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World renewable energy in 2005 (except 2004 data for items marked* or **). Enlarge image to read exclusions.

Renewable Energy is energy derived from resources that are regenerative or for all practical purposes cannot be depleted.^[1] For this reason, renewable energy sources are fundamentally different from fossil fuels, and do not produce as many greenhouse gases and other pollutants as fossil fuel combustion. Mankind's traditional uses of wind, water, and solar energy are widespread in developed and developing countries; but the mass production of electricity using renewable energy sources has become more commonplace recently, reflecting the major threats of climate change, exhaustion of fossil fuels, and the environmental, social and political risks of fossil fuels. Consequently, many countries promote renewable energies through tax incentives and subsidies. Image File history File links Broom_icon. ... Image File history File links Download high-resolution version (882x705, 18 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Renewable energy World energy resources and consumption ... Image File history File links Download high-resolution version (882x705, 18 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Renewable energy World energy resources and consumption ... Greenhouse gases are gaseous components of the atmosphere that contribute to the greenhouse effect. ... Variations in CO2, temperature and dust from the Vostok ice core over the last 400,000 years For current global climate change, see Global warming. ... Fossil fuels are hydrocarbon-containing natural resources such as coal, petroleum and natural gas. ...

Renewable energy accounts for about 14% of the world's energy consumption, but the technical potential is large enough to cover many times current and several times projected energy consumption in 2100 (see below). Renewable technologies such as geothermal and hydropower are often economically competitive without subsidies. Other technologies such as solar power are substantially more expensive, although future costs may decline to a fraction of current levels.

For articles on specific fuels used in vehicles, see Biogas, Bioethanol, Biobutanol, Biodiesel, and Straight vegetable oil. ... See biomass (ecology) for the use of the term in ecology, where it refers to the cumulation of living matter Switchgrass, a tough plant used in the biofuel industry in the United States Rice chaff. ... Hydroelectricity is the worlds leading renewable energy source. ... Krafla Geothermal Station in northeast Iceland Geothermal power is the use of geothermal heat to generate electricity. ... Solar power describes a number of methods of harnessing energy from the light of the sun. ... Tidal power, sometimes called tidal energy, is a form of hydropower that exploits the rise and fall in sea levels due to the tides, or the movement of water caused by the tidal flow. ... Wave power refers to the energy of ocean surface waves and the capture of that energy to do useful work - including electricity generation, desalination, and the pumping of water (into reservoirs). ... Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ... Environmental technology or green technology is the application of the environmental sciences to conserve the natural environment and resources, and by curbing the negative impacts of human involvement. ... Air pollution is a chemical, physical (e. ... For articles on specific fuels used in vehicles, see Biogas, Bioethanol, Biobutanol, Biodiesel, and Straight vegetable oil. ... An active compost heap, steaming on a cold winter morning. ... Ecoforestry is forestry that emphasizes holistic practices which strive to protect and restore ecosystems1 instead of traditional forestry that maximizes economic productivity. ... For the physical concepts, see conservation of energy and energy efficiency. ... It has been suggested that future energy development be merged into this article or section. ... Environmental design is the process of addressing environmental parameters when devising plans, programs, policies, buildings, or products. ... Green building is the practice of increasing the efficiency with which buildings and their sites use and harvest energy, water, and materials, and reducing building impacts on human health and the environment, through better siting, design, construction, operation, maintenance, and removal — the complete building life cycle. ... This article or section is incomplete and may require expansion and/or cleanup. ... Natural building involves a range of building systems and materials that place major emphasis on sustainability. ... This article needs additional references or sources to facilitate its verification. ... // Renewable energy development covers the advancement, capacity growth, and use of renewable energy sources by humans. ... Generally, remediation means giving a remedy. ... The following page contains a list of different forms of waste treatment Anaerobic digestion ArrowBio Composting Gasification Incineration In-vessel composting Landfill Mechanical biological treatment Mechanical heat treatment Plasma Pyrolysis Recycling Sewage treatment Tunnel composting UASB Windrow composting Categories: | ... Sustainable architecture applies techniques of sustainable design to architecture. ... This article is about a concept related to renewable energy, of which sustainable energy is a superset. ... Sustainable development is defined as balancing the fulfillment of human needs with the protection of the natural environment so that these needs can be met not only in the present, but in the indefinite future. ... The following page consist of a list of waste water treatment technologies: Activated sludge Anaerobic digestion Anaerobic lagoon Cesspit Combined sewer overflow Composting toilet Constructed wetland Imhoff tank Floculation Reed bed Septic tank Sequencing batch reactor UASB Aerobic Granular Reactor This list is incomplete; you can help by expanding it. ... Control room and schematics of the water purification plant to Bret lake. ... Wikimedia Commons has media related to: Waste For the company, see Waste Management, Inc. ... Environmental science is the study of the interactions among the physical, chemical and biological components of the environment; with a focus on pollution and degradation of the environment related to human activities; and the impact on biodiversity and sustainability from local and global development. ...

Main renewable energy technologies

Three energy sources

The majority of renewable energy technologies are directly or indirectly powered by the Sun. The Earth-Atmosphere system is in equilibrium such that heat radiation into space is equal to incoming solar radiation, the resulting level of energy within the Earth-Atmosphere system can roughly be described as the Earth's "climate." The hydrosphere (water) absorbs a major fraction of the incoming radiation. Most radiation is absorbed at low latitudes around the equator, but this energy is dissipated around the globe in the form of winds and ocean currents. Wave motion may play a role in the process of transferring mechanical energy between the atmosphere and the ocean through wind stress.^[2] Solar energy is also responsible for the distribution of precipitation which is tapped by hydroelectric projects, and for the growth of plants used to create biofuels. Image File history File links Download high-resolution version (3222x2280, 872 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Renewable energy ... Image File history File links Download high-resolution version (3222x2280, 872 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Renewable energy ... Solar irradiance spectrum at top of atmosphere. ...

Renewable energy flows involve natural phenomena such as sunlight, wind, tides and geothermal heat, as the International Energy Agency explains: Prism splitting light High Resolution Solar Spectrum Sunlight in the broad sense is the total spectrum of the electromagnetic radiation given off by the Sun. ... This article or section does not cite any references or sources. ... This article is about tides in the ocean. ... Geothermal heating is a method of heating and cooling a building. ... The International Energy Agency (IEA, or AIE in Romance languages) is a Paris-based intergovernmental organization founded by the Organisation for Economic Co-operation and Development (OECD) in 1974 in the wake of the oil crisis. ...

"Renewable energy is derived from natural processes that are replenished constantly. In its various forms, it derives directly from the sun, or from heat generated deep within the earth. Included in the definition is electricity and heat generated from solar, wind, ocean, hydropower, biomass, geothermal resources, and biofuels and hydrogen derived from renewable resources." ^[3]

Each of these sources has unique characteristics which influence how and where they are used.

Wind power

Main article: Wind power

Offshore wind turbines near Copenhagen

Airflows can be used to run wind turbines. Modern wind turbines range from around 600kW to up to 5 MW of rated power, although turbines with rated output of 1.5-3 MW have become the most common for commercial use. The power output of a turbine is a function of the cube of the wind speed, so as wind speed increases, power output increases dramatically.^[4] Areas where winds are stronger and more constant, such as offshore and high altitude sites, are preferred locations for wind farms. Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ... Download high resolution version (1024x357, 49 KB)Danish wind turbines near Copenhagen. ... Download high resolution version (1024x357, 49 KB)Danish wind turbines near Copenhagen. ... Copenhagen (IPA: or ; Danish: IPA: ) is the capital of Denmark and the countrys largest city. ... Horizontal-axis wind turbine, the Enercon model E-66 wind energy converter, in Germany. ...

Wind power is the fastest growing of the renewable energy technologies. Over the past decade, global installed maximum capacity increased from 2,500 MW in 1992 to just over 40,000 MW at the end of 2003, at an annual growth rate of near 30%.^[4] Due to the intermittency of wind resources, most deployed turbines in the EU produce electricity an average of 25% of the hours in a year (a capacity factor of 25%) ),^[5] but under favourable wind regimes some reach 35% or higher. Capacity factors are a function of seasonal wind fluctuations and may be higher in winter. It would mean that a typical 5 MW turbine in the EU would have an average output of 1.7 MW. Intermittent power sources are sources of power generation, primarily electricity, whose power output is either variable or intermittent. ...

