 January 2021 Gorey Colm 11 September 2020 160 wind turbines and 1 750 hectares of solar approved in first State auction Silicon Republic Retrieved 8 January 2021 Saudi Arabia sets lowest ever PV price IEA hikes solar growth outlook by a third Reuters 11 October 2017 Retrieved 8 January 2021 Mexico sets world s lowest solar price Energy storage to hit 125 GW by 2030 Reuters 22 November 2017 Retrieved 8 January 2021 Rajasthan solar auction draws electricity price of just 3 5 US cents IndustryAbout 5 March 2019 Retrieved 8 January 2021 Brazil posts new world record low price for solar power Business Green 2 July 2019 Retrieved 8 January 2021 Ombello Carlo 8 July 2020 1 35 Cents kWh Record Abu Dhabi Solar Bid Is A Sober Reminder To Upbeat Fossil Fuel Pundits CleanTechnica Retrieved 8 January 2021 Shahan Zachary 30 August 2020 New Record Low Solar Price Bid 1 3 kWh CleanTechnica Retrieved 8 January 2021 Indian PV auction delivers final record low price of 0 0269 kWh Focus Technica 22 December 2020 Retrieved 8 January 2021 Aaron 23 November 2012 Solar panels to keep getting cheaper Evo Energy Retrieved 13 January 2015 Jago Simon 6 March 2013 Prices going one way Energy Live News Retrieved 7 March 2013 Burkart Karl 5 breakthroughs that will make solar power cheaper than coal Mother Nature Network Retrieved 7 March 2013 Spross Jeff Solar Report Stunner Unsubsidized Grid Parity Has Been Reached In India Italy With More Countries Coming in 2014 Climate Progress Retrieved 22 April 2013 Morgan Baziliana et al 17 May 2012 Re considering the economics of photovoltaic power UN Energy Report United Nations Archived from the original on 16 May 2016 Retrieved 20 November 2012 Technology Roadmap Solar Photovoltaic Energy PDF IEA 2014 Archived PDF from the original on 1 October 2014 Retrieved 7 October 2014 Wolfe Philip 19 May 2009 Priorities for low carbon transition The politics of Climate Change The Policy Network Retrieved 7 March 2013 Taxes and Incentives for renewable energy PDF KPMG Retrieved 7 March 2013 Policymaker s Guide to Feed in Tariff Policy Design National Renewable Energy Laboratory Retrieved 22 April 2013 Couture T Cory K Kreycik C Williams E 2010 National Renewable Energy Laboratory U S Dept of Energy What are Feed in Tariffs Feed in Tariffs Limited Retrieved 7 March 2013 Race to the Top The Expanding Role of U S State Renewable Portfolio Standards University of Michigan Retrieved 22 April 2013 Investment in electricity generation the role of costs incentives and risks PDF UK Energy Research Centre Retrieved 7 March 2013 Solar Carve Outs in Renewables Portfolio Standards Dsire Solar Archived from the original on 21 October 2012 Retrieved 30 December 2012 Innovative Technology Loan Guarantee Program PDF US DOE Loan Guarantee Program Office LGPO Retrieved 21 February 2012 Independent Review DOE s Loan Guarantee Program Has Worked Can Be Better GreenTech Media Retrieved 7 March 2013 Production Tax Credit for Renewable Energy Union of Concerned Scientists Retrieved 30 August 2012 Business Energy Investment Tax Credit ITC US Department of Energy Retrieved 21 February 2012 Directive 2009 28 EC of the European Parliament and of the Council Renewables Directive European Commission Ragwitz Mario et al Assessment of National Renewable Energy Action Plans PDF REPAP 2020 Fraunhofer Institut Retrieved 7 March 2013 Williams Andrew 3 November 2011 Project Helios A brighter future for Greece Solar Novus Today Retrieved 7 March 2013 Clean Development Mechanism CDM UNFCCC Retrieved 30 December 2012 CDM projects grouped in types UNEP Riso Centre Retrieved 7 March 2013 Ministry of New and Renewable Energy The Jawaharlal Nehru National Solar Mission Scheme documents Government of India Archived from the original on 31 January 2018 Retrieved 30 December 2012 Department for Resources Energy and Tourism 11 December 2009 Solar Flagships Program Open for Business Government of Australia Retrieved 30 December 2012 South Africa Renewable Energy Programme to Bring R47 Billion in Investment allAfrica com 29 October 2012 Retrieved 30 December 2012 Solar Energy Ministry of Energy and Water Resources Retrieved 30 December 2012 Investment in Solar Parks Solar Partner Retrieved 7 March 2013 Community ownership FAQs Westmill Solar Cooperative