Global Warming Images
 
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IMG_7486_dive.jpg The RAF, REd Arrows flying over the Lake District during the Windermere Air Show, UK.
 
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IMG_7513_offset.jpg The RAF, REd Arrows flying over the Lake District during the Windermere Air Show, UK.
 
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IMG_7513_red.jpg The RAF, REd Arrows flying over the Lake District during the Windermere Air Show, UK.
 
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IMG_7643_go back.jpg The RAF, REd Arrows flying over the Lake District during the Windermere Air Show, UK.
 
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IMG_7643_offset.jpg The RAF, REd Arrows flying over the Lake District during the Windermere Air Show, UK.
 
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IMG_1258_ladder.jpg Construction work on fitting two archimedes screws on a new hydro electric project on the River Leven, at Low Wood near Haverthwaite, Cumbria, UK. When operational they will generate over 400 Kw of green electricity. When operational they will be the largest archimedes screws in the UK. The project uses the old mill race that used to power the gunpowder factory. Heat generated by the turbines, that is usually lost to the atmosphere is going to be pumped directly into a nearby office building. At times when the hydro is not working the offices will be heated by 4 air source heat pumps.
 
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IMG_1263_ladder climb.jpg Construction work on fitting two archimedes screws on a new hydro electric project on the River Leven, at Low Wood near Haverthwaite, Cumbria, UK. When operational they will generate over 400 Kw of green electricity. When operational they will be the largest archimedes screws in the UK. The project uses the old mill race that used to power the gunpowder factory. Heat generated by the turbines, that is usually lost to the atmosphere is going to be pumped directly into a nearby office building. At times when the hydro is not working the offices will be heated by 4 air source heat pumps.
 
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IMG_8367_dam.jpg Karahnjukar dam and Halslon reservoir, a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, damheight 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows a climber above the dam
 
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IMG_8370_climber.jpg Karahnjukar dam and Halslon reservoir, a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, damheight 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows a climber above the dam
 
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IMG_1830_yellow.jpg The Krakken, a jack up barge, that is constructing the wind turbines of the Walney offshore wind farm. The 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_1836_working at height.jpg The Krakken, a jack up barge, that is constructing the wind turbines of the Walney offshore wind farm. The 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_1844_ladder.jpg The Krakken, a jack up barge, that is constructing the wind turbines of the Walney offshore wind farm. The 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_1860_ladder climb.jpg The Krakken, a jack up barge, that is constructing the wind turbines of the Walney offshore wind farm. The 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_1375_step ladder.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a nacelle being prepared to lift.
 
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IMG_1381_stepladder.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a nacelle being prepared to lift.
 
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IMG_9086_yellow.jpg An engineer climbs a transition piece of a wind turbine on 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_9088_man.jpg An engineer climbs a transition piece of a wind turbine on 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_9090_yellow.jpg An engineer climbs a transition piece of a wind turbine on 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_9091_fall arrester.jpg An engineer climbs a transition piece of a wind turbine on 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_9096_ladder.jpg An engineer climbs a transition piece of a wind turbine on 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_9100_climb.jpg An engineer climbs a transition piece of a wind turbine on 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_9118_nacelle.jpg An engineer on a transition piece of a wind turbine on 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_9122_rotor.jpg An engineer on a transition piece of a wind turbine on 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_9195_rung.jpg An engineer climbs a transition piece of a wind turbine on 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_9196_height.jpg An engineer climbs a transition piece of a wind turbine on 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_9197_drop.jpg An engineer climbs a transition piece of a wind turbine on 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_9198_working at height.jpg An engineer climbs a transition piece of a wind turbine on 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_9199_ladder climb.jpg An engineer climbs a transition piece of a wind turbine on 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_9242_platform.jpg An engineer descends a transition piece of a wind turbine on the Walney offshore wind farm, towards the deck of a crew transfer vessel. The 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_9246_ppe.jpg An engineer descends a transition piece of a wind turbine on the Walney offshore wind farm, towards the deck of a crew transfer vessel. The 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_9250_ascend.jpg An engineer descends a transition piece of a wind turbine on the Walney offshore wind farm, towards the deck of a crew transfer vessel. The 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_9252_rung.jpg An engineer descends a transition piece of a wind turbine on the Walney offshore wind farm, towards the deck of a crew transfer vessel. The 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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