Wind power in California had initiative and early development during Governor Jerry Brown's first two terms in the late 1970s and early 1980s. [1] [2] The state's wind power capacity has grown by nearly 350% since 2001, when it was less than 1,700 MW. [3] [4] In 2016, wind energy (including that supplied by other states) supplied about 6.9% of California's total electricity needs, or enough to power more than 1.3 million households. [5] Most of California's wind generation is found in the Tehachapi area of Kern County, California, with some large projects in Solano, Contra Costa and Riverside counties as well. California is among the states with the largest amount of installed wind power capacity. [3] In recent years, California has lagged behind other states when it comes to the installation of wind power. It was ranked 4th overall for wind power electrical generation at the end of 2016 behind Texas, Iowa, and Oklahoma. As of 2019, California had 5,973 megawatts (MW) of wind power generating capacity installed.
California was the first U.S. state where large wind farms were developed, beginning in the early 1980s. [6] By 1995, California produced 30 percent of the entire world's wind-generated electricity. [7] Wind power in Texas surpassed the production in California to become the leader in the United States.
Historically, most of California's wind power output has been in three primary regions: Altamont Pass wind farm (east of San Francisco); Tehachapi Pass wind farm (south east of Bakersfield) and San Gorgonio Pass wind farm (near Palm Springs, east of Los Angeles). [7] A fourth area, the Montezuma Hills of Solano County, was developed in 2005–2009, with the large Shiloh wind power plant.
The Alta Wind Energy Center is a wind farm located in Tehachapi Pass in Kern County. [8] Kern County is reviewing a number of other proposed wind projects that would generate a combined 4,600 megawatts of renewable energy if approved. [9] [ needs update ]
|
California wind generation capacity by year | California wind generation by year |
---|---|
Megawatts of wind capacity, 1999-2020 [15] [16] | Gigawatt-hours generated per year, 2001-2020 [17] |
In 2011, 921.3 megawatts of new production was installed. Most of that activity occurred in the Tehachapi area of Kern County, with some big projects in Solano, Contra Costa and Riverside counties as well. [18] [19] [20]
California had a total of 5,662 megawatts of installed wind generation capacity at the end of 2015. [21] After leading the country for many years, California ranked fourth nationwide in terms of capacity, behind Texas, Iowa, and Oklahoma in 2016. [22] [23] [21] In 2016, California used about 285,700 GWh [24] and generated 13,500 GWh of wind energy in state. [25]
Wind energy supplied about 6.9% of California's total electricity needs in 2017 (including power supplied from other states in this case), [5] and 7.35% in 2019. By the end of 2019, installed wind generation capacity increased to 5,973 megawatts. [26]
Due to higher average winds in the plains area of the U.S., California ranked fifth in wind generation in 2018. [27]
In January 2018, the Tule Wind Project came online. Located in eastern San Diego County, the facility has 57 wind turbines which collectively generate 131.1 megawatts of electricity. There are plans to expand this project by an additional 24 turbines in the future. [14] In its current configuration, the installation is able to power an estimated 40,000 homes. [28] CAISO tested the wind farm's synchronverter in 2018, and found it could perform some of the grid services similar or better than traditional generators. [29] [30]
