Solar power in Chile
From Wikipedia, the free encyclopedia
Solar power in Chile is an increasingly important source of energy. Total installed photovoltaic (PV) capacity in Chile reached 11.05 GW in 2023.[1] In 2024, Solar energy provided 19.92 TWh of electricity generation in Chile, accounting for 22.3% of total national electricity grid generation, compared to less than 0.1% in 2013. [1][2]
| Solar power in Chile | |
|---|---|
| Installed capacity | 11.05 GW (2024) (19th) |
| Annual generation | 19.92 TWh (2024) |
| Capacity per capita | 592 W (2024) |
| Share of electricity | 22.3% (2024) |
In October 2015 Chile's Ministry of Energy announced its "Roadmap to 2050: A Sustainable and Inclusive Strategy", which planned for 19% of the country's electricity to be from solar energy, 23% wind power, and 29% hydroelectric power.[3]
In November 2024, Chile's solar power generation capacity was projected to quadruple until 2060, in order to help decarbonize Chile's electricity generation. Energy storage will play a key role in taking in excess supply during the day and releasing it during the night. Due to its high solar potential, solar power developments will likely grow most in the north. Solar generation is expected to contribute 46% of Chile's electricity in 2060.[4]
Solar resource
Photovoltaics, annual capacity
Early photovoltaics projects
In June 2014, the 100-megawatt (MW) Amanecer Solar CAP, a photovoltaic power plant located near Copiapó in the Atacama Desert was inaugurated. It was developed by the company with the same name, Amanecer Solar CAP, and was the largest in Latin America at the time. It is capable of generating 270 gigawatt-hours (GWh) of electricity per year.[10][11]
The 70 MW photovoltaic Salvador Solar Park went online in November 2014, followed by an official inauguration ceremony on 23 January 2015.[12] It was expected to produce 200 GWh of electricity per year. The plant is located approximately 5 kilometres south of El Salvador, in the Atacama region. It is one of the first in the world to supply competitively priced solar energy to the open market without government subsidy.[13]
The 60 MW photovoltaic Lalackama I plant went online in 2014 and is expected to produce 160 GWh of electricity per year. The nearby 18 MW Lalackama II plant went online in May 2015 and is capable of generating approximately 50 GWh per year.[14][15][16] Both plants feature photovoltaic inverters designed and manufactured by Elettronica Santerno,[17] an Italian company.
The 141 MW photovoltaic Luz Del Norte (Light of the North) plant, located 58 kilometres northeast of the city of Copiapó in the Atacama region, began construction in October 2014 and is scheduled for completion in December 2015.[18] It uses more than 1.7 million cadmium telluride modules.[19] The first two blocks of this project (approximately half of the project's total capacity) was connected to Chile's central power grid in October 2015.[20] The plant supplies ancillary grid services.[21]
The 79 MW Pampa Norte PV solar plant began operating in April 2016 at a site 32 kilometres southwest of Taltal in Chile's Antofagasta Region. It uses approximately 258,000 polycrystalline silicon photovoltaic modules and is capable of generating more than 200 GWh per year.[22] The plant was developed by Enel Green Power and features photovoltaic inverters designed and manufactured by Elettronica Santerno.[17][23]
The 97 MW Carrera Pinto photovoltaic plant is located 60 kilometres from the city of Copiapó in the Atacama Region. The first 20 MW of the plant was connected to the grid in early January 2016, with the remaining 77 MW connected in August 2016. The plant is capable of generating over 260 GWh per year.[24][25]
The 246 MW El Romero single-axis tracking solar photovoltaic plant began operating in November 2016 at Vallenar in the Atacama region, with a 493 GWh annual average output.[26][27] It was the largest solar farm in Latin America when it opened. It uses 776,000 polycrystalline silicon photovoltaic modules. The solar irradiance has been measured at 853 W/m2.[28]
In 2016, SolarPack won an electricity auction by bidding $29.1/MWh;[29] a record low price.[30] In March 2020 PV Magazine reported that Solarpack had begun providing power on 2 March 2020, to the Chilean grid from its 123 MW Granja project, 10 months ahead of the contracted date of 1 January 2021. With that, Solarpack raised its total operating capacity in Chile at the time to 181 MW.[31]
Solar thermal power
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In 2013 the Atacama 1 solar complex was proposed as a 110 MW solar thermal electric plant (the first in Latin America) and a 100 MW photovoltaic plant. The solar thermal plant will include 17.5 hours of thermal storage. These technologies complement each other to supply clean and stable energy 24 hours a day. The complex is located in the commune of María Elena, Segunda Región. Construction of the solar thermal electric plant commenced in 2014 and the plant was scheduled to begin operating in the second quarter of 2017, but got delayed significantly. Construction of the photovoltaic plant commenced in January 2015 and the plant began operating in June 2016 with 160 MW of panels, the largest solar plant in Chile at the time.[32][33] By the end of 2020 the project was fully erected under the name Cerro Dominador Solar Thermal Plant and is expected to fully operate in 2021.
