Solar power in California

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Part of the 354 MW SEGS solar complex in northern San Bernardino County, California.
File:PV and solar thermal.jpg
Photovoltaic (foreground) and Solar water heating (rear) panels located on rooftops in Berkeley, California. Note the low tilt of the photovoltaic panels, optimized for summer, and the high tilt of the water heating panels, optimized for winter.

Solar power in California has been growing rapidly because of high insolation, community support, declining solar costs, and a Renewable Portfolio Standard which requires that 33% of California's electricity come from renewable resources by 2020, and 50% by 2030.[1] Much of this is expected to come from solar power. In 2014, utility-scale solar power in California generated 9.9 million megawatt-hours, more than double the amount generated in 2013, and more than five percent of total utility-scale electrical generation in the state.[2]

As of the end of 2013, California had 490 MW of concentrated solar power and 5,183 MW of photovoltaics capacity in operation.[3] The American Solar Energy Industries Association reports that a further 19,200 MW of utility-scale solar projects are under construction or development in the state as of August 2014.[4]

Over the last 20 years, California has been home to a number of "world's largest" solar facilities. In 1991, the 354 MW solar thermal Solar Energy Generating Systems plant (located in the Mojave Desert in San Bernardino County, California) held the title until being bested by the 392 MW Ivanpah Solar Electric Generating System, a concentrated solar thermal plant located in San Bernardino County near the Nevada border. In 2014, the 550 MW Topaz Solar Farm became the new "world's largest operational" solar facility went online in Riverside County, California. A second 550 MW facility by First Solar, Desert Sunlight Solar Farm, also went online in Riverside County in 2014. Both these were superseded, however, by the Solar Star photovoltaic project that went online with 579 MW in June 2015 in Antelope Valley, California (located on Los Angeles and Kern counties). While California hosts the three largest photovoltaic facilities in the world (as of July 2015), there are yet several proposals for even larger facilities seeking regulatory approval in California.[5]

California also leads the nation in the number of homes which have solar panels installed, totaling over 230,000.[6] Many were installed because of the Million Solar Roof Initiative.[7]

Solar thermal power

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Main article: Concentrated solar power
Parabolic reflector for the SEGS power plant
Utility-Scale Solar Power Plants in California

The Ivanpah Solar Electric Generating System (392 MW), located 40 miles (60 km) southwest of Las Vegas, is the world's largest solar thermal power project.[8] The project is developed by BrightSource Energy and Bechtel.[9] The project has received a $1.375 billion loan guarantee from the United States Department of Energy. It deploys 347,000 heliostat mirrors focusing solar energy on boilers located on centralized solar power towers.[8]

The Genesis Solar Energy Project is an operational 250 MW solar thermal power station located in Riverside County, California. It features a parabolic trough design and is run by NextEra Energy Resources.[10]

Photovoltaics

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Main article: Photovoltaics

In 2011, California's goal to install 3,000 MW by 2016 was expanded to 12,000 MW by 2020 (and exceeded in 2015).[11] California has more photovoltaics installed than any other state, and 48% of the total in 2010. For the first time in 2008 the installed photovoltaics exceeded the state's 354 MW of solar thermal (CSP).[12][13][14] There are plans to build over 15,000 MW of utility scale photovoltaic plants in California.[15] At the end of 2012, small systems of less than 10 kWp were averaging $5.39/W, and large systems of over 500 kWp were averaging $2.77/W.[16]

California has the technical potential to install 128.9 GW of rooftop solar panels, which would generate 194,000 GWh/year, about 74% of the total electricity used in California in 2013. 128 GW, though, is three to four times as much electricity as is used, which requires that most of the noon output will need to be stored (for example by producing hydrogen) or exported on a sunny day.[17]
Source: NREL[18]

Under construction

Operational

2012 priority projects

In 2012, the Bureau of Land Management is giving priority status to 5 solar project proposals in California.[22] The 750 MW McCoy Solar Energy Project has been proposed by NextEra. The 100 MW Desert Harvest project has been proposed by enXco. The 664 MW Calico Solar Energy Project has been redesigned by K Power but later abandoned.[25]

Public opinion

The majority of Californians in desert country support large-scale solar development, according to a 2012 survey conducted on behalf of BrightSource Energy. The survey of more than 1,000 people was conducted throughout Imperial, Inyo, Kern, Riverside, San Bernardino counties in California, where many utility-scale solar projects are underway or planned. Survey results showed that nearly four out of five (almost 80 percent) of people strongly supported development of solar power in their communities. The survey also found that the majority of people were concerned with climate change. It also found that two-thirds of respondents think renewable energy is important to California’s future and that the state and federal government should help provide incentives for renewable energy projects.[26]

Renewable Portfolio Standard

Solar power in California has been growing rapidly, because of a Renewable Portfolio Standard which requires that 20% of California's electricity come from renewable resources by 2010, and 33% by 2020. Much of this is expected to come from solar power.

