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  • A man's hand reaches the handle of a plug after the fast charging of a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (an acronym for Leading, Environmentally friendly, Affordable, Family car is a five-door hatchback electric car manufactured by Nissan and introduced in Japan and the United States in December 2010. The US Environmental Protection Agency official range is 117 kilometres (73 mi), with an energy consumption of 765 kilojoules per kilometre (34 kW·h/100 mi) and rated the Leaf's combined fuel economy at 99 miles per gallon gasoline equivalent (2.4 L/100 km). The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle.
    electric_nissan08-21-03-2012_1.jpg
  • The SGTE fast charger technology for electric vehicles at a charging point offering an electric vehicle (EV) 30 minute charge. CHAdeMO (sometimes spelled CHΛdeMO) is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese,[translating to English as "How about some tea?", referring to the time it would take to charge a car. CHΛdeMO can charge a car in less than half an hour.
    electric_nissan13-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan04-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan02-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan07-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan01-21-03-2012_1.jpg
  • The SGTE fast charger technology for electric vehicles at a charging point offering an electric vehicle (EV) 30 minute charge. CHAdeMO (sometimes spelled CHΛdeMO) is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese,[translating to English as "How about some tea?", referring to the time it would take to charge a car. CHΛdeMO can charge a car in less than half an hour.
    electric_nissan12-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan06-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan03-21-03-2012_1.jpg
  • Electricity supply in the Dolomites, South Tyrol, northern Italy. 60% of the province's energy needs, excl transport, comes from renewable sources like water, biomass, biogas, solar, wind and geothermal. In 2013 South Tyrol produced 6,569 gigawatt-hours of electricity and 92% of electrical energy was generated via hydropower homemade energy producing more than twice its own requirements. The South Tyrolean budget is 5bn Euros with only 10% leaving the region for government in Rome. The Überetsch (Oltradige in Italian) is a hilly section of the Etschtal in South Tyrol, northern Italy.
    appiano_italy02-11-07-2015_1.jpg
  • A twisted blue electric recharging cable is plugged in to a white car on a central London street, on 16th April 2018, in London, England.
    recharging_car-05-16-04-2018.jpg
  • A parked Smart car recharges electric power at an EDF charging point in central London. Its yellow coiled cable stretching from charging point to car. Source London is now the capital’s largest charging network. It has significantly boosted existing numbers of charge points operated by a range of different localised schemes. By 2013, Source London will total at least 1,300 charge points, more than the number of petrol stations currently in London, ensuring the infrastructure is in place for significantly more people and businesses to buy an electric vehicle. The creation of an electric vehicle network is in line with the Mayor’s pledge to promote quality of life by reducing pollution and CO2 emissions.
    electric_car03-28-03-2014.jpg
  • Peering through the steamy window of a Chinese restaurant in London's Chinatown district, we see the shapes and forms of kitchen staff and customers in this lively scene. In the window are rows of Peking Duck with their skins cooked a crispy dark brown. Meanwhile, surrounded by cooking utensils and implements, the tools of their trade, two chefs busy themselves in the kitchen area, one's face shows him to be ethnic Chinese who is rubbing his hands in a cloth before continuing his chores. Two European girls are waiting expectantly for their dishes to arrive. Obscured by the steam and heat, a waiter in green bustles about this small eaterie.
    electricity122-17-01-2008 _1.jpg
  • A blue Tesla Model S car recharges its batteries from a street recharging point provided by pay-to-use Polar Network from an Elektrobay charge point in St. Jamess Square, on 29th April 2019, in London, England.
    electric_car-02-29-04-2019.jpg
  • A cyclist passes a parked Smart car recharges electric power at an EDF charging point in central London. Its yellow coiled cable stretching from charging point to car. Source London is now the capital’s largest charging network. It has significantly boosted existing numbers of charge points operated by a range of different localised schemes. By 2013, Source London will total at least 1,300 charge points, more than the number of petrol stations currently in London, ensuring the infrastructure is in place for significantly more people and businesses to buy an electric vehicle. The creation of an electric vehicle network is in line with the Mayor’s pledge to promote quality of life by reducing pollution and CO2 emissions.
