Global Warming Images
 
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20120127_IMG_8376.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 generator.
 
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20120127_IMG_8491.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8494.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8497.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8503.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8507.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8509.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8510.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 a plant technician carrying a gas detector to warn of gas leaks.
 
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20120127_IMG_8673.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 th land. This shot shows the hopper being loaded with maize.
 
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20120127_IMG_8676.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 th land. This shot shows the hopper being loaded with maize.
 
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20120127_IMG_8678.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 th land. This shot shows the hopper being loaded with maize.
 
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20120127_IMG_8680.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 th land. This shot shows the hopper being loaded with maize.
 
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20120127_IMG_8686.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 th land. This shot shows the hopper being loaded with maize.
 
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IMG_6717 (1)_p.jpg An electrician working a control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6721 (1)_p.jpg An electrician working a control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6755_p.jpg An electrician checks one of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6768_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6771 (1)_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6773 (1)_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6774_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7903_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7904_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7909_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_0821_computer.jpg The owner of a small scale hydro electric station at Kilnstones in Longsleddale, Lake District, UK, checks the output from the system. The system incorporates a refurbished 76 year old pelton turbine. It can generate 25 Kw of electricity and with the feed in tariff for renewable energy generation should make the owner around £25,000 per year. It has a head of 100 metres. There is huge potential for small scalehydro projects in the Lake District, and other upland areas of the UK.
 
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IMG_9469_p.jpg Technicians fitting solar photo voltaic panels to a house roof in Ambleside, Cumbria, UK.
 
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IMG_9475_p.jpg Technicians fitting solar photo voltaic panels to a house roof in Ambleside, Cumbria, UK.
 
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IMG_9478_p.jpg Technicians fitting solar photo voltaic panels to a house roof in Ambleside, Cumbria, UK.
 
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IMG_9488_p.jpg Technicians fitting solar photo voltaic panels to a house roof in Ambleside, Cumbria, UK.
 
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IMG_0441_p.jpg A solar energy company fitting solar electric panels to a house roof in Ambleside, Cumbria, UK.
 
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IMG_0456_p.jpg A techinician fitting roof brackets to a house roof in Ambleside, Cumbria, UK, to support solar photo voltaic panels.
 
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IMG_0459_p.jpg A techinician fitting roof brackets to a house roof in Ambleside, Cumbria, UK, to support solar photo voltaic panels.
 
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IMG_0462_p.jpg A techinician fitting roof brackets to a house roof in Ambleside, Cumbria, UK, to support solar photo voltaic panels.
 
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