Global Warming Images
 
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20111220_0326.jpg Patterns in the snow caused by meltwater on snow, Crinkle Crags, Lake District, UK.
 
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20111220_0327.jpg Patterns in the snow caused by meltwater on snow, Crinkle Crags, Lake District, UK.
 
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20111220_0328.jpg Patterns in the snow caused by meltwater on snow, Crinkle Crags, Lake District, UK.
 
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20111220_0329.jpg Melting snow, Crinkle Crags, Lake District, UK.
 
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20111220_0330.jpg Melting snow, Crinkle Crags, Lake District, UK.
 
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20111220_0331.jpg Melting snow, Crinkle Crags, Lake District, UK.
 
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20111220_0332.jpg Melting snow, Crinkle Crags, Lake District, UK.
 
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IMG_4378_hole.jpg Riverside One is a new concept in greenbuild. It adheres to the ten principles of One Planet living, Built by BioRegional Quintain in Middlesbrough, Teeside, UK. It is an exceptinal green building, whose individual housing units will have a low carbon footprint. The whole block is heated by a biofuel boiler. During construction it used recycled oil rig pipes for piling, the concrete was mixed with recycled agregate, super insulated with earth wool, it uses grey recycled water to save water, locally sourced timber, the electricity for the building is sourced from renewable sources and the buidling incorporates Swift bird boxs and bat boxs. Residents are encouraged to car share and use local organic vegetable box schemes.
 
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IMG_3704_sea stack.jpg Yesnaby Castle, a sea stack at Yesnaby on Orkney Mainland west coast, Scotland, UK.
 
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IMG_1999_danger.jpg A mountaineer crosses a chock stone bridge that links the sea cliffs to a sea stack at Yesnaby on the west coast of Orkney's mainland, Scotland, UK.
 
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IMG_2877_jacobs ladder.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2884_haze.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2888_cloud.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2898_sunlight.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2899_shaft.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2902_jacobs ladder.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_2903_jacobs ladder.jpg Shafts of sunlight at dusk over the Coniston fells from Ambleside, Lake District, UK.
 
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IMG_1633_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1636_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_6047 (1)_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6053_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6058_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6069_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6071_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6074_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6081_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6085 (1)_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6086 (1)_p.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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IMG_6108_p.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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IMG_6112_p.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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IMG_6127_p.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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IMG_6134_p.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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