In February 2018, Scout Clean Energy of Colorado won the rights to modernize the Gonzaga Ridge wind farm which is located in Pacheco State Park. Rated at 16.5 megawatts, the Gonzaga Ridge facility currently uses 1980s era wind turbines which are smaller, less cost-effective, and overall far less efficient at generating energy than those which currently being produced. The electrical output of Gonzaga Ridge after modernization is projected to be between 65 MW and 80 MW. [31] [ needs update ]
A 2009 Stanford University study of California offshore wind potential identified a site off Cape Mendocino that could provide uninterrupted year-round power from a 1500 MW wind farm that would produce an average of 790 MW. Three types of offshore wind power were studied, with the conclusion that from 12,300 to 19,700 GWh/yr could be delivered from 1,997 to 3,331 MW of monopile wind turbines installed in up to 66-foot deep water (20 m), from 38,200 to 73,000 GWh/yr could be delivered from 6,202 to 12,374 MW of multi-leg wind turbines in 66-to-164-foot deep water (20 to 50 m), and from 462,100 to 568,200 GWh/yr from 73,025 to 91,707 MW of floating turbine foundation wind turbines in from 160-to-950-foot deep water (50 to 290 m), [32] such as those being studied for use off the coast of Maine by the Ocean Energy Institute and the DeepCwind Consortium. [33]
In April 2018, several power development companies joined with Redwood Coast Energy Authority to explore the idea of creating a large-scale wind farm off of the Northern California coast. Deep water has hindered development off the coast of California, making the use floating turbines more feasible than fixed turbines. The group decided to propose instead. RCEA and the development companies intended to file a lease with the Bureau of Ocean Energy Management in the summer of 2018 for the 120-150 MW project. [34] The Humboldt Project will be located just over 20 miles (32 km) west of Eureka, California and estimates have the date of completion to be sometime in 2024. [35] In 2022, the US Bureau of Ocean Energy Management (BOEM) issued a statement of no significant environmental impact, [36] and California set a target of 25 GW of offshore wind by 2045. [37]
California wind generation (GWh) | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Year | Total | Jan | Feb | Mar | Apr | May | Jun | Jul | Aug | Sep | Oct | Nov | Dec |
2001 | 3,499 | 133 | 148 | 300 | 393 | 378 | 438 | 440 | 408 | 293 | 253 | 143 | 172 |
2002 | 3,800 | 131 | 153 | 267 | 409 | 478 | 557 | 443 | 476 | 295 | 284 | 158 | 149 |
2003 | 3,896 | 109 | 193 | 326 | 424 | 453 | 549 | 432 | 396 | 340 | 285 | 188 | 201 |
2004 | 4,305 | 130 | 201 | 288 | 399 | 634 | 683 | 588 | 492 | 359 | 259 | 155 | 117 |
2005 | 4,261 | 175 | 150 | 334 | 429 | 551 | 584 | 497 | 384 | 404 | 322 | 217 | 214 |
2006 | 4,883 | 281 | 215 | 389 | 430 | 577 | 596 | 538 | 500 | 402 | 396 | 292 | 267 |
2007 | 5,586 | 233 | 307 | 442 | 612 | 732 | 729 | 675 | 600 | 486 | 349 | 188 | 233 |
2008 | 5,385 | 271 | 262 | 450 | 538 | 691 | 658 | 700 | 648 | 406 | 298 | 223 | 240 |
2009 | 5,840 | 150 | 245 | 442 | 603 | 701 | 850 | 879 | 679 | 480 | 406 | 235 | 170 |
2010 | 6,080 | 150 | 221 | 399 | 546 | 689 | 867 | 925 | 731 | 551 | 372 | 305 | 324 |
2011 | 7,749 | 234 | 429 | 612 | 960 | 1,026 | 1,021 | 869 | 908 | 522 | 415 | 428 | 325 |
2012 | 9,754 | 419 | 581 | 769 | 768 | 1,316 | 1,362 | 1,001 | 1,001 | 697 | 776 | 385 | 679 |
2013 | 12,820 | 482 | 727 | 1,056 | 1,550 | 1,740 | 1,631 | 1,413 | 1,297 | 1,158 | 750 | 556 | 460 |
2014 | 12,993 | 500 | 831 | 1,055 | 1,306 | 1,766 | 1,858 | 1,408 | 1,286 | 953 | 759 | 705 | 566 |