    electric_car04-28-03-2014.jpg
  • An adult business window displays the naughty underwear worn by five mannequin models of a Soho sex shop on Old Compton Street in London's West End. Tilted slightly to the left, we see the 5 models posing in various positions of suggestive stances, all demonstrating the shop's array of erotic clothing for the Good Time Girl! On the far right is the artwork of a topless woman, wearing only knee-length stockings. See from behind, the line-drawing of the female suggests a dancer on a Parisian stage act such as the Folies Bergere or Paradis Latin - variety performances for the male admirer. She looks over her left shoulder as if to wink in our direction, all part of the illusion of coquettish desire and greedy eroticism. Old Compton Street is known for cafes, bars and especially the gay, trans-gender scene and for sellers of erotic toy 'accessories'!
    electricity129-17-01-2008 _1.jpg
  • A parked Smart car recharges electric power at an EDF charging point in central London. Its yellow coiled cable stretching from charging point to car. Source London is now the capital’s largest charging network. It has significantly boosted existing numbers of charge points operated by a range of different localised schemes. By 2013, Source London will total at least 1,300 charge points, more than the number of petrol stations currently in London, ensuring the infrastructure is in place for significantly more people and businesses to buy an electric vehicle. The creation of an electric vehicle network is in line with the Mayor’s pledge to promote quality of life by reducing pollution and CO2 emissions.
    electric_car02-28-03-2014.jpg
  • Electricity cables stretch into early morning mist above Swanscombe, Kent, London England. In the foreground we see a stack of discs called Insulators which stop the electricity carried in the conductor (the wires strung between each pylon) from jumping to the pylon and then down to earth. The cables disappear into the winter fog creating a Sci-Fi scene of 21st technology. Diagonally, the cables travel across the picture but they are part of a line of 542 pylons that have already crossed 110 miles of English countryside, carrying 40,000 Volts along this network of aluminium cables from Dungeness coal-fired power station to West Ham sub station in London's East End - to power the West End's high supply demands.
    electricity409-11-02-2008 _1.jpg
  • A twisted blue electric recharging cable is plugged in to a white car on a central London street, on 16th April 2018, in London, England.
    recharging_car-04-16-04-2018.jpg
  • Electricity cables stretch into early morning mist above Swanscombe, Kent, London England. In the foreground we see a stack of discs called Insulators which stop the electricity carried in the conductor (the wires strung between each pylon) from jumping to the pylon and then down to earth. The cables disappear into the winter fog creating a Sci-Fi scene of 21st technology. Diagonally, the cables travel across the picture but they are part of a line of 542 pylons that have already crossed 110 miles of English countryside, carrying 40,000 Volts along this network of aluminium cables from Dungeness coal-fired power station to West Ham sub station in London's East End - to power the West End's high energy supply demands.
    electricity407-11-02-2008 _1.jpg
  • The outline of electricity cables stretch across a gloomy winter sky in woodland near Wrington, North Somerset England. Diagonally, the cables travel across the picture but they are part of a line of L6 pylons that have already crossed many miles of South-West England's countryside, carrying 40,000 Volts along this network of aluminium cables to power some of Bristol's high supply demands. In the foreground we see the bare boughs and branches of trees creating a Sci-Fi scene of ugly 21st technology versus the beauty of nature. Insatiable appetites for raw power and energy means electricity is now an expensive comodity after climbing oil prices doubled electricity utility bills for some domestic users.
    electricity050-27-12-2007 _1.jpg
  • As evening light fades, bright light from the electricity-hungry Canary Wharf docklands development is supplied by the voltage from electricity cables and supporting struts at West Ham sub-station, Canning Town, London England. A network of 110 miles of cables have stretched across 542 'L6' pylons across England's Kent countryside, from the coal-fired power station at Dungeness to this location, carrying 40,000 Volts along this network of aluminium cables to power some of London's high supply demands. Insatiable appetites for energy means electricity is now an expensive comodity after climbing oil prices doubled electricity utility bills for some domestic users.
    electricity283-22-01-2008 _1.jpg
  • Power cables plug into the place of a petrol cap while recharging G-Wiz cars in central London. A power cable plugs into the place of a petrol cap while recharging a G-Wiz AEV (Automatic Electric Vehicle) car. The car is parked at the kerbside in Dover Street and is hooked up to a recharging point. The AEV has a range of up to 48 miles per charge with a certified top speed of 50 mph. A charging station, also called an electric recharging point and EVSE (Electric Vehicle Supply Equipment) supplies electricity for the recharging of electric vehicles (including plug-in hybrids). Although most electric cars can be recharged from a domestic wall socket, many support faster charging at higher voltages and currents that require dedicated equipment with a specialized connector.
