Nevada Solar One is a concentrated solar power plant, with a nominal capacity of 64 MW and maximum steam turbine power output up to 72 MW net (75 MW gross), spread over an area of 400 acres (160 ha). The projected CO2 emissions avoided are equivalent to taking approximately 20,000 cars off the road. The project required an investment of $266 million USD,[1] and the project officially went into operation in June 2007.[2] Electricity production is estimated to be 134 GWh (gigawatt hours) per year.[3]

Nevada Solar One
Photograph of Nevada Solar One, with the Las Vegas Valley beyond the mountains behind it
Map
CountryUnited States
LocationEldorado Valley, Boulder City, Nevada
Coordinates35°48′N 114°58.6′W / 35.800°N 114.9767°W / 35.800; -114.9767
StatusOperational
Construction beganFebruary 2006 (2006-02)
Commission dateJune 2007 (2007-06)
Construction cost$266 million
OwnerAcciona Energy
Solar farm
TypeCSP
CSP technologyParabolic trough
Site resource2,606 kWh/m2/yr
Site area400 acres (162 ha)
Power generation
Units operational1 x 75 MWe (gross)
Make and modelSiemens SST-700
Nameplate capacity72 MW
Capacity factor18.4% (2014-2018)
Annual net output115.9 GW·h
External links
Websitenevada solar one
CommonsRelated media on Commons

In 2007, when the plant came on line, it was the second solar thermal energy (STE) power plant built in the United States in more than 16 years,[4] and in 2007, the largest STE plant built in the world since 1991.[5] It is located in Eldorado Valley in the southwest fringe of Boulder City, Nevada, and was built in that city's Energy Resource Zone, which requires renewable generation as part of plant development permits; Nevada Solar One was approved as part of Duke Energy's larger El Dorado Energy project, which built 1 GW of electrical generation capacity. The solar trough generation was built by Acciona Solar Power, a partially owned subsidiary of Spanish conglomerate Acciona Energy.[6] Lauren Engineers & Constructors (Abilene, TX) was the EPC contractor for the project.[7] Acciona purchased a 55 percent stake in Solargenix (formerly Duke Solar), and Acciona owns 95 percent of the project.[8] Nevada Solar One is unrelated to the Solar One power plant in California.

History

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In 2006, located 30 miles (48 km) north of Tucson, Arizona Public Service's Saguaro Solar Facility opened, with 1 MW of electrical generation capacity.[9] Nevada Solar One went online for commercial use on June 27, 2007. It uses similar technology and was constructed over a period of 16 months. The total project site is approximately 400 acres (1.6 km2; 0.63 sq mi), while the solar collectors cover 300 acres (1.2 km2).

Technology

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Nevada Solar One uses proprietary technology to track the sun's location and concentrate its rays during peak demand hours. The plant uses 760 parabolic trough concentrators with more than 182,000 mirrors that concentrate the sun's rays onto more than 18,240 receiver tubes placed at the focal axis of the troughs and containing a heat transfer fluid (solar receivers). Fluid that heats up to 735 °F (391 °C) flows through these tubes and is used to produce steam that drives a Siemens SST-700[10] steam turbine, adapted to the specific requirements of the CSP technology,[11] which is connected to a generator to produce electricity.

The mirrors are manufactured by Flabeg AG in Germany.[12] In contrast to the power tower concentrator concept that California's original Solar One project uses. The specially coated tubes, made of glass and steel, were designed and produced by Solel Solar Systems[13] as well as by Schott Glass in Germany.[14] Motion control was supplied by Parker Hannifin, from components by Ansco Machine Company.

Solar thermal power plants designed for solar-only generation are well matched to summer noon peak loads[dubiousdiscuss] in areas with significant cooling demands, such as the southwestern United States. Using thermal energy storage systems, solar thermal operating periods can be extended to meet base load needs.[15] Given Nevada's land and sun resources, the state has the theoretical ability to have more than 600 GW of electrical generation capacity using solar thermal concentrators like those used by Nevada Solar One.[16] It has been proposed that massive expansion of solar plants such as Nevada Solar One has the potential to provide sufficient electricity to power the entire United States.[17]

Parabolic concentrator facilities have been successfully operating in California's Mojave Desert commercially since 1984, with a combined generating capacity of 354MW from the Solar Energy Generating Systems.[as of?]

Production

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Nevada Solar One's production is as follows (values in GW·h).[18]

Year Solar Fossil Total
2007 41.21 0.38 41.59
2008 122.69 0.91 123.31
2009 120.65 2.43 123.07
2010 133.00 1.16 134.16
2011 128.26 1.99 130.26
2012 128.94 1.39 130.33
2013 112.79 2.31 115.10
2014 116.23 2.58 118.80
2015 105.65 2.14 107.79
2016 116.89 2.24 119.13
2017 118.03 2.58 120.60
2018 110.38 2.57 112.95

Fossil backup, night time preservation, and morning pre-heating, is provided by natural gas and provides up to 2% of total output.