Globally, the long-term technical potential of wind energy is believed to be five times current production global energy consumption or 40 times current electricity demand. This could require large amounts of land to be utilized for wind turbines, particularly in areas of higher wind resources. Offshore resources experience mean wind speeds of ~90% greater than that of land, so offshore resources could contribute substantially more energy.^[6] This number could also increase with higher altitude ground-based or airborne wind turbines.^[7]

Wind strengths near the Earth's surface vary and thus cannot guarantee continuous power unless combined with other energy sources or storage systems. Some estimates suggest that 1,000 MW of conventional wind generation capacity can be relied on for just 333 MW of continuous power. While this might change as technology evolves, advocates have suggested incorporating wind power with other power sources, or the use of energy storage techniques, with this in mind. It is best used in the context of a system that has significant reserve capacity such as hydro, or reserve load, such as a desalination plant, to mitigate the economic effects of resource variability.

Wind power is renewable and produces no greenhouse gases during operation, such as carbon dioxide and methane. Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ... Top: Increasing atmospheric CO2 levels as measured in the atmosphere and ice cores. ... In order to meet Wikipedias quality standards, this article requires cleanup. ... Methane is a chemical compound with the molecular formula CH4. ...

Water power

Main article: Water power

Energy in water (in the form of motive energy or temperature differences) can be harnessed and used. Since water is about a thousand times denser than air, even a slow flowing stream of water, or moderate sea swell, can yield considerable amounts of energy. Hydropower (or waterpower) harnesses the energy of moving or falling water. ... Look up swell in Wiktionary, the free dictionary. ...

There are many forms of water energy:

• Hydroelectric energy is a term usually reserved for large-scale hydroelectric dams.
• Micro hydro systems are hydroelectric power installations that typically produce up to 100 kW of power. They are often used in water rich areas as a Remote Area Power Supply (RAPS). There are many of these installations around the world, including several delivering around 50 kW in the Solomon Islands.
• Wave power uses the energy in waves. The waves will usually make large pontoons go up and down in the water, leaving an area with reduced wave height in the "shadow". Wave power has now reached commercialization.
• Tidal power captures energy from the tides in a vertical direction. Tides come in, raise water levels in a basin, and tides roll out. Around low tide, the water in the basin is discharged through a turbine.
• Tidal stream power captures energy from the flow of tides, usually using underwater plant resembling a small wind turbine. Tidal stream power demonstration projects exist, and the first commercial prototype will be installed in Strangford Lough in September 2007.
• Ocean thermal energy conversion (OTEC) uses the temperature difference between the warmer surface of the ocean and the colder lower recesses. To this end, it employs a cyclic heat engine. OTEC has not been field-tested on a large scale.
• Deep lake water cooling, although not technically an energy generation method, can save a lot of energy in summer. It uses submerged pipes as a heat sink for climate control systems. Lake-bottom water is a year-round local constant of about 4 °C.
• Blue energy is the reverse of desalination. This form of energy is in research.

Hydroelectric dam diagram The waters of Llyn Stwlan, the upper reservoir of the Ffestiniog Pumped-Storage Scheme in north Wales, can just be glimpsed on the right. ... Micro Hydro is a term used for hydroelectric power installations that typically produce up to 100 kW of power. ... Hydroelectric dam diagram The waters of Llyn Stwlan, the upper reservoir of the Ffestiniog Pumped-Storage Scheme in north Wales, can just be glimpsed on the right. ... A Remote Area Power Supply (RAPS) is a system that provides electricity in remote locations, without requiring connection to an electricity distribution system. ... Wave power refers to the energy of ocean surface waves and the capture of that energy to do useful work - including electricity generation, desalination, and the pumping of water (into reservoirs). ... For the car body style, see Ponton (automobile). ... Tidal power, sometimes called tidal energy, is a form of hydropower that exploits the rise and fall in sea levels due to the tides, or the movement of water caused by the tidal flow. ... A Siemens steam turbine with the case opened. ... This page is a candidate for speedy deletion. ... View of Portaferry from the Strangford side of the lough Strangford Lough (Loch Cuan in Irish) is a lough in County Down, Northern Ireland, separated from the Irish Sea by the Ards peninsula. ... This article or section does not cite any references or sources. ... A heat engine is a physical or theoretical device that converts thermal energy to mechanical output. ... Deep lake water cooling uses cold water pumped from the bottom of a lake as a heat sink for climate control systems. ... CPU heat sink with fan attached A heat sink is an environment or object that absorbs and dissipates heat from another object using thermal contact (either direct or radiant). ... Note: in the broadest sense, air conditioning can refer to any form of heating, ventilation, and air-conditioning. ... Celsius is, or relates to, the Celsius temperature scale (previously known as the centigrade scale). ... Blue energy is the energy retrieved from the difference in the salt concentration between seawater and river water with the use of osmosis or reverse electro dialysis (RED) with ion specific membranes. ... Shevchenko BN350 desalination unit situated on the shore of the Caspian Sea. ...

Solar energy use

Main article: Solar power

A photovoltaic (PV) module that is composed of multiple PV cells. Two or more interconnected PV modules create an array.

In this context, "solar energy" refers to energy that is collected from sunlight. Solar energy can be applied in many ways, including to: Solar power describes a number of methods of harnessing energy from the light of the sun. ... solar panel by BP solar at a german autobahn bridge. ... solar panel by BP solar at a german autobahn bridge. ...

• Generate electricity using photovoltaic solar cells.
• Generate electricity using concentrated solar power.
• Generate electricity by heating trapped air which rotates turbines in a Solar updraft tower.
• Heat buildings, directly, through passive solar design.
• Heat foodstuffs, through solar ovens.
• Heat water or air for domestic hot water and space heating needs using solar-thermal panels.
• Heat and cool air through use of solar chimneys.
• Generate electricity in geosynchronous orbit using solar power satellites.

A solar cell, a form of photovoltaic cell, is a device that uses the photoelectric effect to generate electricity from light, thus generating solar power (energy). ... Solar thermal energy is a technology for harnessing solar power for practical applications from solar heating to electrical power generation. ... Schematic of a Solar updraft tower This article is about a type of power plant. ... Solar panels are used in passive and active solar hot water systems Passive solar is a term referring to those technologies that can be employed to convert sunlight into usable heat, to cause air-movement for ventilation or cooling, or to store the heat for future use, without the use... a solar oven A solar oven or solar cooker is a way of harnessing the suns power to cook food. ... Solar hot water refers to water heated by solar energy. ... It has been suggested that this article or section be merged with Solar Tower. ... An artists depiction of a solar satellite, which could send energy wirelessly to a space vessel or planetary surface. ...

Biofuel

Main article: Biofuel

Plants use photosynthesis to grow and produce biomass. Also known as biomatter, biomass can be used directly as fuel or to produce liquid biofuel. Agriculturally produced biomass fuels, such as biodiesel, ethanol and bagasse (often a by-product of sugar cane cultivation) can be burned in internal combustion engines or boilers. Typically biofuel is burned to release its stored chemical energy. Research into more efficient methods of converting biofuels and other fuels into electricity utilizing fuel cells is an area of very active work. For articles on specific fuels used in vehicles, see Biogas, Bioethanol, Biobutanol, Biodiesel, and Straight vegetable oil. ... The leaf is the primary site of photosynthesis in plants. ... See biomass (ecology) for the use of the term in ecology, where it refers to the cumulation of living matter Switchgrass, a tough plant used in the biofuel industry in the United States Rice chaff. ... For articles on specific fuels used in vehicles, see Biogas, Bioethanol, Biobutanol, Biodiesel, and Straight vegetable oil. ... In some countries, filling stations sell bio-diesel more cheaply than conventional diesel. ... Grain alcohol redirects here. ... This article or section does not cite its references or sources. ... Species Ref: ITIS 42058 as of 2004-05-05 Sugarcane is one of six species of a tall tropical southeast Asian grass (Family Poaceae) having stout fibrous jointed stalks whose sap at one time was the primary source of sugar. ... This article does not cite any references or sources. ... A boiler is a closed vessel in which water or other fluid is heated under pressure. ...

Liquid biofuel

Information on pump, California.