According to a recent report by the California Public Utilities Commission, California failed to meet the 20% renewables by 2010 target. Pacific Gas & Electric and Southern California Edison were the closest to meeting the goal. PG&E generated 17.7% of the electricity it sold in 2010 from renewable sources while SCE was the closest to hitting the RPS goal by producing 19.4% of its electricity from renewable sources in 2010. San Diego Gas & Electric, on the other hand, generated only 11.9% of its electricity from renewable sources in 2010.[27]

As of July 2014, California had 7,808 MW[28] of solar and 5,830 MW[29] of wind farms. California adopted feed-in tariffs, a tool similar to what Europe has been using, to encourage the solar power industry. Proposals were raised aiming to create a small-scale solar market in California that brings the benefits of the German market, such as distributed generation, which avoids the need for transmission because power is generated close to where it is used, and avoid the drawbacks such as excessively high payments that could become a burden on utility customers.[30]

California Solar Initiative

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Main article: California Solar Initiative

The California Solar Initiative is a 2006 initiative to install 3,000 MW of additional solar power by 2016. Included in it is the Million Solar Roof Initiative.[31] In 2011, this goal was expanded to 12,000 MW by 2020.[32]

According to the CPUC, homeowners, businesses, and local governments installed 158 MW of solar photovoltaics (PV) in 2008, doubling the 78 MW installed in 2007, giving California a cumulative total of 441 MW of distributed solar PV systems, the highest in the country.[33] As of April, 2015, 3,936 MW have been installed in 502,180 projects. The average cost of systems less than 10 kW is $5.27/watt and $4.37/watt for systems over 10 kW.[34]

Many of the homes, schools and businesses which have installed solar panels can be monitored online on the Internet.[35][36]

Generation

Utility-scale California solar electric generation according to the Energy Information Administration (EIA):

File:2015 Monthly Solar Energy Profile for CA.png
2015 Monthly Solar Energy Profile for CA
Year Generation
(GWh)		 Generation
(% of CA total)		 Generation
(% of USA Solar)
2010[37] 769 0.4% 63.5%
2011[37] 874 0.4% 48.2%
2012[38] 1,382 0.7% 31.9%
2013[38] 3,865 1.9% 42.8%
2014[39] 9,891 5.0% 54.0%
2015[40] 15,007 7.6% 56.7%

Note: Starting with 2014, the EIA began including state generation estimates for electricity produced from small-scale, distributed solar PV installations.[41] These non-utility scale estimates project that, in 2014, California generated a further 3,862 GWh of solar electricity and in 2015, California generated an additional 5,139 GWh of solar electricity from such distributed PV systems.[42]

Net metering

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Main article: Net metering

California has a favorable net metering law, being one of five states to receive an A in 2007, while five states received an F, in an evaluation of the 38 states plus Washington D.C. with net metering.[43] IREC best practices, based on experience, recommends no limits to net metering, individual or aggregate, and perpetual roll over of kWh credits.[44] As California is rapidly approaching the 5% aggregate limit, a May 24, 2012 ruling by the CPUC clarified the calculation of the limit, and requested a report on the cost of net metering.[45][46] Typically states have raised or eliminated their aggregate limits before they were reached.[47] By 2011, 16 states including California received an A for net metering.[48]

Permitting

California governor Jerry Brown signed a streamlined permitting bill (AB 2188) for residential solar systems on September 22, 2014. AB 2188 has four major provisions designed to reduce red-tape associated with local solar permits and requires that, by the end of September 2015, all California cities and counties must "adopt an ordinance that creates an expedited, streamlined permitting process for residential rooftop solar energy systems of less than 10 kilowatts in size."[49] Research and industry reports project the bill could reduce the cost of installing a typical residential solar system in the state by over $1,000.[50]

Alameda County

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Main article: Solar power in Alameda County

Using a 20-year property assessment known as PACE financing, Berkeley had a successful pilot program from 2008 to 2009 as the first city in the country to allow residents to obtain solar power without any initial payment. In the plan, property owners paid as much in increased property taxes as they save in energy costs, allowing them to install the panels for free at no cost to the city. Thirty eight projects are being installed for the pilot stage of the program.[51] PACE financing has spread to 28 states, but is on hold in many due to objections by Freddie Mac and Fannie Mae, including in Berkeley (which has not continued the pilot as a result). Legislation has been introduced to require acceptance of PACE financing.[52]

City of Los Angeles

The City of Los Angeles Department of Water and Power initiated a program on January 11, 2013 to pay up to 17 cents/kWh for electricity generated by up to 100 MW of solar power in a feed-in tariff program. 20 MW is reserved for small projects of less than 150 kW each. The program could be expanded to 150 MW in March.[53][54]