Solar generation (MW·h) of Nevada Solar One [19]
Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
2007 1,876 8,827 10,251 10,186 6,075 3,101 896 41,212
2008 1,942 4,837 11,696 14,759 14,868 19,308 13,935 12,987 12,785 9,141 4,207 2,222 122,687
2009 2,239 3,971 11,982 13,920 16,096 11,638 13,839 16,117 13,314 8,754 5,838 2,940 120,648
2010 2,147 4,143 10,349 13,261 18,850 20,674 14,863 17,989 16,220 7,186 5,476 1,842 133,000
2011 3,137 6,370 8,772 14,625 16,516 20,698 13,698 16,732 10,752 9,420 4,333 3,210 128,263
2012 2,740 5,814 9,719 13,152 19,733 21,710 14,140 12,159 12,798 9,679 5,003 2,288 128,935
2013 2,641 7,023 10,355 14,613 17,063 18,402 10,552 10,166 5,149 9,382 4,142 3,302 112,790
2014 3,336 4,976 10,120 12,321 15,501 19,698 12,011 11,987 12,007 8,145 4,609 1,516 116,227
2015 2,051 6,375 9,993 13,982 9,993 15,337 12,565 11,308 9,221 6,684 5,624 2,519 105,652
2016 1,693 7,797 8,403 8,547 16,628 17,835 17,669 12,517 12,274 6,715 4,924 1,885 116,887
2017 2,560 3,876 10,683 13,305 16,753 19,672 10,770 13,111 10,236 9,839 3,908 3,312 118,025
2018 284 2,947 7,996 13,492 15,677 19,517 12,645 11,296 12,636 7,310 4,474 2,105 110,379
2019 2,041 4,185 9,035 10,898 12,168 16,321 15,335 15,317 10,316 9,736 3,583 1,306 110,241
2020 2,105 6,121 6,348 8,284 15,581 15,388 17,367 12,717 9,634 8,040 3,841 1,940 107,366
2021 882 5,565 8,056 13,261 16,038 12,173 8,571 11,918 8,601 5,466 3,761 1,417 95,709
2022 2,277 5,085 7,717 11,909 15,303 12,204 10,430 6,734 8,782 7,323 2,791 1,201 91,756
2023 1,706 3,105 4,942 11,597 12,823 12,973 13,971 9,485 8,149 7,474 3,319 1,759 91,303
Total (2007–2023) 1,851,080
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Nevada Solar One served as inspiration for the HELIOS One solar power plant's geographic location in the 2010 videogame Fallout: New Vegas.[20]

See also

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References

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  1. ^ Solar Steam at Nevada Solar One
  2. ^ ACCIONA’s Nevada Solar One
  3. ^ Technology News Daily. Nevada Solar One Archived 2007-07-07 at the Wayback Machine.
  4. ^ "Utility-Scale Solar Plant Goes Online in Nevada". June 4, 2007. Retrieved February 9, 2020.
  5. ^ "Arizona Utility to Buy Power from a 280-Megawatt Solar Power Plant". energyvortex.com. Archived from the original on June 16, 2008.
  6. ^ "Acciona Energía website". Retrieved 2008-06-17.
  7. ^ "Nevada's Largest Solar Power Plant Opens". Southwest Contractor. June 2007. Retrieved 2009-08-01.
  8. ^ "ACCIONA invests 220 million euros in a solar thermal electric power plant in Nevada (USA)" (in Spanish). 2006-02-13. Archived from the original on 2007-09-28. Retrieved 2006-10-23.
  9. ^ Kryzanowski, Tony (2007). "Raising Arizona's renewable power". www.altenerg.com. enerG Magazine. Archived from the original on 31 March 2016. Retrieved 7 April 2019.
  10. ^ "Siemens website - steam turbines for CSP plants". Archived from the original on 2010-09-18. Retrieved 2010-07-01.
  11. ^ "Sun shines on solar power steam turbine generators". EngineerLive. Retrieved 2010-07-01.
  12. ^ Flabeg AG - solar power mirror installations
  13. ^ "Solel website". Retrieved 2008-06-17.
  14. ^ Schott AG - special glass tubing
  15. ^ Spain Pioneers Grid-Connected Solar-Tower Thermal Power Archived 2018-09-27 at the Wayback Machine p. 3.
  16. ^ Nevada Solar One Goes Online Archived 2007-05-23 at the Wayback Machine
  17. ^ Sunny Outlook: Can Sunshine Provide All U.S. Electricity?
  18. ^ Energy Information Administration. "Nevada Solar One, Annual". Electricity Data Browser. Archived from the original on October 9, 2013. Retrieved June 28, 2015.
  19. ^ "Nevada Solar One, Monthly". Electricity Data Browser. Energy Information Administration. Retrieved March 8, 2017.
  20. ^ "HELIOS One and El Dorado Dry Lake". The Lucky Thirty Kate.
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External image
  Nevada Solar One from the air in 2008