Global Warming Images
 
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20120409_IMG_7573.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7576.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7584.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7592.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_4542.jpg A 12th century grain store above a Berber village in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7581.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7585.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7591.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120409_IMG_7595.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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LICENSED_20120409_IMG_7581.jpg A 12th century grain store or Agadir at the Berber village of Tizgui in a valley in the Anti Atlas mountains of Morocco, North Africa. The grain sotres were used to protect food supplies from warring tribes
 
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20120330_IMG_7307.jpg Timber supplies next to the Stevens Croft biofuel power station in Lockerbie, Scotland, UK.
 
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20120330_IMG_7309.jpg Timber supplies next to the Stevens Croft biofuel power station in Lockerbie, Scotland, UK.
 
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20120330_IMG_7138.jpg Cars queueing for petrol during the March 2012 panic buying spree, caused by a potential petrol tanker drivers strike. Keswick, UK.
 
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20120330_IMG_7142.jpg Cars queueing for petrol during the March 2012 panic buying spree, caused by a potential petrol tanker drivers strike. Keswick, UK.
 
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20120127_IMG_5027.jpg The Farmgen anaerobic bio digestor at Dryholme Farm near Silloth Cumbria, UK. The plant which cost £4.5 million, produces 1.2 Mw of electricity, enough to power 2000 households. It uses around 25,000 tons of feedstock annualy, mainly maize and grass, which is mixed with farm slurry and fed into the massive digestors where bacteria break it down. The resulting methane is what powers the electricity generator. The waste product can be spread on the land as a fertilizer, and there are also plans to dry it and sell as biomass boiler fuel. This shot shows the maize feedstuff that powers the plant.
 
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20120127_IMG_5033.jpg The Farmgen anaerobic bio digestor at Dryholme Farm near Silloth Cumbria, UK. The plant which cost £4.5 million, produces 1.2 Mw of electricity, enough to power 2000 households. It uses around 25,000 tons of feedstock annualy, mainly maize and grass, which is mixed with farm slurry and fed into the massive digestors where bacteria break it down. The resulting methane is what powers the electricity generator. The waste product can be spread on the land as a fertilizer, and there are also plans to dry it and sell as biomass boiler fuel. This shot shows the maize feedstuff that powers the plant.
 
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20120127_IMG_5057.jpg The Farmgen anaerobic bio digestor at Dryholme Farm near Silloth Cumbria, UK. The plant which cost £4.5 million, produces 1.2 Mw of electricity, enough to power 2000 households. It uses around 25,000 tons of feedstock annualy, mainly maize and grass, which is mixed with farm slurry and fed into the massive digestors where bacteria break it down. The resulting methane is what powers the electricity generator. The waste product can be spread on the land as a fertilizer, and there are also plans to dry it and sell as biomass boiler fuel. This shot shows the maize feedstuff that powers the plant.
 
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20120127_IMG_5080.jpg The Farmgen anaerobic bio digestor at Dryholme Farm near Silloth Cumbria, UK. The plant which cost £4.5 million, produces 1.2 Mw of electricity, enough to power 2000 households. It uses around 25,000 tons of feedstock annualy, mainly maize and grass, which is mixed with farm slurry and fed into the massive digestors where bacteria break it down. The resulting methane is what powers the electricity generator. The waste product can be spread on the land as a fertilizer, and there are also plans to dry it and sell as biomass boiler fuel. This shot shows the maize feedstuff that powers the plant.
 
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IMG_4219_site safety.jpg A safety message at an oil storage depot at Seal Sands on Teeside, North East, UK,
 
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IMG_4223_oil terminal.jpg An oil storage depot at Seal Sands on Teeside, North East, UK,
 
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IMG_1803_peat supplies.jpg Climate change heaven and hell near Thurso in northern Scotland. A wind farm generating renewable energy and peat extraction, which destroys the carbon sink and releases the carbon.
 
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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_6387_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_6391_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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