2015 | 12,229 | 187 | 619 | 826 | 1,262 | 1,681 | 1,668 | 1,445 | 1,523 | 815 | 667 | 619 | 917 |
2016 | 13,508 | 691 | 528 | 1,305 | 1,325 | 1,596 | 1,670 | 1,697 | 1,472 | 996 | 935 | 528 | 765 |
2017 | 12,824 | 815 | 751 | 954 | 1,212 | 1,644 | 1,638 | 1,417 | 1,642 | 1,217 | 839 | 452 | 243 |
2018 | 14,025 | 424 | 887 | 1,060 | 1,234 | 1,929 | 1,784 | 1,565 | 1,645 | 1,259 | 1,029 | 639 | 570 |
2019 | 13,736 | 537 | 1,054 | 1,091 | 1,475 | 1,838 | 1,564 | 1,674 | 1,469 | 1,210 | 877 | 467 | 480 |
2020 | 13,582 | 763 | 780 | 1,131 | 1,521 | 1,553 | 1,722 | 1,691 | 1,440 | 797 | 868 | 664 | 652 |
2021 | 15,628 | 1,065 | 1,041 | 1,590 | 1,645 | 1,676 | 1,336 | 1,093 | 1,331 | 1,011 | 1,268 | 1,187 | 1,385 |
2022 | 16,018 | 1,187 | 1,204 | 1,551 | 1,746 | 1,864 | 1,503 | 1,473 | 1,105 | 888 | 1,006 | 1,284 | 1,207 |
2023 | 4,223 | 1,381 | 1,305 | 1,537 |
Source: [17]
A wind farm or wind park, also called a wind power station or wind power plant, is a group of wind turbines in the same location used to produce electricity. Wind farms vary in size from a small number of turbines to several hundred wind turbines covering an extensive area. Wind farms can be either onshore or offshore.
Wind power is a branch of the energy industry that has expanded quickly in the United States over the last several years. From January through December 2023, 425.2 terawatt-hours were generated by wind power, or 10.18% of electricity in the United States. The average wind turbine generates enough electricity in 46 minutes to power the average American home for one month. In 2019, wind power surpassed hydroelectric power as the largest renewable energy source in the U.S.
Wind power in Texas, a portion of total energy in Texas, consists of over 150 wind farms, which together have a total nameplate capacity of over 30,000 MW. If Texas were a country, it would rank fifth in the world: The installed wind capacity in Texas exceeds installed wind capacity in all countries but China, the United States, Germany and India. Texas produces the most wind power of any U.S. state. According to the Electric Reliability Council of Texas (ERCOT), wind power accounted for at least 15.7% of the electricity generated in Texas during 2017, as wind was 17.4% of electricity generated in ERCOT, which manages 90% of Texas's power. ERCOT set a new wind output record of nearly 19.7 GW at 7:19 pm Central Standard Time on Monday, January 21, 2019.
The U.S. state of Oregon has large wind energy resources. Many projects have been completed, most of them in rural Eastern Oregon and near the Columbia River Gorge. Wind power accounted for 12.1% of the electricity generated in Oregon in 2016.
There are a number of wind power projects in the state of Maine, totaling more than 900 megawatts (MW) in capacity. In 2020 they were responsible for 24% of in-state electricity production. In 2019, Maine had more wind capacity than the other five New England states combined, at 923 MW.
At the end of 2015, the installed capacity of wind power in Washington was 3,075 megawatts (MW) with wind power accounting for 7,101 GWh. In 2016, it reached a generation of 8,041 GWh, comprising 7.1% of the electricity generated in the state. In 2023, it had a capacity of 3,407 MW, responsible for 7.75% of generation.
New York has 2,192 MW of installed wind power capacity as of 2022. Most of New York's wind power is located in upstate New York as onshore wind farms. New York has set a goal of developing 9,000 MW of offshore installed wind power capacity by 2035 that will power an estimated 6 million homes. As of October 2022, New York has five offshore wind farms in development with approximately 4,300 MW installed capacity.
