Portal:Renewable energy

The Renewable Energy Portal

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Renewable energy (also called green energy) is energy made from renewable natural resources that are replenished on a human timescale. The most widely used renewable energy types are solar energy, wind power, and hydropower. Bioenergy and geothermal power are also significant in some countries. Some also consider nuclear power a renewable power source, although this is controversial, as nuclear energy requires mining uranium, a nonrenewable resource. Renewable energy installations can be large or small and are suited for both urban and rural areas. Renewable energy is often deployed together with further electrification. This has several benefits: electricity can move heat and vehicles efficiently and is clean at the point of consumption. Variable renewable energy sources are those that have a fluctuating nature, such as wind power and solar power. In contrast, controllable renewable energy sources include dammed hydroelectricity, bioenergy, or geothermal power. Renewable energy systems have rapidly become more efficient and cheaper over the past 30 years. A large majority of worldwide newly installed electricity capacity is now renewable. Renewable energy sources, such as solar and wind power, have seen significant cost reductions over the past decade, making them more competitive with traditional fossil fuels. In most countries, photovoltaic solar or onshore wind are the cheapest new-build electricity. From 2011 to 2021, renewable energy grew from 20% to 28% of global electricity supply. Power from the sun and wind accounted for most of this increase, growing from a combined 2% to 10%. Use of fossil energy shrank from 68% to 62%. In 2024, renewables accounted for over 30% of global electricity generation and are projected to reach over 45% by 2030. Many countries already have renewables contributing more than 20% of their total energy supply, with some generating over half or even all their electricity from renewable sources.

The main motivation to use renewable energy instead of fossil fuels is to slow and eventually stop climate change, which is mostly caused by their greenhouse gas emissions. In general, renewable energy sources pollute much less than fossil fuels. The International Energy Agency estimates that to achieve net zero emissions by 2050, 90% of global electricity will need to be generated by renewables. Renewables also cause much less air pollution than fossil fuels, improving public health, and are less noisy.

The deployment of renewable energy still faces obstacles, especially fossil fuel subsidies, lobbying by incumbent power providers, and local opposition to the use of land for renewable installations. Like all mining, the extraction of minerals required for many renewable energy technologies also results in environmental damage. In addition, although most renewable energy sources are sustainable, some are not. (Full article...)

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Renewable energy in Russia mainly consists of hydroelectric energy. Russia is rich not only in oil, gas and coal, but also in wind, hydro, geothermal, biomass and solar energy – the resources of renewable energy. Practically all regions have at least one or two forms of renewable energy that are commercially exploitable, while some regions are rich in all forms of renewable energy resources. However, fossil fuels dominate Russia’s current energy mix, while its abundant and diverse renewable energy resources play little role. (Full article...)

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"Wind power is widely seen as the source of renewable energy with the best chance of competing with fossil-fuel power stations in the near term." – The Economist Technology Quarterly, 12 June 2010, p. 12.

"In 2009, a total of 38,103 MW of new wind installations were recorded, with the total installed global wind power capacity now standing at 160 GW. This represents an increase in cumulative installations of 31%, and a 35% rise in the rate of annual installations. This was the fifth year in a row with record installations, albeit a slightly lower rate compared with the 42% achieved in 2008." – BTM Wind Market Report Renewable Energy World, 20 July 2010.

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WikiProjects

WikiProjects connected with renewable energy:

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De Zoeker, an oil windmill built in 1672 and still in operation, located in Zaanstad, Netherlands.

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Official portrait, 2009

Steven Chu FREng ForMemRS HonFInstP (朱棣文; born February 28, 1948) is an American physicist and former government official. He is a Nobel laureate and was the 12th U.S. secretary of energy. He is currently the William R. Kenan Jr. Professor of Physics and Professor of Molecular and Cellular Physiology at Stanford University. He is known for his research at the University of California, Berkeley, and his research at Bell Laboratories and Stanford University regarding the cooling and trapping of atoms with laser light, for which he shared the 1997 Nobel Prize in Physics with Claude Cohen-Tannoudji and William Daniel Phillips.^[ambiguous]

Chu served as U.S. Secretary of Energy under the administration of President Barack Obama from 2009 to 2013. At the time of his appointment as Energy Secretary, Chu was a professor of physics and molecular and cellular biology at the University of California, Berkeley, and the director of the Lawrence Berkeley National Laboratory, where his research was concerned primarily with the study of biological systems at the single molecule level. Chu resigned as energy secretary on April 22, 2013. He returned to Stanford as Professor of Physics and Professor of Molecular & Cellular Physiology. (Full article...)