    electric_car13-20-10-2011_1.jpg
  • A power cable plugs into the place of a petrol cap while recharging G-Wiz car in central London. A power cable plugs into the place of a petrol cap while recharging a G-Wiz AEV (Automatic Electric Vehicle) car. The car is parked at the kerbside in Dover Street and is hooked up to a recharging point. The AEV has a range of up to 48 miles per charge with a certified top speed of 50 mph. A charging station, also called an electric recharging point and EVSE (Electric Vehicle Supply Equipment) supplies electricity for the recharging of electric vehicles (including plug-in hybrids). Although most electric cars can be recharged from a domestic wall socket, many support faster charging at higher voltages and currents that require dedicated equipment with a specialized connector.
    electric_car02-20-01-2011_1.jpg
  • A power cable plugs into the place of a petrol cap while recharging an electronic Daimler-Chrysler-made Smart car. The car is parked at the kefrbside of Southampton Street near London's Covent Garden and is hooked up to a recharging point. A charging station, also called electric recharging point, charging point and EVSE (Electric Vehicle Supply Equipment) supplies electricity for the recharging of electric vehicles (including plug-in hybrids). Although most electric cars can be recharged from a domestic wall socket, many support faster charging at higher voltages and currents that require dedicated equipment with a specialized connector.
    electricity_car02-10-11-2010_1.jpg
  • A power cable plugs into the place of a petrol cap while recharging G-Wiz car in central London. A power cable plugs into the place of a petrol cap while recharging a G-Wiz AEV (Automatic Electric Vehicle) car. The car is parked at the kerbside in Dover Street and is hooked up to a recharging point. The AEV has a range of up to 48 miles per charge with a certified top speed of 50 mph. A charging station, also called an electric recharging point and EVSE (Electric Vehicle Supply Equipment) supplies electricity for the recharging of electric vehicles (including plug-in hybrids). Although most electric cars can be recharged from a domestic wall socket, many support faster charging at higher voltages and currents that require dedicated equipment with a specialized connector.
    electric_car01-20-01-2011_1.jpg
  • Seen from slightly behind, a young woman stands taking shelter from early evening rain in Goodge Street, London England. Holding a lit cigarette in her left hand and with an unused ashtray to her right, she is chatting with friends who are also enjoying a relaxing hour after work. Under the UK Government's recent laws on smoking in public places, the work mates are forced outside the pub to smoke on the street in a special area away from the anti-smoking people indoors. Lit by glowing red lights that also provide warmth on this chilly January night, the friends are comfortable in their own company.
    electricity113-17-01-2008 _1.jpg
  • A power cable plugs into the place of a petrol cap while recharging G-Wiz car in central London. A power cable plugs into the place of a petrol cap while recharging a G-Wiz AEV (Automatic Electric Vehicle) car. The car is parked at the kerbside in Dover Street and is hooked up to a recharging point. The AEV has a range of up to 48 miles per charge with a certified top speed of 50 mph. A charging station, also called an electric recharging point and EVSE (Electric Vehicle Supply Equipment) supplies electricity for the recharging of electric vehicles (including plug-in hybrids). Although most electric cars can be recharged from a domestic wall socket, many support faster charging at higher voltages and currents that require dedicated equipment with a specialized connector.
    electric_car6-20-10-2011_1.jpg
  • From the State Route 58 that makes its way through the Mojave Desert, we see just a few of the hundreds of wind turbines of the Tehachapi Pass Wind Farm. Spinning blades are seen close up, their pylon legs and towers secured into the ground by concrete and others on the distant hill sides, a multitude of white turbine blades. Development in the Tehachapi Pass began in the early 1980's and now is one of California's largest Wind resource areas, that generates electricity for other parts of the state. The area has multiple generations of wind turbine technology installed, including both single and double blade turbines, as well as the more modern three blade horizontal axis design. The older generation turbines generate kilowatts, and the modern turbines installed generate up to 3 megawatts, depending on the specific turbine and manufacturer.
    tehachapi_windmills02-20-08-2001_1_1.jpg
  • Sheep grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • An access road to wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • An access road to wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
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