Retrieved 7 March 2013 What are time of use rates and how do they work Pacific Gas and Electric Archived from the original on 2 February 2014 Retrieved 7 March 2013 Optimum Orientation of Solar Panels for Time of Use Rates Macs Lab Retrieved 22 April 2013 The Optimum Financing Structure Green Rhino Energy Retrieved 7 March 2013 Belfiore Francesco Optimizing PV Plant O amp M Requires Focus on the Project Lifecycle Renewable Energy World Retrieved 7 March 2013 Solar Photovoltaics competing in the energy sector On the road to competitiveness European Photovoltaic Industry Association Retrieved 13 April 2013 a b Global Market Outlook for Photovoltaics 2014 2018 PDF epia org EPIA European Photovoltaic Industry Association Archived from the original PDF on 25 June 2014 Retrieved 12 June 2014 Renewable Power Policy and the Cost of Capital UNEP BASE Sustainable Energy Finance Initiative Retrieved 22 April 2013 Retrieved 13 April 2013 Utility scale solar breaks all records in 2014 to reach 36 GW PDF wiki solar org Wiki Solar Hill Joshua 22 February 2013 Giant Solar Farm Capacity Doubling Inside 12 Months Breaking 12 GW Clean Technica Retrieved 7 March 2013 Project search CDM Project activities UNFCCC Retrieved 7 March 2013 Northwest China Grid Company Limited Northwest China Grid Company Limited Retrieved 22 April 2013 a b c In Hemau liefert der weltweit grosste Solarpark umweltfreundlichen Strom aus der Sonne in German Stadt Hemau Retrieved 13 April 2013 Best of Both Worlds What if German installation costs were combined with the best solar resources National Renewable Energy Laboratory Retrieved 22 April 2013 Retrieved 13 April 2013 a b c Leipziger Land project PDF Geosol Retrieved 13 April 2013 Olson Syanne 14 January 2011 IBC Solar completes grid connection for 13 8MW German solar park PV Tech Retrieved 7 March 2013 Eastern Germany s sunny future Michael Dumiak Fortune magazine 22 May 2007 Retrieved 15 January 2018 German PV Funding Up in the Air Again SolarBuzz Retrieved 22 April 2013 Retrieved 13 April 2013 Gujarat Solar Park Inauguration at Charanka Gujarat Indian Solar Summit 19 April 2012 Archived from the original on 25 June 2012 Retrieved 7 March 2013 State wise installed solar power capacity PDF Ministry of New and Renewable Energy Govt of India 31 October 2017 Archived from the original PDF on 12 July 2017 Retrieved 24 November 2017 Full Page Reload IEEE Spectrum Technology Engineering and Science News Retrieved 24 February 2020 World s largest solar park launched in Karnataka The Economic Times 1 March 2018 Retrieved 24 February 2020 Acme Solar Commissions India s Cheapest Solar Power Plant Retrieved 29 September 2018 Top 10 Solar PV Power Plants InterPV Retrieved 22 April 2013 Retrieved 13 April 2013 103 MW solar plant comes online in Jordan PV magazine 26 April 2018 Retrieved 28 April 2018 Brian Parkin 23 April 2018 Jordan Eyes Power Storage as Next Step in Green Energy Drive Bloomberg L P Retrieved 23 April 2018 Rosenthal Elisabeth 8 March 2010 Solar Industry Learns Lessons in Spanish Sun The New York Times Retrieved 7 March 2013 U S Solar Photovoltaic Database eerscmap usgs gov United States Geological Survey USGS November 2023 California Renewables Portfolio Standard RPS California Public Utilities Commission Archived from the original on 7 March 2013 Retrieved 7 March 2013 Nevada Energy Portfolio Standard Database of State Incentives for Renewables amp Efficiency US Department of Energy Retrieved 7 March 2013 Arizona Energy Portfolio Standard Database of State Incentives for Renewables amp Efficiency US Department of Energy Retrieved 7 March 2013 Solar Parks mapping Wiki Solar Retrieved 1 March 2016 The locations of these and other plants over 10MW are illustrated in Wolfe Philip Capacity rating for solar generating stations Wiki Solar Retrieved 22 August 2013 Note that nominal power may be AC or DC depending on the plant See AC DC conundrum Latest PV power plant ratings follies put focus on reporting inconsistency update PV Tech Retrieved 22 April 2013 Retrieved 13 April 2013 The world s largest photovoltaic solar power plant is in Pocking Solar Server Retrieved 30 August 2012 Nellis Airforce Base solar power system PDF United States Air Force Archived from the original PDF on 24 January 2013 