Because of its good solar resource several international companies have bid record low prices for solar thermal power plants in Chile, including the Copiapó Solar Project bid at $63/MWh by SolarReserve in 2017. If realized this would have been the lowest ever price for a CSP project in the world. Several CSP projects are under development in Chile, but in the absence of technology specific support policies Cerro Dominador is the only one under construction, yet.
Batteries
Some solar facilities also have batteries connected,[34] as they can deliver power after sunset when prices are higher.[35] By August 2025, Chile had 4.6 GWh of battery energy capacity.[36] During 2024, 5.9 TWh of electricity was curtailed (mainly solar in the north) due to insufficient transmission, an increase from 2.7 TWh in 2023.[37]
Oasis de Atacama is a multi-site project with up to 2 GW of solar power and 11 GWh of storage. By early 2025, the first phases (Quillagua and Víctor Jara) were being tested,[38] using Lithium iron phosphate (LFP) batteries.[39]
| Name | Commissioning date | Energy (MWh) | Power (MW) | Duration (hours) | Type | Solar plant (MW) | Location/coords | Refs |
|---|---|---|---|---|---|---|---|---|
| Gabriela (Oasis de Atacama) | 2026 | 1100 | 272 | 3 km above sealevel[40][41] | ||||
| Sol del Desierto | 2025 | 800 | 200 | 4 | Lithium-ion | 244 | María Elena 22.206°S 69.567°W | Electric busses[42][43] |
| Andes Solar IV | 2024 | 650 | 130 | 5 | Lithium-ion | 211 | Calama | [44][45] |
| Andes Solar IIB | 2023 | 560 | 112 | 5 | Lithium-ion | 180 | Antofagasta 24.02°S 68.58°W | [46][47] |
| Coya | 2024 | 638 | 139 | 4.5 | 181 | María Elena 22.26°S 69.48°W | [48] | |
| Tamaya | 2025 | 418 | 68 | 6 | 114 | Antofagasta 22.16°S 70.09°W | replaces diesel[49] | |
| Capricornio | 2025 | 264 | 48 | 5 | 88 | Antofagasta23.42°S 70.18°W | [48][50][51] | |
| Salvador | 2023 | 250 | 50 | 5 | 68 | Diego de Almagro | [52] | |
| El Manzano | 2025 | 134 | 67 | 2 | 99 | Tiltil | [53] | |
Under construction
| Name | Planned commissioning date |
Energy (MWh) | Power (MW) | Duration (hours) | Type | Solar plant (MW) | Location | Refs |
|---|---|---|---|---|---|---|---|---|
| Mesembria | 2025 | 1607 | [54] | |||||
| Pampas | 1360 | 340 | 4 | 229 MW + 128 MW wind | Antofagasta | [55] | ||
| CEME1-Dune | 2026 | 1334 | 333 | 4 | 480 | María Elena 22.37°S 69.59°W | Codelco[56][57] | |
| Víctor Jara (Oasis de Atacama) | 2025 | 1300 | LFP | 231 | Tarapacá Region | [58] | ||
| Quillagua (Oasis de Atacama) | 2025 | 1200 | 200 | 6 | LFP | 221 | María Elena 21.66°S 69.5°W | [58] |
