Global Warming Images
 
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20120127_IMG_8419.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8423.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8424.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8427.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8432.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8437.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8439.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8444.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 hot water from the generator that is being fed into the digestors to keep the bacteria at a constant temperature.
 
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20120127_IMG_8448.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 pipe that carries the hot water that keep the bacteria at a constant temperature.
 
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IMG_5888_thermostat.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels.
 
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IMG_5892_heat control.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels.
 
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IMG_5894_thermostat.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels.
 
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IMG_1697_Ambleside.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK.
 
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IMG_1719_valley.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK.
 
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IMG_1725_misty.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK.
 
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IMG_1733_Todd Crag.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK.
 
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IMG_1734_misty.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK, with a flock of migrating Whooper Swans flying over.
 
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IMG_1755_mist.jpg A temperature inversion with valley mist over Ambleside in the Lake District, Cumbria, UK, with a flock of migrating Whooper Swans flying over.
 
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IMG_3043_foggy.jpg Morning mist over Lake Windermere, Lake District, UK.
 
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IMG_3070_fog.jpg Morning mist over Lake Windermere, Lake District, UK.
 
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IMG_3073_misty.jpg Morning mist over Lake Windermere, Lake District, UK.
 
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IMG_3118_mist.jpg Morning mist over Lake Windermere, Lake District, UK, with fishermen in a rowing boat.
 
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IMG_5951_p.jpg Two Spanish ladies relaxing at the Blue Lagoon near at Keflavik in Iceland.
 
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IMG_5955_p.jpg Four friends relax at the Blue Lagoon near at Keflavik in Iceland.
 
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IMG_5958_p.jpg Four friends relax at the Blue Lagoon near at Keflavik in Iceland.
 
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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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