Liquid biofuel is usually either a bioalcohol such as ethanol or a bio-oil such as biodiesel and straight vegetable oil. Biodiesel can be used in modern diesel vehicles with little or no modification to the engine and can be made from waste and virgin vegetable and animal oil and fats (lipids). Virgin vegetable oils can be used in modified diesel engines. In fact the Diesel engine was originally designed to run on vegetable oil rather than fossil fuel. A major benefit of biodiesel is lower emissions. The use of biodiesel reduces emission of carbon monoxide and other hydrocarbons by 20 to 40%. In some areas corn, cornstalks, sugarbeets, sugar cane, and switchgrasses are grown specifically to produce ethanol (also known as grain alcohol) a liquid which can be used in internal combustion engines and fuel cells. Ethanol is being phased into the current energy infrastructure. E85 is a fuel composed of 85% ethanol and 15% gasoline that is sold to consumers. Biobutanol is being developed as an alternative to bioethanol. Image File history File links EthanolPetrol. ... Image File history File links EthanolPetrol. ... Grain alcohol redirects here. ... In some countries, filling stations sell bio-diesel more cheaply than conventional diesel. ... Straight Vegetable Oil (SVO) is a fuel for diesel engines that can be either pure new vegetable oil or waste vegetable oil that has been cleaned, although this is normally referred to as WVO. Vegetable oil used as fuel in a compression ignition or diesel engine is also referred to... A polyunsaturated triglyceride. ... “Corn” redirects here. ... Cornstalk (1720?–November 10, 1777) was a prominent leader of the Shawnee people in the era of the American Revolution. ... Two sugar beets - the one on the left has been cultivated to be smoother than the traditional beet, so that it traps less soil. ... Species Ref: ITIS 42058 as of 2004-05-05 Sugarcane is one of six species of a tall tropical southeast Asian grass (Family Poaceae) having stout fibrous jointed stalks whose sap at one time was the primary source of sugar. ... Binomial name Panicum virgatum L. Switchgrass (Panicum virgatum) is a warm season grass and is one of the dominant species of the central North American tallgrass prairie. ... Grain alcohol redirects here. ... This article does not cite any references or sources. ... A fuel cell is an electrochemical device similar to a battery, but differing from the latter in that it is designed for continuous replenishment of the reactants consumed; i. ... Grain alcohol redirects here. ... Butanol (butyl alcohol) is a higher alcohol with a 4 carbon atom structure and a general formula of C4H10O. There are 4 different isomeric structures for butanol (refer to box). ...

In the future, there might be bio-synthetic liquid fuel available. It can be produced by the Fischer-Tropsch process, also called Biomass-To-Liquids (BTL).^[8] // The Fischer-Tropsch process is a catalyzed chemical reaction in which carbon monoxide and hydrogen are converted into liquid hydrocarbons of various forms. ...

Solid biomass

Sugar cane residue can be used as a biofuel

Direct use is usually in the form of combustible solids, either wood, the biogenic portion of municipal solid waste or combustible field crops. Field crops may be grown specifically for combustion or may be used for other purposes, and the processed plant waste then used for combustion. Most sorts of biomatter, including dried manure, can actually be burnt to heat water and to drive turbines. Sugar cane leaves File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... Sugar cane leaves File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... Species Ref: ITIS 42058 as of 2004-05-05 Sugarcane is one of six species of a tall tropical southeast Asian grass (Family Poaceae) having stout fibrous jointed stalks whose sap at one time was the primary source of sugar. ...

Sugar cane residue, wheat chaff, corn cobs and other plant matter can be, and is, burnt quite successfully. The net Carbon Dioxide emissions that are added to the atmosphere by this process are only from the fossil fuel that is consumed to plant, fertilize, harvest and transport the biomass. Processes to grow perenials such as switchgrass, miscanthus, and willow, field pelletize and co-fire with coal for electricity generation are being studied and appear to be economically viable.^[9] Co-firing this cellulosic biomass with coal to make electricity is more effective for reducing carbon dioxide emmissions to the atmosphere than using it to make ethanol. Species Ref: ITIS 42058 as of 2004-05-05 Sugarcane is one of six species of a tall tropical southeast Asian grass (Family Poaceae) having stout fibrous jointed stalks whose sap at one time was the primary source of sugar. ... A residue, broadly, is anything left behind by a reaction or event. ... Species T. aestivum T. boeoticum T. compactum T. dicoccoides T. dicoccon T. durum T. monococcum T. spelta T. sphaerococcum T. timopheevii References:   ITIS 42236 2002-09-22 For the indie rock group see: Wheat (band). ... Chaff is the seed casings and other inedible plant matter harvested with cereal grains such as wheat. ... “Corn” redirects here. ... Binomial name Panicum virgatum L. Switchgrass (Panicum virgatum) is a warm season grass and is one of the dominant species of the central North American tallgrass prairie. ... Species See text. ... Species About 350, including: Salix acutifolia - Violet Willow Salix alaxensis - Alaska Willow Salix alba - White Willow Salix alpina - Alpine Willow Salix amygdaloides - Peachleaf Willow Salix arbuscula - Mountain Willow Salix arbusculoides - Littletree Willow Salix arctica - Arctic Willow Salix atrocinerea Salix aurita - Eared Willow Salix babylonica - Peking Willow Salix bakko Salix barrattiana... To meet Wikipedias quality standards, this article may require cleanup. ...

Solid biomass can also be gasified, and used as described in the next section. Pyrolysis of carbonaceous fuels For the water carbonator, see Gasogene. ...

Biogas

Main articles: Biogas and Anaerobic digestion

Biogas can easily be produced from current waste streams, such as: paper production, sugar production, sewage, animal waste and so forth. These various waste streams have to be slurried together and allowed to naturally ferment, producing methane gas. This can be done by converting current sewage plants into biogas plants. When a biogas plant has extracted all the methane it can, the remains are sometimes better suitable as fertilizer than the original biomass. Biogas-bus in Bern, Switzerland Biogas typically refers to a (biofuel) gas produced by the anaerobic digestion or fermentation of organic matter including manure, sewage sludge, municipal solid waste, biodegradable waste or any other biodegradable feedstock, under anaerobic conditions. ... Anaerobic digestion is the breakdown of organic matter by bacteria in the absence of oxygen. ...

Alternatively biogas can be produced via advanced waste processing systems such as mechanical biological treatment. These systems recover the recyclable elements of household waste and process the biodegradable fraction in anaerobic digesters. Mechanical Biological Treatment (MBT) is a form of waste processing. ... Anaerobic digesters are used to create anaerobic, meaning without oxygen, conditions so that anaerobic bacteria can efficiently digest biomass, sewage or other organic matter. ...

Renewable natural gas is a biogas which has been upgraded to a quality similar to natural gas. By upgrading the quality to that of natural gas, it becomes possible to distribute the gas to the mass market via gas grid. Renewable natural gas is a biogas which has been upgraded to a quality similar to natural gas. ... Natural gas is a gaseous fossil fuel consisting primarily of methane but including significant quantities of ethane, butane, propane, carbon dioxide, nitrogen, helium and hydrogen sulfide. ...

Geothermal energy

Main article: Geothermal energy

Krafla Geothermal Station in northeast Iceland

Geothermal energy is energy obtained by tapping the heat of the earth itself, usually from kilometers deep into the Earth's crust. It is expensive to build a power station but operating costs are low resulting in low energy costs for suitable sites. Ultimately, this energy derives from the radioactive decay in the core of the Earth, which heats the Earth from the inside out. Geothermal power is electricity generated by utilizing naturally occurring geological heat sources. ... Image File history File linksMetadata Size of this preview: 800 × 600 pixelsFull resolution (2304 × 1728 pixel, file size: 867 KB, MIME type: image/jpeg) Krafla Geothermal Station. ... Image File history File linksMetadata Size of this preview: 800 × 600 pixelsFull resolution (2304 × 1728 pixel, file size: 867 KB, MIME type: image/jpeg) Krafla Geothermal Station. ... Krafla volcanic area Krafla is a volcanic system with a diameter of about 20 km in the north of Iceland in the Mývatn region. ... Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting radiation in the form of particles or electromagnetic waves. ... This article is about Earth as a planet. ...

