Global Warming Images
 
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20090824_IMG_3699.jpg An electric car at Black Law windfarm near Carluke in Scotland, UK. When it was constructed it was the largest wind farm in the UK with 54 turbines with a capacity of 97 Megawatts, enough to power 70,000 homes. The wind farm was built on the site of an old open cast coal mine.
 
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20101019_IMG_1683.jpg An electric car infront of Whitlee wind farm on Eaglesham Moor just south of Glasgow in Scotlasnd, UK, is Europes largest onshore wind farm with 140 turbines and an installed capacity of 322 MW, enough energy to power 180,000 homes.
 
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20101020_IMG_1845.jpg An electric car at dawn over Whitlee wind farm on Eaglesham Moor just south of Glasgow in Scotland, UK, is Europes largest onshore wind farm with 140 turbines and an installed capacity of 322 MW, enough energy to power 180,000 homes.
 
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20101019_IMG_1625.jpg Whitlee wind farm on Eaglesham Moor just south of Glasgow in Scotlasnd, UK, is Europes largest onshore wind farm with 140 turbines and an installed capacity of 322 MW, enough energy to power 180,000 homes.
 
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IMG_9070_male.jpg The Walney offshore wind farm consists of 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. Cumbria, UK.
 
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IMG_9222_man.jpg A blade on a turbine at the Walney offshore wind farm consists of 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. Cumbria, UK.
 
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IMG_9531_sunglasses.jpg Airplane contrails over the Walney offshore wind farm consists of 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. Cumbria, UK.
 
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IMG_9930_shades.jpg A turbine at the Walney offshore wind farm which consists of 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. Cumbria, UK.
 
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IMG_9981_PPE.jpg The Ormonde Offshore Wind Farm is currently being built in the Irish Sea, 10km off Barrow-In-Furness. On completion the wind farm will comprise 30 RePower 5M wind turbines with the capacity of 150 megawatts and expected to produce around 500 gigawatt hours of electricity every year. These turbines are some of the most powerful wind turbines in the world,
 
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IMG_3406_roof panel.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3415_roof.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5146_green build.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5147_maths building.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5156_Alan Turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5163_alan Turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5166_solar roof.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5173_Manchester university.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5180_Alan turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3403_solar panels.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3407_Manchester University.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3411_green university.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3412_green campus.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_3418_Alan Turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5152_alan Turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5153_Alan turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_5178_Alan Turing.jpg The Alan Turing building, named after the mathemetician, is a green build construction on the campus of Manchester University. Its rooftop solar panels are designed to generate around 41 Megawatt hours of clean electricity per year.
 
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IMG_1129_p.jpg Construction workers working on the foreshore of the Solway Firth near Workington, installing the power cable that will carry the electricity from the new Robin Rigg offshore wind farm in the Solway Firth. Robin Rigg is one of the largest wind farms in the UK. It is operated by E.on and consists of 60, 3 MW turbines that will when fully operational produce 180 MW, enough to power nearly 120,000 homes and offset 235,000 tonnes of carbon dioxide.
 
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IMG_1131_p.jpg Construction workers working on the foreshore of the Solway Firth near Workington, installing the power cable that will carry the electricity from the new Robin Rigg offshore wind farm in the Solway Firth. Robin Rigg is one of the largest wind farms in the UK. It is operated by E.on and consists of 60, 3 MW turbines that will when fully operational produce 180 MW, enough to power nearly 120,000 homes and offset 235,000 tonnes of carbon dioxide.
 
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IMG_1134_p.jpg Construction workers working on the foreshore of the Solway Firth near Workington, installing the power cable that will carry the electricity from the new Robin Rigg offshore wind farm in the Solway Firth. Robin Rigg is one of the largest wind farms in the UK. It is operated by E.on and consists of 60, 3 MW turbines that will when fully operational produce 180 MW, enough to power nearly 120,000 homes and offset 235,000 tonnes of carbon dioxide.
 
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IMG_1137_p.jpg Construction workers working on the foreshore of the Solway Firth near Workington, installing the power cable that will carry the electricity from the new Robin Rigg offshore wind farm in the Solway Firth. Robin Rigg is one of the largest wind farms in the UK. It is operated by E.on and consists of 60, 3 MW turbines that will when fully operational produce 180 MW, enough to power nearly 120,000 homes and offset 235,000 tonnes of carbon dioxide.
 
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IMG_1140_p.jpg Construction workers working on the foreshore of the Solway Firth near Workington, installing the power cable that will carry the electricity from the new Robin Rigg offshore wind farm in the Solway Firth. Robin Rigg is one of the largest wind farms in the UK. It is operated by E.on and consists of 60, 3 MW turbines that will when fully operational produce 180 MW, enough to power nearly 120,000 homes and offset 235,000 tonnes of carbon dioxide.
 
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