Retrieved 30 August 2012 The Olmedilla Solar Park Retrieved 30 August 2012 24 MW SinAn South Korea PDF Conergy Retrieved 30 August 2012 DeSoto Next Generation Solar Energy Center Florida Power and Light Archived from the original on 15 September 2012 Retrieved 30 August 2012 EDF Energies Nouvelles secures building permits for two solar power plants 15 3 MW on Reunion Island EDF Energies Nouvelles 23 July 2008 Retrieved 30 August 2012 Sarnia Solar Project celebration Enbridge Archived from the original on 17 October 2012 Retrieved 30 August 2012 Chint Solar successfully completed Golmud 20MW photovoltaic power station PVsolarChina com Retrieved 30 August 2012 FinowTower I II Mit 84 7 MWp das grosste Solarstrom Kraftwerk Europas SolarHybrid Retrieved 30 August 2012 Lopburi Solar Farm CLP Group Archived from the original on 13 June 2012 Retrieved 30 August 2012 Activ Solar Commissions 100 Plus MW Perovo Solar PV Station in Ukraine s Crimea Clean Technica 29 December 2011 Retrieved 13 January 2015 Gujarat s Charanka Solar Park Energy Insight 25 April 2012 Archived from the original on 23 September 2017 Retrieved 30 August 2012 Gujarat s Charanka Solar Park PDF Archived from the original PDF on 13 March 2013 Retrieved 3 May 2013 Agua Caliente Solar Project First Solar Retrieved 31 August 2012 Leader Jessica 10 October 2012 Australia s Greenough River Solar Farm Opens Amid Renewable Target Debate huffingtonpost com Retrieved 22 April 2013 Reuters Rebekah Kebede 9 October 2012 Retrieved 13 April 2013 Largest photovoltaic power plant in Israel to commence operations The Jerusalem Post JPost com 15 October 2019 Retrieved 28 October 2022 Photovoltaic stations T Solar Group Retrieved 16 May 2015 Reparticion solar farm Location Municipalidad Distrital La Joya Province Arequipa Power 22 MWp President Humala inaugurates T Solar Group photovoltaic solar power plants in Peru 27 October 2012 Retrieved 19 April 2013 Ayre James 27 December 2012 Biggest Community Owned Solar Array in US Now Online Clean Technica Retrieved 13 January 2015 Sheikh Zayed site location Retrieved 19 April 2013 WAM 18 April 2013 Shaikh Zayed Solar Power Plant in Mauritania inaugurated by Shaikh Saeed Gulf News Retrieved 13 January 2015 Topaz the Largest Solar Plant in the World Is Now Fully Operational Greentechmedia Eric Wesoff 24 November 2014 Woods Lucy 9 June 2014 SunEdison inaugurates 100MW Chile solar plant PV Tech Retrieved 22 July 2016 World s Largest Hydro PV Hybrid Project Synchronized Corporate News China State Power Investment Corporation 14 December 2014 Retrieved 22 July 2016 Solar Star Largest PV Power Plant in the World Now Operational GreenTechMedia com 24 June 2015 Canellas Claude et al 1 December 2015 New French solar farm Europe s biggest cheaper than new nuclear Reuters Retrieved 1 March 2016 Enel Starts Production at its Largest Solar PV Project in Chile Renewable Energy World 31 May 2016 Retrieved 22 July 2016 Inauguran en Monte Plata la planta de energia solar mas grande de la region Acento Francisco Mayelin 30 March 2016 Inaugurada planta de energia solar en Monte Plata ENEL starts operation of South America s two largest solar parks in Brazil ENEL Green Power 18 September 2017 Retrieved 13 March 2019 Mesbahi Mina 8 February 2019 Top 35 Solar Project in Australia SolarPlaza Retrieved 11 May 2020 Noor Abu Dhabi solar plant begins commercial operation Archived from the original on 30 June 2019 Retrieved 30 June 2019 World s Largest Solar Power Plant Switched On Forbes Archived from the original on 30 June 2019 Retrieved 30 June 2019 Benban Africa s largest solar park completed ebrd com Retrieved 29 November 2019 With 2 245 MW of Commissioned Solar Projects World s Largest Solar Park is Now at Bhadla 19 March 2020 Retrieved 20 March 2020 Nunez de Balboa completed Iberdrola finalizes the construction of the largest photovoltaic plant in Europe within one year Iberdrola Retrieved 28 February 2020 External links edit nbsp Wikimedia Commons has media related to Photovoltaic power stations Interactive mapping of worldwide projects over 10MW Retrieved from https en wikipedia org w index php title Photovoltaic power station amp oldid 1204864544, wikipedia, wiki, book, books, library,

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