Three types of power plants are used to generate power from geothermal energy: dry steam, flash, and binary. Dry steam plants take steam out of fractures in the ground and use it to directly drive a turbine that spins a generator. Flash plants take hot water, usually at temperatures over 200 °C, out of the ground, and allows it to boil as it rises to the surface then separates the steam phase in steam/water separators and then runs the steam through a turbine. In binary plants, the hot water flows through heat exchangers, boiling an organic fluid that spins the turbine. The condensed steam and remaining geothermal fluid from all three types of plants are injected back into the hot rock to pick up more heat.

Although geothermal sites are capable of providing heat for many decades, eventually they are depleted as the ground cools. The government of Iceland states It should be stressed that the geothermal resource is not strictly renewable in the same sense as the hydro resource. It estimates that Iceland's geothermal energy could provide 1700 MW for over 100 years, compared to the current production of 140 MW.^[10]

The geothermal energy from the core of the Earth is closer to the surface in some areas than in others. Where hot underground steam or water can be tapped and brought to the surface it may be used to generate electricity. Such geothermal power sources exist in certain geologically unstable parts of the world such as Iceland, New Zealand, United States, the Philippines and Italy. The two most prominent areas for this in the United States are in the Yellowstone basin and in northern California. Iceland produced 170 MW geothermal power and heated 86% of all houses in the year 2000 through geothermal energy. Some 8000 MW of capacity is operational in total. Krafla Geothermal Station in northeast Iceland Geothermal power is the use of geothermal heat to generate electricity. ... Yellowstone National Park is the centerpiece of the Greater Yellowstone Ecosystem, the largest intact ecosystem in the Earths northern temperate zone. ... Official language(s) English Capital Sacramento Largest city Los Angeles Area  Ranked 3rd  - Total 158,302 sq mi (410,000 km²)  - Width 250 miles (400 km)  - Length 770 miles (1,240 km)  - % water 4. ...

There is also the potential to generate geothermal energy from Hot Dry Rocks. Holes at least 3km deep are drilled into the earth. Some of these holes pump water into the earth, while other holes pump hot water out. The heat resource consists of hot underground radiogenic granite rocks, which heat up when there is enough sediment between the rock and the earths surface. Several companies in Australia are exploring this technology. Hot-Dry-Rock (HDR) is a type of geothermal power production that utilises the very high temperatures that can be found in rocks just a few kilometres below ground. ...

Potential

While currently renewable energy sources only supply a modest fraction of current energy use (ca. 14% of primary energy use^[11], mostly from traditional biomass), there is much potential that could be exploited in the future. As the table below illustrates, the technical potential of renewable energy sources is more than 18 times current global primary energy use and furthermore several times higher than projected energy use in 2100. Primary energy is energy contained in raw fuels and any other forms of energy received by a system as input to the system. ...

A laundromat in California with flat-plate solar water heating collectors on its roof.

There are many different ways to assess potentials. The theoretical potential indicates the amount of energy theoretically available for energy purposes, such as, in the case of solar power, the amount of incoming radiation at the earth's surface. The technical potential is a more practical estimate of how much could be put to human use by considering conversion efficiencies of the available technology and available land area. To give an idea of the constraints, the estimate for solar energy assumes that 1% of the world's unused land surface is used for solar power. Image File history File links Download high resolution version (1026x768, 1495 KB) Summary Photographed by Alan Mak on September 3rd, 2005. ... Image File history File links Download high resolution version (1026x768, 1495 KB) Summary Photographed by Alan Mak on September 3rd, 2005. ... A laundromat in California powered by solar panels on the roof. ... Official language(s) English Capital Sacramento Largest city Los Angeles Area  Ranked 3rd  - Total 158,302 sq mi (410,000 km²)  - Width 250 miles (400 km)  - Length 770 miles (1,240 km)  - % water 4. ... The joule (symbol: J) is the SI (metric) unit of energy, which is defined as the potential to do work. ... Primary energy is energy contained in raw fuels and any other forms of energy received by a system as input to the system. ... Solar power describes a number of methods of harnessing energy from the light of the sun. ... Energy conversion efficiency is the ratio between the useful output of an energy conversion machine and the input, in energy terms. ...

The technical potentials generally do not include economic or other environmental constraints, and the potentials that could be realized at an economically competitive level under current conditions and in a short time-frame is lower still. It should also be noted that intermittent sources such as wind, solar, tidal, and wave energy may eventually require energy storage and/or back-up to guarantee reliable supply at large penetrations. Energy storage is the storing of some form of energy that can be drawn upon at a later time to perform some useful operation. ...

Renewable energy commercialization

Main article: Renewable energy commercialization

Renewable energy technologies are essential contributors to the energy supply portfolio as they generally contribute to world energy security, reducing dependency on fossil fuel resources, and providing opportunities for mitigating greenhouse gases. ...

Costs

Renewable energy technologies encompass a broad, diverse array of technologies, and the current status of these different technologies varies considerably. Some technologies are already mature and economically competitive (e.g. geothermal and hydropower), other technologies need additional development steps to become competitive without subsidies.

The table shows an overview of costs of various renewable energy technologies. For comparison with the prices in the table, electricity production from a conventional coal-fired plant costs about 4¢/kWh^[12]. Though in some G8 nations the cost can be significantly higher at 7.88p (~15¢/kWh). ^[13] Achieving further cost reductions as indicated in the table below requires further technology development, market deployment, and an increase in production capacities to mass production levels.^[14] Mass production is the production of large amounts of standardised products on production lines. ...

Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ... Photovoltaic tree in Styria, Austria The CIS Tower, Manchester, England, was clad in PV panels at a cost of £5. ... Solar thermal energy is a technology for harnessing solar power for practical applications from solar heating to electrical power generation. ... Undershot water wheels on the Orontes River in Hama, Syria Saint Anthony Falls Hydropower is the capture of the energy of moving water for some useful purpose. ... Geothermal power is electricity generated by utilizing naturally occurring geological heat sources. ... Biofuel is any fuel that derives from biomass — recently living organisms or their metabolic byproducts, such as manure from cows. ... Geothermal heating is a method of heating and cooling a building. ... Solar hot water refers to water heated by solar energy. ... The kilowatt-hour (symbol: kW·h) is a unit for measuring energy. ...

Wind power market grows

Main article: Wind power

See also: Wind farm

Wind power: worldwide installed capacity and prediction 1997-2010, Source: WWEA

Figures from the Global Wind Energy Council (GWEC) show that 2006 recorded an increase in installed wind power capacity of 15,197 megawatts (MW), taking the total installed capacity to 74,223 MW, up from 59,091 MW in 2005.^[15] Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ... A wind farm is a collection of wind turbines in the same location. ... Image File history File links Wind_2006andprediction_en. ... Image File history File links Wind_2006andprediction_en. ... The Global Wind Energy Council (GWEC) was established in 2005 to provide a credible and representative forum for the entire wind energy sector at an international level. ...

Despite constraints facing supply chains for wind turbines, the annual market for wind continued to increase at the rate of 32% following the 2005 record year, in which the market grew by 41%.^[16]

In terms of economic value, the wind energy sector has become one of the important players in the energy markets, with the total value of new generating equipment installed in 2006 reaching €18 billion, or US$23 billion.^[17]

The countries with the highest total installed capacity are Germany (20,621 MW), Spain (11,615 MW), the USA (11,603 MW), India (6,270 MW) and Denmark (3,136 MW).^[18] In terms of new installed capacity in 2006, the USA lead with 2,454 MW, followed by Germany (2,233 MW), India (1,840 MW), Spain (1,587 MW), China (1,347 MW) and France (810 MW).^[19]

In the UK, a licence to build the world's largest offshore windfarm, in the Thames estuary, has been granted. The London Array windfarm, 12 miles off Kent and Essex, should eventually consist of 341 turbines, occupying an area of 90 square miles. This is a £1.5 billion, 1,000 megawatt project, which will power one-third of London homes. The windfarm will produce an amount of energy that, if generated by conventional means, would result in 1.9 million tonnes of carbon dioxide emissions every year. It could also make up to 10% of the Government's 2010 renewables target.^[20]

New generation of solar thermal plants

Main article: List of solar thermal power stations

Solar Two, in California's Mojave desert, a concentrating solar thermal power plant.