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John I. Yellott Denis Hayes Jeremy Leggett Stefan Krauter David Faiman Rolf Disch Hans-Josef Fell Hermann Scheer Amory Lovins Dan W. Reicher Elon Musk

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... that Selling Solar: The Diffusion of Renewable Energy in Emerging Markets, a 2009 Earthscan book by Damian Miller, argues that in order to solve the climate crisis, the world must immediately and dramatically accelerate the commercialization of renewable energy technology ? This needs to happen in the industrialized world, as well as in the emerging markets of the developing world where most future GHG emissions will occur.

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The following are images from various renewable energy-related articles on Wikipedia.

Image 1Darmstadt University of Technology, Germany, won the 2007 Solar Decathlon in Washington, DC with this passive house designed for humid and hot subtropical climate. (from Solar energy)
Image 2Global map of horizontal irradiation (from Solar energy)
Image 3Measurement of the tailrace and forebay rates at the Limestone Generating Station in Manitoba, Canada (from Hydroelectricity)
Image 4Charles F. Brush's wind turbine of 1888, used for generating electric power. (from Wind power)
Image 5Electricity generation at Ohaaki, New Zealand (from Geothermal energy)
Image 6The Warwick Castle water-powered generator house, used for the generation of electricity for the castle from 1894 until 1940 (from Hydroelectricity)
Image 7Museum Hydroelectric power plant "Under the Town" in Užice, Serbia, built in 1900 (from Hydroelectricity)
Image 8Solar water heaters facing the Sun to maximize gain (from Solar energy)
Image 9The Three Gorges Dam in Central China is the world's largest power-producing facility of any kind. (from Hydroelectricity)
Image 10Seasonal cycle of capacity factors for wind and photovoltaics in Europe under idealized assumptions. The figure illustrates the balancing effects of wind and solar energy at the seasonal scale (Kaspar et al., 2019). (from Wind power)
Image 11Onshore wind cost per kilowatt-hour between 1983 and 2017 (from Wind power)
Image 12Acceptance 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). (from Wind power)
Image 13Squad Solar (from Solar energy)
Image 14Wind farm in Xinjiang, China (from Wind power)
Image 15A micro-hydro facility in Vietnam (from Hydroelectricity)
Image 16Yearly hydro generation by continent (from Hydroelectricity)
Image 17Steam rising from the Nesjavellir Geothermal Power Station in Iceland (from Geothermal energy)
Image 18Global map of wind speed at 100 meters on land and around coasts. (from Wind power)
Image 19The Ffestiniog Power Station can generate 360 MW of electricity within 60 seconds of the demand arising. (from Hydroelectricity)
Image 20Installed geothermal energy capacity, 2022 (from Geothermal energy)
Image 21Greenhouse gas emissions per energy source. Wind energy is one of the sources with the least greenhouse gas emissions. (from Wind power)
Image 22Parabolic dish produces steam for cooking, in Auroville, India. (from Solar energy)
Image 23Typical components of a wind turbine (gearbox, rotor shaft and brake assembly) being lifted into position (from Wind power)
Image 24Concentrated solar panels are getting a power boost. Pacific Northwest National Laboratory (PNNL) will be testing a new concentrated solar power system – one that can help natural gas power plants reduce their fuel usage by up to 20 percent.^{[needs update]} (from Solar energy)
Image 25A power plant at The Geysers (from Geothermal energy)
Image 26Global map of wind power density potential (from Wind power)
Image 27The Sun produces electromagnetic radiation that can be harnessed as useful energy. (from Solar energy)
Image 28Distribution of wind speed (red) and energy (blue) for all of 2002 at the Lee Ranch facility in Colorado. The histogram shows measured data, while the curve is the Rayleigh model distribution for the same average wind speed. (from Wind power)
Image 29World electricity production by source, 2000-2023 (from Wind power)