| Arena | 2026 | 1100 | 220 | 5 | 0 | Antofagasta | [59] | |
| Cristales | 1020 | 340 | 3 | 288 | Antofagasta | [55] | ||
| 2026 | 1000 | 220 | Tarapacá | [60] | ||||
| Malgarida | 2027 | 1000 | 200 | 5 | 238 | Diego de Almagro26.27°S 69.96°W | [61] | |
| Libélula | 995 | 199 | 5 | 151 | Colina and Tiltil | [62] | ||
| Monte Águila | 2027 | 960 | 340 | Cabrero, Chile | $300 million cost[63] | |||
| Colbún/Celda | 2026 | 912 | 228 | 4 | Camarones 18.88°S 70.16°W | [54][64] | ||
| Diego de Almagro Sur | 2027 | 912+32 | 228 | 4 | LFP | 232 | Diego de Almagro | [65][66] |
| Pampina | 2025 | 700 | 175 | 4 | 186 | María Elena 22.38°S 69.59°W | Codelco[56] | |
| Tocopilla | 2025 | 660 | 116 | 5 | 22.1°S 70.21°W | [67] | ||
| Granja | 2026 | 420 | 105 | 4 | 123 | Tarapacá 20.813°S 69.487°W | [68] | |
| Huatacondo | 2026 | 312 | 98 | 3 | LFP | 103 | Tarapacá 21.13°S 69.47°W | [69][50] |
| 2025 | 100 | 31 | [[]] |
Planned
| Name | Planned Commissioning date |
Energy (MWh) | Power (MW) | Duration (hours) | Type | Solar plant (MW) | Location/coords | Refs |
|---|---|---|---|---|---|---|---|---|
| Antofagasta ERNC/HREP | 2027 | 4950 | 990 | 5 | 1200 solar&wind | Antofagasta | [70] | |
| Llanura | 3830 | 1000 MW + 150 MW wind | Antofagasta | Llullaillaco 500 kV line[71] | ||||
| Elena (Oasis de Atacama) | 3400 | 446 | 7 | LFP | 446 | María Elena 22.21°S 69.52°W | [72] | |
| Kanut | 2027 | 1900 | 380 | 5 | La Ligua | [73] | ||
| La Isla | 2027 | 1250 | 250 | 5 | LFP | 0 | Llay-Llay | [74] |
| Los Boldos | 2027 | 1236 | 252 | 4.5 | 300 | Petorca Province | [54] | |
| Pampino | 2029 | 1000 | 170 | Pozo Almonte | [75] | |||
| Huañil | 2027 | 1000 | 200 | 5 | 31 | Salamanca, Chile | $188 million[70] | |
| Melipilla | 2026 | 922 | 120 | 7 | Melipilla | [73] | ||
| Nueva Pozo Almonte substation | 2026 | 762 | 190 | 4 | LFP | 0 | Pozo Almonte 20.32°S 69.7°W | [76] |
| Cabo Leones | 202x | 680 | 170 | 4 | 192 wind | Atacama | [70] | |
| Freirina | 202x | 680 | 170 | 4 | 165 wind | Atacama | [77] | |
| Domeyko | 660 | 300 | 2 | 83 | [78] | |||
| Hemera | 2026 | 541 | 90 | 6 | 94 | Río Claro | [73] | |
| Pradera Larga | 202x | 450 | 90 | 5 | 84 | Valparaíso | [70] | |
| Llanos de Rungue - Halcón 9 | 367 | 69 | 4 | 280 | Andacollo | [79] | ||
| Polpaico | 2026 | 300 | Til Til | [73] | ||||
| Quinquimo | 2026 | 200 | 90 | 2 | Lithium-ion | 90 | Valparaíso32.45°S 71.28°W | [42] |
| 2026 | 100 | 31 | [[]] | (template) |
See also
Further reading
- Stillings, Jamey; Missana, Sergio (2023). Atacama: renewable energy and mining in the high desert of Chile (First ed.). Göttingen, Germany: Steidl. ISBN 9783958297081.