Construction of the largest solar thermal power plant to be built in 15 years, in Boulder City, Nevada, is nearly complete. This is a List of Solar thermal power stations which are operating or are under construction: Andasol 1 solar power station (Spain) Nevada Solar One (USA) PS10 solar power tower (Spain) Solar Energy Generating Systems (USA) Solar Tres Power Tower (Spain) Category: ... Image File history File links Download high resolution version (1468x1952, 2072 KB) Description: Solar Two in Daggett, CA. It was a 10-MW solar thermal electric power plant. ... Image File history File links Download high resolution version (1468x1952, 2072 KB) Description: Solar Two in Daggett, CA. It was a 10-MW solar thermal electric power plant. ... The major applications of solar thermal energy at present are heating swimming pools, heating water for domestic use, and space heating of buildings. ...

The 64MW Nevada Solar One power plant will generate enough power to meet the electricity needs of about 40,000 households and follows in the steps of the 354MW SEGS solar thermal power plants located in California’s Mojave Desert. While California’s solar plants have generated billions of kilowatt hours of electricity for the past two decades, the Nevada Solar One plant will use new technologies to capture even more energy from the sun.^[21] Nevada Solar One is the third largest solar power plant in the world, generating 64MW, as of June 2007. ... Solar Energy Generating Systems (SEGS) operates nine solar power plants which use parabolic trough solar thermal electric technology along with natural gas to generate electricity in the Mojave Desert. ...

The California Solar Initiative

As part of Governor Arnold Schwarzenegger's Million Solar Roofs Program, California has set a goal to create 3,000 megawatts of new, solar-produced electricity by 2017 - moving the state toward a cleaner energy future and helping lower the cost of solar systems for consumers. This is a comprehensive $2.8 billion program.^[22]

The California Solar Initiative offers cash incentives on solar PV systems of up to $2.50 a watt. These incentives, combined with federal tax incentives, can cover up to 50% of the total cost of a solar panel system.^[23] It should also be noted that there are many financial incentives to support the use of renewable energy in other US states.^[24] The California Solar Initiative program pays incentives to solar photovoltaic (PV) projects in the three California Investor-Owned Utilities service territories. ...

World's largest photovoltaic power plants

Construction of a 40 MW solar generation power plant is underway in the Saxon region of Germany. The Waldpolenz Solar Park will consist of some 550,000 thin-film solar modules. The direct current produced in the modules will be converted into alternating current and fed completely into the power grid. Once completed in 2009, the project will be one of the largest photovoltaic projects ever constructed. Currently the biggest PV plant in the world has an output capacity of around 12 megawatts.^[25] Building approval has been given for the Waldpolenz Solar Park, which will be the world’s biggest photovoltaic (PV) power system, at a former military air base to the east of Leipzig in Germany. ...

The CIS Tower, Manchester, England, was clad in PV panels at a cost of £5.5 million. It started feeding electricity to the national grid in November 2005.

A large photovoltaic power project has been completed in Portugal, the Serpa solar power plant is at one of the Europe's sunniest areas.^[26] The 11 megawatt plant covers 150 acres and is comprised of 52,000 PV panels. The panels are raised 2 metres off the ground and the area will remain productive grazing land. The project will provide enough energy for 8,000 homes and will save an estimated 30,000 tonnes of carbon dioxide emissions per year.^[27][28] Image File history File links Download high resolution version (694x1254, 648 KB) Summary Description: CIS Tower Source: I took it Date: created 16. ... Image File history File links Download high resolution version (694x1254, 648 KB) Summary Description: CIS Tower Source: I took it Date: created 16. ... CIS Tower before recladding The CIS Tower is currently the tallest building in Manchester, England. ... Manchester shown within England Coordinates: , Sovereign state United Kingdom Constituent country England Region North West England Ceremonial county Greater Manchester Admin HQ Manchester City Centre Founded 13th Century City Status 1853 Government  - Type Metropolitan borough, City  - Governing body Manchester City Council Area  - Borough & City 115. ... Motto (French) God and my right Anthem No official anthem - the United Kingdom anthem God Save the Queen is commonly used England() – on the European continent() – in the United Kingdom() Capital (and largest city) London (de facto) Official languages English (de facto)1 Unified  -  by Athelstan 927 AD  Area  -  Total... The National Grid is the high-voltage electric power transmission network in Great Britain, connecting power stations and major substations and ensuring that electricity generated anywhere in Great Britain can be used to satisfy demand elsewhere. ... A solar cell, a form of photovoltaic cell, is a device that uses the photoelectric effect to generate electricity from light, thus generating solar power (energy). ... Construction of the 11 megawatt Serpa solar power plant began in June 2006 and was completed as planned in January 2007. ...

A $420 million large-scale Solar power station in Victoria is to be the biggest and most efficient solar photovoltaic power station in the world. Australian company Solar Systems will demonstrate its unique, world leading design incorporating space technology in a 154MW solar power station connected to the national grid. The power station will have the capability to concentrate the sun by 500 times onto the solar cells for ultra high power output. The Victorian power station will generate clean electricity directly from the sun to meet the annual needs of over 45,000 homes with zero greenhouse gas emissions.^[29] A large new Solar power station for Victoria is planned. ...

However, when it comes to renewable energy systems and PV, it is not just large systems that matter. Building-integrated photovoltaics or "onsite" PV systems have the advantage of being matched to end use energy needs in terms of scale. So the energy is supplied close to where it is needed.^[30] The CIS Tower, Manchester, England, was clad in PV panels at a cost of £5. ...

Onsite renewable technologies

This article or section deals primarily with the United States and does not represent a worldwide view of the subject. Please improve this article or discuss the issue on the talk page.

To promote energy efficiency and environmentally sensitive energy generation, some EPA facilities in the United States are using renewable energy technologies to supplement or replace a large portion of their energy requirements by generating power onsite in the following places: Image File history File links Gnome-globe. ... EPA redirects here. ...

• Ada, Oklahoma (geothermal heat pump)
• Ann Arbor, Michigan (fuel cell)
• Chicago, Illinois, Regional Office (photovoltaic array)
• Corvallis, Oregon (photovoltaic array)
• Edison, New Jersey (solar water heating)
• Gulf Breeze, Florida (solar lighting)
• Golden, Colorado (wind power and transpired solar collector)
• Manchester, Washington (wind power)
• Research Triangle Park, North Carolina (photovoltaic solar panels and street lights)^[31]

Use of ethanol for transportation

Brazil has one of the largest renewable energy programs in the world, involving production of ethanol fuel from sugar cane, and ethanol now provides 18 percent of the country's automotive fuel. As a result, Brazil, which years ago had to import a large share of the petroleum needed for domestic consumption, recently reached complete self-sufficiency in oil.^[32]

Most cars on the road today in the U.S. can run on blends of up to 10% ethanol, and motor vehicle manufacturers already produce vehicles designed to run on much higher ethanol blends. Ford, DaimlerChrysler, and GM are among the automobile companies that sell “flexible-fuel” cars, trucks, and minivans that can use gasoline and ethanol blends ranging from pure gasoline up to 85% ethanol (E85). By mid-2006, there were approximately six million E85-compatible vehicles on U.S. roads.^[33] The challenge is to expand the market for biofuels beyond the farm states where they have been most popular to date. Flex-fuel vehicles are assisting in this transition because they allow drivers to choose different fuels based on price and availability. The Energy Policy Act of 2005, which calls for 7.5 billion gallons of biofuels to be used annually by 2012, will also help to expand the market.^[34] Ford Motor Company is an American multinational corporation and the worlds third largest automaker after General Motors and Toyota, based on worldwide vehicle sales. ... DaimlerChrysler AG (ISIN: DE0007100000) is a German car corporation and the worlds fifth largest car manufacturer. ... General Motors Corporation (NYSE: GM), also known as GM, is an American automobile maker with worldwide operations and brands including Buick, Cadillac, Chevrolet, GMC, Holden, Hummer, Opel, Pontiac, Saturn, Saab and Vauxhall. ... The Energy Policy Act of 2005 (Pub. ...