Image 30Thermal energy storage. The Andasol CSP plant uses tanks of molten salt to store solar energy. (from Solar energy)
Image 31Pico hydroelectricity in Mondulkiri, Cambodia (from Hydroelectricity)
Image 32MIT's Solar House #1, built in 1939 in the US, used seasonal thermal energy storage for year-round heating. (from Solar energy)
Image 33Enhanced geothermal system 1:Reservoir 2:Pump house 3:Heat exchanger 4:Turbine hall 5:Production well 6:Injection well 7:Hot water to district heating 8:Porous sediments 9:Observation well 10:Crystalline bedrock (from Geothermal energy)
Image 34Wind turbines are typically installed in windy locations. In the image, wind power generators in Spain, near an Osborne bull. (from Wind power)
Image 35Merowe Dam in Sudan. Hydroelectric power stations that use dams submerge large areas of land due to the requirement of a reservoir. These changes to land color or albedo, alongside certain projects that concurrently submerge rainforests, can in these specific cases result in the global warming impact, or equivalent life-cycle greenhouse gases of hydroelectricity projects, to potentially exceed that of coal power stations. (from Hydroelectricity)
Image 36Typical wind turbine components:
(from Wind power)
Image 37A small Quietrevolution QR5 Gorlov type vertical axis wind turbine on the roof of Bristol Beacon in Bristol, England. Measuring 3 m in diameter and 5 m high, it has a nameplate rating of 6.5 kW. (from Wind power)
Image 38The Imperial Valley Geothermal Project near the Salton Sea, California (from Geothermal energy)
Image 39A panoramic view of the United Kingdom's Whitelee Wind Farm with Lochgoin Reservoir in the foreground. (from Wind power)
Image 40Greencap Energy solar array on NHS hospital in Keighley, England (from Solar energy)
Image 41Livestock grazing near a wind turbine. (from Wind power)
Image 42Cost development of solar PV modules per watt (from Solar energy)
Image 43Share of electricity production from hydropower, 2023 (from Hydroelectricity)
Image 44Roscoe Wind Farm: an onshore wind farm in West Texas near Roscoe (from Wind power)
Image 45Solar water disinfection in Indonesia (from Solar energy)
Image 46Hydro generation by country, 2021 (from Hydroelectricity)
Image 47Participants in a workshop on sustainable development inspect solar panels at Monterrey Institute of Technology and Higher Education, Mexico City on top of a building on campus. (from Solar energy)
Image 48The Hoover Dam in the United States is a large conventional dammed-hydro facility, with an installed capacity of 2,080 MW. (from Hydroelectricity)
Image 49Share of electricity production from wind, 2023 (from Wind power)
Image 50A turbine blade convoy passing through Edenfield in the U.K. (2008). Even longer 2-piece blades are now manufactured, and then assembled on-site to reduce difficulties in transportation. (from Wind power)
Image 51The oldest known pool fed by a hot spring, built in the Qin dynasty in the 3rd century BCE (from Geothermal energy)
Image 52Wind turbines such as these, in Cumbria, England, have been opposed for a number of reasons, including aesthetics, by some sectors of the population. (from Wind power)
Image 53Electricity generation at Wairakei, New Zealand (from Geothermal energy)
Image 54Global geothermal electric capacity. Upper red line is installed capacity; lower green line is realized production. (from Geothermal energy)
Image 55Krafla Geothermal Station in northeast Iceland (from Geothermal energy)
Image 56Geothermal power station in the Philippines (from Geothermal energy)
Image 57Electricity generation at Poihipi, New Zealand (from Geothermal energy)
Image 58Greenhouses like these in the Westland municipality of the Netherlands grow vegetables, fruits and flowers. (from Solar energy)
Image 59In 2016, Solar Impulse 2 was the first solar-powered aircraft to complete a circumnavigation of the world. (from Solar energy)
Image 60Energy from wind, sunlight or other renewable energy is converted to potential energy for storage in devices such as electric batteries or higher-elevation water reservoirs. The stored potential energy is later converted to electricity that is added to the power grid, even when the original energy source is not available. (from Wind power)