Wind power in Illinois provided nearly 10% of the state's generated electrical power in 2020 powering 1,231,900 homes. At the end of 2020, Illinois had 6,300 megawatts (MW) of wind power installed, ranking fifth among states for installed wind turbine capacity. An additional 1,100 MW of wind power was under construction across the state at the end of 2020.
Wind power in Montana is a growing industry. Montana had over 695 MW of wind generation capability by 2016, responsible for 7.6% of in-state electricity generation.
Wind power in Indiana was limited to a few small water-pumping windmills on farms until 2008 with construction of Indiana's first utility-scale wind power facility, Goodland with a nameplate capacity of 130 MW. As of March of 2024, Indiana had a total of 2,743 MW of wind power capacity installed, ranking it 12th among U.S. states. Wind power was responsible for 4.8% of in-state electricity production in 2016.
In 2016, Arizona had 268 megawatts (MW) of wind powered electricity generating capacity, producing 0.5% of in-state generated electricity.
Alta Wind Energy Center (AWEC), also known as Mojave Wind Farm, is the third largest onshore wind energy project in the world. The Alta Wind Energy Center is a wind farm located in Tehachapi Pass of the Tehachapi Mountains, in Kern County, California. As of 2022, it is the largest wind farm in the United States, with a combined installed capacity of 1,550 MW (2,080,000 hp). The project, being developed near Tehachapi Pass Wind Farm— site of the first large-scale wind farms installed in the U.S. in the 1970s and 1980s—is "a powerful illustration of the growing size and scope of modern wind projects".
The wind generation potential in the United States far exceeds demand. North Dakota, the windiest state, has the capacity to install 200,000 MW at 50% capacity factor 100 m (330 ft)-high turbines. Texas, although not as windy, is larger, and has the capacity to install 250,000 MW at 50% capacity factor, and 1,757,355.6 MW of at least 35% capacity factor, capable of generating 6,696,500 GWh/year, more than all of the electricity generated in the United States in 2010.
Wind power in Michigan is a developing industry. The industrial base from the automotive industry has led to a number of companies producing wind turbine parts in the state. The development of wind farms in the state, however, has lagged behind. In January 2021, there were a total of 1,481 wind turbines in the state with a nameplate capacity of 2,549 MW. The nameplate total exceeded 2,000 MW when Pine River came online in March 2019. Wind provided 4.2% of the state's electricity in 2016.
The state of South Dakota is a leader in the U.S. in wind power generation with over 30% of the state's electricity generation coming from wind in 2017. In 2016, South Dakota had 583 turbines with a total capacity of 977 megawatts (MW) of wind generation capacity. In 2019, the capacity increased to 1525 MW.
Energy is a major area of the economy of California. California is the state with the largest population and the largest economy in the United States. It is second in energy consumption after Texas. As of 2018, per capita consumption was the fourth-lowest in the United States partially because of the mild climate and energy efficiency programs.
The U.S. State of Oklahoma has high potential capacity for wind power in the western half of the state. In 2021, Oklahoma's installed wind generation capacity was almost 10,500 megawatts, supplying over 40% of the state's generated electricity and 85% of Oklahoma's total generating capacity from all renewable resources.
As of the end of 2021, New Mexico had 4,001 megawatts (MW) of wind powered electricity generating capacity, responsible for 30% of electricity produced that year. Wind power in New Mexico has the potential to generate more than all of the electricity consumed in the state.
Wind power in Hawaii is produced by the state's 132 commercial wind turbines, totaling 236 MW in capacity. In 2015, wind turbines produced 6.4% of Hawaii's electricity. In 2012, Hawaii generated 367 million kWh from wind power.
Wind power in Nebraska remains largely untapped in comparison with its potential. In the Great Plains, with more than 47,000 farms and open skies it ranks near the top in the United States in its ability to generate energy from wind. As of 2015, the state had not adopted a renewable portfolio standard. Omaha Public Power District (OPPD) is one of the state's largest purchasers of wind energy.
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