Wave farms expand

Main article: Wave farm

Pelamis machine pointing into the waves: it attenuates the waves, gathering more energy than its narrow profile suggests. See Pelamis Wave Energy Converter

Portugal now has the world's first commercial wave farm, the Aguçadora Wave Park, established in 2006. The farm will initially use three Pelamis P-750 machines generating 2.25 MW.^[35][36] Initial costs are put at €8.5 million. Subject to successful operation, a further €70 million is likely to be invested before 2009 on a further 28 machines to generate 525 MW.^[37] Pelamis machine pointing into the waves: it attenuates the waves, gathering more energy than its narrow profile suggests. ... Image File history File linksMetadata Download high resolution version (1600x1200, 410 KB) Summary Pelamis wave power machine. ... Image File history File linksMetadata Download high resolution version (1600x1200, 410 KB) Summary Pelamis wave power machine. ... The Pelamis Wave Energy Converter is an emerging technology that will use the motion of ocean waves to create electricity. ... Pelamis machine pointing into the waves: it attenuates the waves, gathering more energy than its narrow profile suggests. ... The Pelamis Wave Energy Converter is an emerging technology that will use the motion of ocean waves to create electricity. ... “EUR” redirects here. ...

Funding for a wave farm in Scotland was announced in February, 2007 by the Scottish Executive, at a cost of over 4 million pounds, as part of a £13 million funding packages for ocean power in Scotland. The farm will be the world's largest with a capacity of 3MW generated by four Pelamis machines.^[38] Motto (Latin) No one provokes me with impunity Cha togar mfhearg gun dioladh (Scottish Gaelic) Wha daur meddle wi me?(Scots)1 Anthem (Multiple unofficial anthems) Scotlands location in Europe Capital Edinburgh Largest city Glasgow Official languages English, Gaelic and Scots1 Government Constitutional monarchy  -  Monarch Queen Elizabeth II... The Executives logo, shown with English and Scottish Gaelic caption The term Scottish Executive is used in two different, but closely-related senses: to denote the executive arm of Scotlands national legislature (i. ... “GBP” redirects here. ... The production of renewable energy in Scotland is an issue that has come to the fore in technical, economic and political terms during the opening years of the 21st century. ...

Geothermal energy prospects

By the end of 2005 worldwide use of geothermal energy for electricity had reached 9.3 GWs, with an additional 28 GW used directly for heating.^[39] If heat recovered by ground source heat pumps is included, the non-electric use of geothermal energy is estimated at more than 100 GWt (gigawatts of thermal power) and is used commercially in over 70 countries.^[40] During 2005 contracts were placed for an additional 0.5 GW of capacity in the United States, while there were also plants under construction in 11 other countries.^[41] Geothermal power is electricity generated by utilizing naturally occurring geological heat sources. ... The watt (symbol: W) is the SI derived unit of power, equal to one joule per second. ... A geothermal exchange heat pump, also known as a ground source heat pump or GSHP, is a heat pump that uses the Earth as either a heat source, when operating in heating mode, or a heat sink when operating in cooling mode. ...

Criticisms and responses

Critics suggest that some renewable energy applications may create pollution, be dangerous, take up large amounts of land, or be incapable of generating a large net amount of energy. Proponents advocate the use of "appropriate renewables", also known as soft energy technologies, as these have many advantages. Soft energy technologies are not simply renewable energy technologies, as there are many renewable energy technologies which are not regarded as soft. Soft energy technologies may be seen as appropriate renewable technologies. ...

Availability

There is no shortage of solar-derived energy on Earth. Indeed the storages and flows of energy on the planet are very large relative to human needs.

• The amount of solar energy intercepted by the Earth every minute is greater than the amount of energy the world uses in fossil fuels each year.
• Tropical oceans absorb 560 trillion gigajoules (GJ) of solar energy each year, equivalent to 1,600 times the world’s annual energy use.
• The energy in the winds that blow across the United States each year could produce more than 16 billion GJ of electricity—more than one and one-half times the electricity consumed in the United States in 2000.
• Annual photosynthesis by the vegetation in the United States is 50 billion GJ, equivalent to nearly 60% of the nation’s annual fossil fuel use.

Yet a recurring criticism of some renewable sources is their intermittent nature. But a variety of renewable sources in combination can overcome this problem. As Amory Lovins explains: Animated map exhibiting the worlds oceanic waters. ... Look up gigajoule in Wiktionary, the free dictionary. ... This article or section does not cite any references or sources. ... Lightning strikes during a night-time thunderstorm. ... The leaf is the primary site of photosynthesis in plants. ... Intermittent power sources are sources of power generation, primarily electricity, whose power output is either variable or intermittent. ... Amory Lovins Amory Bloch Lovins (born November 13, 1947 in Washington, DC) was trained in physics and has worked professionally as an environmentalist. ...

"Stormy weather, bad for direct solar collection, is generally good for windmills and small hydropower plants; dry, sunny weather, bad for hydropower, is ideal for photovoltaics.^[42]

The challenge of variable power supply may be further alleviated by energy storage. Available storage options include pumped-storage hydro systems, batteries, hydrogen fuel cells, and thermal mass. Initial investments in such energy storage systems can be high, although the costs can be recovered over the life of the system. Hydroelectricity is the worlds leading renewable energy source. ... A fuel cell is an electrochemical device similar to a battery, but differing from the latter in that it is designed for continuous replenishment of the reactants consumed; i. ...

Wave energy is continuously available, although wave intensity varies by season. A wave energy scheme installed in Australia generates electricity with an 80% availability factor.

Reliability

Renewable energy sources are often dismissed as unreliable. Yet a diversity of renewable sources, each serving fewer and nearer users, would also greatly restrict the area blacked out if a grid connecting them failed. And when renewable energy sources do fail, they generally fail for shorter periods than do large power plants.^[43]

Our complex, interdependent systems for the production and delivery of energy are vulnerable to simple but devastating acts of sabotage and terrorism. More efficient, diverse, dispersed, renewable energy systems can make major failures impossible.^[44]

Storage of energy from renewable energy systems can also contribute to improved reliability.

Aesthetics

Some people dislike the aesthetics of large solar-electric installations outside cities. However, methods and opportunities exist to deploy these renewable technologies in an efficient and aesthetically pleasing way: fixed solar collectors can double as noise barriers along highways; tremendous roadway, parking lot, and roof-top area is available already (and rooftops could even be replaced totally by solar collectors); amorphous photovoltaic cells can be used to tint windows and produce energy, etc. A photovoltaic cell is a device that turns light into electric energy. ...

Environmental and social considerations

While most renewable energy sources do not produce pollution directly, the materials, industrial processes, and construction equipment used to create them may generate waste and pollution. Some renewable energy systems actually create environmental problems. For instance, older wind turbines can be hazardous to flying birds.

Land area required

Another environmental issue, particularly with biomass and biofuels, is the large amount of land required to harvest energy, which otherwise could be used for other purposes or left as undeveloped land. However, it should be pointed out that these fuels may reduce the need for harvesting non-renewable energy sources, such as vast strip-mined areas and slag mountains for coal, safety zones around nuclear plants, and hundreds of square miles being strip-mined for oil sands. These responses, however, do not account for the exremely high biodiversity and endemism of land used for ethanol crops, particularly sugar cane.

In the U.S., crops grown for biofuels are the most land- and water-intensive of the renewable energy sources. In 2005, about 12% of the nation’s corn crop (covering 11 million acres (45,000 km²) of farmland) was used to produce four billion gallons of ethanol—which equates to about 2% of annual U.S. gasoline consumption. For biofuels to make a much larger contribution to the energy economy, the industry will have to accelerate the development of new feedstocks, agricultural practices, and technologies that are more land and water efficient. Already, the efficiency of biofuels production has increased significantly^[45] and there are new methods to boost biofuel production.^[46]

More generally, renewable energy as a whole is sometimes viewed as too land-intensive to be practical. Yet harnessing renewable energy for electricity production requires less land and water than does our current energy system. Solar power plants that concentrate sunlight in desert areas require 10 km² per GWh (2,540 acre/GWh). On a lifecycle basis, this is less land than a comparable coal or hydropower plant requires, and because most deserts are sparsely populated, there is plenty of room for solar power plants. A little over 4,000 square miles—equivalent to 3.4% of the land in New Mexico—would be sufficient to produce 30% of the United States' electricity.^[47]

Hydroelectric Dams

The major advantage of hydroelectric systems is the elimination of the cost of fuel. Other advantages include longer life than fuel-fired generation, low operating costs, and the provision of facilities for water sports. Operation of pumped-storage plants improves the daily load factor of the generation system. Overall, hydroelectric power can be far less expensive than electricity generated from fossil fuels or nuclear energy, and areas with abundant hydroelectric power attract industry.