Year Available
2013 40 MW
2014 40 MW
2015 20 MW
Tier Available Small systems Feed in tariff
1 10 MW 2 MW 17 cents/kWh
2 25 MW 5 MW 16 cents/kWh
3 50 MW 10 MW 15 cents/kWh
4 75 MW 15 MW 14 cents/kWh
5 100 MW 20 MW 13 cents/kWh

New homes

In March 2013, Lancaster, California became the first U.S. city to mandate the inclusion of solar panels on new homes, requiring that "every new housing development must average 1 kilowatt per house."[55]

In May 2013, Sebastopol followed suit, requiring new buildings include either 2 W/sq ft (21.7 W/m2) of insulated building space of photovoltaics, or enough to provide 75% of the expected annual electricity use.[56]

Since January 1, 2014 California law requires all new buildings less than ten stories tall be "solar ready".[57]

In April 2016, San Francisco mandated that all new buildings less than ten stories tall include solar panels or solar water heating covering at least 15% of the roof, beginning January 1, 2017.[58]

See also

References

  1. Lua error in package.lua at line 80: module 'strict' not found.
  2. California becomes first state to generate more than 5 percent of electricity from utility-scale solar, US EIA, March 2015.
  3. Lua error in package.lua at line 80: module 'strict' not found.
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  7. Million Solar Roofs Initiative
  8. 8.0 8.1 Todd Woody. In California’s Mojave Desert, Solar-Thermal Projects Take Off Yale Environment 360, 27 October 2010.
  9. Lua error in package.lua at line 80: module 'strict' not found.
  10. Another Huge Solar Plant Goes Online in California's Desert, Chris Clarke, REWIRE, May 5, 2014
  11. 12,000 MW of Renewable Distributed Generation by 2020
  12. California Solar Photovoltaic Statistics & Data retrieved 01 March 2009
  13. Solar Market Trends
  14. NREL
  15. Major Projects List
  16. Cost by Quarter
  17. Rooftop Solar Photovoltaic Technical Potential in the United States: A Detailed Assessment
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  19. http://www.firstsolar.com/en/about-us/projects/california-flats
  20. Lua error in package.lua at line 80: module 'strict' not found.
  21. http://www.businesswire.com/news/home/20131031006341/en/NRG-Energy-NRG-Yield-SunPower-Commercial-Operations#.U29fhUks8oA
  22. 22.0 22.1 Lua error in package.lua at line 80: module 'strict' not found.
  23. Mount Signal Solar Is Online: World's Largest Single Axis Solar PV Project, SustainableBusiness.com, 05/23/2014
  24. 206MW Mt. Signal Solar Farm Completed, Energy Matters, May 22, 2014
  25. K Road Gives Up on Calico Solar Project, RenewableEnergyWorld.com, James Montgomery, July 01, 2013
  26. Lua error in package.lua at line 80: module 'strict' not found.
  27. California Utilities Do Not Meet 2010 Renewable Energy Goal
  28. Lua error in package.lua at line 80: module 'strict' not found.
  29. Lua error in package.lua at line 80: module 'strict' not found.
  30. Lua error in package.lua at line 80: module 'strict' not found.
  31. The California Solar Initiative
  32. The eBay of Electricity
  33. CPUC Press Release
  34. California Solar Statistics
  35. PVOutput
  36. Enphase
  37. 37.0 37.1 Lua error in package.lua at line 80: module 'strict' not found.
  38. 38.0 38.1 Lua error in package.lua at line 80: module 'strict' not found.
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  40. Lua error in package.lua at line 80: module 'strict' not found.
  41. Lua error in package.lua at line 80: module 'strict' not found.
  42. Lua error in package.lua at line 80: module 'strict' not found.
  43. Report: States Falling Short on Interconnection and Net Metering
  44. Net Metering and Interconnection Procedures Incorporating Best Practices
  45. CPUC unanimously approves net metering expansion in California
  46. Decision Regarding Calculation of the Net Energy Metering Cap
  47. 2011 Updates and Trends
  48. Freeing the Grid
  49. Lua error in package.lua at line 80: module 'strict' not found.
  50. Lua error in package.lua at line 80: module 'strict' not found.
  51. Berkeley FIRST retrieved 4 February 2009
  52. Property Assessed Clean Energy Financing (PACE)
  53. Los Angeles DWP unveils solar power buyback program
  54. Solar Feed-in Tariff (FiT) Program
  55. Lua error in package.lua at line 80: module 'strict' not found.
  56. California town of Sebastopol will require solar panels on all new homes
  57. California poised to require 'solar ready roofs' on new homes and buildings
  58. San Francisco Becomes First Major U.S. City To Mandate Rooftop Solar In New Buildings

External links

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