However, there are several major disadvantages of hydroelectric systems. These include: dislocation of people living where the reservoirs are planned, release of significant amounts of carbon dioxide at construction and flooding of the reservoir, disruption of aquatic ecosystems and birdlife, adverse impacts on the river environment, potential risks of sabotage and terrorism, and in rare cases catastrophic failure of the dam wall. (See Hydroelectricity article for details.) Hydroelectricity is the worlds leading renewable energy source. ...

Hydroelectric power is now more difficult to site in developed nations because most major sites within these nations are either already being exploited or may be unavailable for other reasons such as environmental considerations.

Wind farms

Wind power is one of the most environmentally friendly sources of renewable energy

A wind farm, when installed on agricultural land, has one of the lowest environmental impacts of all energy sources:^[48] Image File history File links Download high resolution version (2048x1536, 899 KB) Description: Wind turbines in Neuenkirchen, Dithmarschen. ... Image File history File links Download high resolution version (2048x1536, 899 KB) Description: Wind turbines in Neuenkirchen, Dithmarschen. ... Worldwide installed capacity and prediction 1997-2010, Source: WWEA Wind power is the conversion of wind energy into more useful forms, usually electricity, using wind turbines. ...

• It occupies less land area per kilowatt-hour (kWh) of electricity generated than any other energy conversion system, apart from rooftop solar energy, and is compatible with grazing and crops.
• It generates the energy used in its construction in just 3 months of operation, yet its operational lifetime is 20-25 years.
• Greenhouse gas emissions and air pollution produced by its construction are tiny and declining. There are no emissions or pollution produced by its operation.
• In substituting for base-load coal power, wind power produces a net decrease in greenhouse gas emissions and air pollution, and a net increase in biodiversity.
• Modern wind turbines are almost silent and rotate so slowly (in terms of revolutions per minute) that they are rarely a hazard to birds.^[49]

Studies of birds and offshore wind farms in Europe have found that there are very few bird collisions.^[50] Several offshore wind sites in Europe have been in areas heavily used by seabirds. Improvements in wind turbine design, including a much slower rate of rotation of the blades and a smooth tower base instead of perchable lattice towers, have helped reduce bird mortality at wind farms around the world. However older smaller wind turbines may be hazardous to flying birds.^{[citation needed]} Birds are severely impacted by fossil fuel energy; examples include birds dying from exposure to oil spills, habitat loss from acid rain and mountaintop removal coal mining, and mercury poisoning.^[51]

Longevity issues

Though a source of renewable energy may last for billions of years, renewable energy infrastructure, like hydroelectric dams, will not last forever, and must be removed and replaced at some point. Events like the shifting of riverbeds, or changing weather patterns could potentially alter or even halt the function of hydroelectric dams, lowering the amount of time they are available to generate electricity.

Although geothermal sites are capable of providing heat for many decades, eventually specific locations may cool down. It is likely that in these locations, the system was designed too large for the site, since there is only so much energy that can be stored and replenished in a given volume of earth. Some interpret this as meaning a specific geothermal location can undergo depletion, and question whether geothermal energy is truly renewable. The government of Iceland states "it should be stressed that the geothermal resource is not strictly renewable in the same sense as the hydro resource." It estimates that Iceland's geothermal energy could provide 1700 MW for over 100 years, compared to the current production of 140 MW.^[10] The International Energy Agency classifies geothermal power as renewable.^[52] The International Energy Agency (IEA, or AIE in Romance languages) is a Paris-based intergovernmental organization founded by the Organisation for Economic Co-operation and Development (OECD) in 1974 in the wake of the oil crisis. ...

Biofuels production

All biomass needs to go through some of these steps: it needs to be grown, collected, dried, fermented and burned. All of these steps require resources and an infrastructure.

Opponents of corn ethanol production in the U.S. often quote the 2005 paper ^[53] of David Pimentel, a retired Entomologist, and Tadeusz Patzek, a Geological Engineer from Berkeley. Both have been exceptionally critical of ethanol and other biofuels. Their studies contend that ethanol, and biofuels in general, are "energy negative", meaning they take more energy to produce than is contained in the final product.

A 2006 report by the U.S. Department Agriculture compared the methodologies used by a number of researchers on this subject and found that the majority of research showed that the energy balance for ethanol is positive. In fact, a large number of recent studies, including a 2006 article^[54] in the prestigious journal Science offer the consensus opinion that fuels like ethanol are energy positive. Furthermore, it should be pointed out that fossil fuels also require significant energy inputs which have seldom been accounted for in the past.

It is also important to note that ethanol is not the only product created during production, and the energy content of the by-products must also be considered. Corn is typically 66% starch and the remaining 33% is not fermented. This unfermented component is called distillers grain, which is high in fats and proteins, and makes good animal feed. ^[55] In Brazil where sugar cane is used, the yield is higher, and conversion to ethanol is somewhat more energy efficient than corn. Recent developments with cellulosic ethanol production may improve yields even further.^[56] Cellulosic ethanol or cellanol is a general term for ethanol fuel produced from lignocellulose, a structural material that comprises much of the mass of plants. ...

According to the International Energy Agency, new biofuels technologies being developed today, notably cellulosic ethanol, could allow biofuels to play a much bigger role in the future than previously thought. ^[57] Cellulosic ethanol can be made from plant matter composed primarily of inedible cellulose fibers that form the stems and branches of most plants. Crop residues (such as corn stalks, wheat straw and rice straw), wood waste, and municipal solid waste are potential sources of cellulosic biomass. Dedicated energy crops, such as switchgrass, are also promising cellulose sources that can be sustainably produced in many regions of the United States.^[58] The International Energy Agency (IEA, or AIE in Romance languages) is a Paris-based intergovernmental organization founded by the Organisation for Economic Co-operation and Development (OECD) in 1974 in the wake of the oil crisis. ...

It should also be noted that the growing ethanol and biodiesel industries are providing jobs in plant construction, operations, and maintenance, mostly in rural communities. According to the Renewable Fuels Association, the ethanol industry created almost 154,000 U.S. jobs in 2005 alone, boosting household income by $5.7 billion. It also contributed about $3.5 billion in tax revenues at the local, state, and federal levels.^[59]

Concluding comment

The U.S. electric power industry now relies on large, central power stations, including coal, natural gas, nuclear, and hydropower plants that together generate more than 95% of the nation’s electricity. Over the next few decades uses of renewable energy could help to diversify the nation’s bulk power supply. Already, appropriate renewable resources (which excludes large hydropower) produce 12% of northern California’s electricity.^[60]

Although most of today’s electricity comes from large, central-station power plants, new technologies offer a range of options for generating electricity nearer to where it is needed, saving on the cost of transmitting and distributing power and improving the overall efficiency and reliability of the system.^[60]

Improving energy efficiency represents the most immediate and often the most cost-effective way to reduce oil dependence, improve energy security, and reduce the health and environmental impact of the energy system. By reducing the total energy requirements of the economy, improved energy efficiency could make increased reliance on renewable energy sources more practical and affordable.^[60] Efficient energy use, sometimes simply called energy efficiency, is using less energy to provide the same level of energy service. ...

Other issues

Nuclear power

Main articles: Energy development#Nuclear energy and Nuclear power

According to a Stanford study, fast breeder reactors have the potential to power humans on earth for billions of years, making it sustainable, but not actually renewable. No mention is made of the need to contain and store nuclear waste for almost that long, although the half life of uranium, 4.5 billion years, is cited.^[61] Nuclear fusion would be equally available, once developed, and with less waste and containment issues. Neither are generally considered renewable. It has been suggested that future energy development be merged into this article or section. ... A nuclear power station. ... The deuterium-tritium (D-T) fusion reaction is considered the most promising for producing fusion power. ...

Fossil fuels

Main article: Fossil fuel

Fossil fuels are the altered remnants of ancient plant and animal life, deposited in sedimentary rocks millions of years ago, which have rested underground, mostly dormant, since that time. Although this process may continue today, it is extremely slow and produces a negligible amount of these resources compared to the rate of consumption by humans. Therefore, the Earth will eventually run out of fossil fuels (see peak oil). Fossil fuels are therefore not considered a renewable energy source, and are often contrasted with renewables in the context of future energy development. Fossil fuels are hydrocarbons, primarily coal and petroleum (fuel oil or natural gas), formed from the fossilized remains of dead plants and animals[1] by exposure to heat and pressure in the Earths crust over hundreds of millions of years[2]. The theory that hydrocarbons were formed from these... hi In the context of models of the depletion of resources, notably Hubbert peak theory, peak oil is the date when the peak of the worlds petroleum (crude oil) production rate is reached. ... It has been suggested that future energy development be merged into this article or section. ...

Transmission

If renewable and distributed generation were to become widespread, electric power transmission and electricity distribution systems might no longer be the main distributors of electrical energy but would operate to balance the electricity needs of local communities. Those with surplus energy would sell to areas needing "top ups". That is, network operation would require a shift from 'passive management' — where generators are hooked up and the system is operated to get electricity 'downstream' to the consumer — to 'active management', wherein generators are spread across a network and inputs and outputs need to be constantly monitored to ensure proper balancing occurs within the system. Some Governments and regulators are moving to address this, though much remains to be done. One potential solution is the increased use of active management of electricity transmission and distribution networks. This will require significant changes in the way that such networks are operated. Distributed generation is a new trend in the generation of heat and electrical power. ... Power line redirects here. ... 11kV/400V-230V transformer in an older suburb of Wellington, New Zealand Electricity distribution is the penultimate stage in the delivery (before retail) of electricity to end users. ...

However, on a smaller scale, use of renewable energy that can often be produced "onsite" lowers the requirements electricity distribution systems have to fulfill. Current systems, while rarely economically efficient, have proven an average household with a solar panel array and energy storage system of the right size needs electricity from outside sources for only a few hours every week. By matching electricity supply to end-use needs in this way, advocates of renewable energy and the soft energy path believe electricity systems will become smaller and easier to manage, rather than the opposite (see Soft energy technology). 11kV/400V-230V transformer in an older suburb of Wellington, New Zealand Electricity distribution is the penultimate stage in the delivery (before retail) of electricity to end users. ... The soft energy path is an energy use and development strategy delineated and promoted by some energy experts and activists, such as Amory Lovins and Tom Bender; in Canada, David Suzuki has been a very prominent (if less specialized) proponent. ... Soft energy technologies are not simply renewable energy technologies, as there are many renewable energy technologies which are not regarded as soft. Soft energy technologies may be seen as appropriate renewable technologies. ...

Market development of renewable heat energy

Renewable heat is an application of renewable energy, namely the generation of heat from renewable sources. In some cases, contemporary discussion on renewable energy focuses on the generation of electrical, rather than heat energy. This is despite the fact that many colder countries consume more energy for heating than as electricity. On an annual basis the United Kingdom consumes 350 TWh^[62] of electric power, and 840 TWh of gas and other fuels for heating. The residential sector alone consumes a massive 550 TWh of energy for heating, mainly in the form of gas.^[63] // Renewable heat is an application of renewable energy, namely the generation of heat from renewable sources. ... The terawatt hour (TW·h) is a unit for measuring energy. ...

Renewable electric power is becoming cheap and convenient enough to place it, in many cases, within reach of the average consumer. By contrast, the market for renewable heat is mostly inaccessible to domestic consumers due to inconvenience of supply, and high capital costs. Heating accounts for a large proportion of energy consumption, however a universally accessible market for renewable heat is yet to emerge. Solutions such as geothermal heat pumps may be more widely applicable, but may not be economical in all cases. Also see renewable energy development. A geothermal heat pump system is a heating and/or an air conditioning system that utilizes the Earths ability to store heat in the ground and water thermal masses. ... // Renewable energy development covers the advancement, capacity growth, and use of renewable energy sources by humans. ...

Aviation applications

Kerosene, a petroleum-based fuel currently sourced from non-renewable sources, is considered to be the only fuel practical and economic for commercial jet-engine aviation. However, kerosene can now be manufactured from the light crude oil that is the output of the Thermal depolymerization of renewable feedstocks. Biodiesel, another candidate aviation fuel, is problematic due its tendency to freeze more readily than kerosene. Kerosene or paraffin oil (British English, not to be confused with the waxy solid also called paraffin wax or just paraffin) is a flammable hydrocarbon liquid. ... Thermal depolymerization (TDP) is a process for the reduction of complex organic materials (usually waste products of various sorts, often known as biomass) into light crude oil. ... In some countries, filling stations sell bio-diesel more cheaply than conventional diesel. ...

Smaller piston-engined aircraft are mainly fueled by aviation grade gasoline (avgas) but are increasingly being fueled by ethanol [1] or diesel. Given the proper equipment to prevent fuel gelling, a diesel-powered piston aircraft engine can be powered efficiently by biodiesel. // Avgas is a high-octane fuel used for aircraft and, in the past, racing cars. ...

See also

Energy Portal

Sustainable development Portal

// Renewable energy development covers the advancement, capacity growth, and use of renewable energy sources by humans. ... Renewable energy technologies are essential contributors to the energy supply portfolio as they generally contribute to world energy security, reducing dependency on fossil fuel resources, and providing opportunities for mitigating greenhouse gases. ... Image File history File links Portal. ... Image File history File links Sustainable_development. ... The International Electrotechnical Commission (IEC) is an international standards organization dealing with electrical, electronic and related technologies. ... Energy portal This is a list of energy topics which identifies articles and categories that relate to energy in general. ... This is a List of renewable energy topics by country: This list is incomplete; you can help by expanding it. ... Crude oil prices, 1994-2007 (not adjusted for inflation) In 2005 the Swedish government announced their intention to become the first country to break their dependence on oil and other ‘fossil raw materials’ by 2020. ... Renewable energy technologies are essential contributors to the energy supply portfolio as they generally contribute to world energy security, reducing dependency on fossil fuel resources, and providing opportunities for mitigating greenhouse gases. ... // Renewable energy development covers the advancement, capacity growth, and use of renewable energy sources by humans. ... The Eugene Green Energy Standard is an international standard to which national or international green electricity labelling schemes can be accredited to confirm that they provide genuine environmental benefits. ... Soft energy technologies are not simply renewable energy technologies, as there are many renewable energy technologies which are not regarded as soft. Soft energy technologies may be seen as appropriate renewable technologies. ... Mitigation of global warming involves taking actions aimed at reducing the extent of global warming. ... Waste-to-energy (WtE) or energy-from-waste (EfW) in its strictest sense refers to any waste treatment that creates energy in the form of electricity or heat from a waste source that would have been disposed of in landfill, also called energy recovery. ...

References

The United States Department of Energy (DOE) is a Cabinet-level department of the United States government responsible for energy policy and nuclear safety. ... December 21 is the 355th day of the year (356th in leap years) in the Gregorian calendar. ... For the Manfred Mann album, see 2006 (album). ... Year 2007 (MMVII) is now the current year, a common year starting on Monday of the Gregorian calendar and the AD/CE era. ... March 11 is the 70th day of the year in the Gregorian calendar (71st in leap years). ... January 30 is the 30th day of the year in the Gregorian calendar. ... For the Manfred Mann album, see 2006 (album). ... An airborne wind turbine is a design concept for a wind turbine that is supported in the air without a tower. ... January 30 is the 30th day of the year in the Gregorian calendar. ... For the Manfred Mann album, see 2006 (album). ... For the Manfred Mann album, see 2006 (album). ... is the 89th day of the year (90th in leap years) in the Gregorian calendar. ... PDF is an abbreviation with several meanings: Portable Document Format Post-doctoral fellowship Probability density function There also is an electronic design automation company named PDF Solutions. ... Year 2007 (MMVII) is now the current year, a common year starting on Monday of the Gregorian calendar and the AD/CE era. ... March 11 is the 70th day of the year in the Gregorian calendar (71st in leap years). ... For the Manfred Mann album, see 2006 (album). ... is the 313th day of the year (314th in leap years) in the Gregorian calendar. ... March 18 is the 77th day of the year in the Gregorian calendar (78th in leap years). ... For the Manfred Mann album, see 2006 (album). ... March 18 is the 77th day of the year in the Gregorian calendar (78th in leap years). ... For the Manfred Mann album, see 2006 (album). ...

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