Global Warming Images
 
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20120127_IMG_4994.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 hopper where the feedstock is loaded and mixed with the slurry.
 
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20120127_IMG_4997.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 hopper where the feedstock is loaded and mixed with the slurry.
 
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20120127_IMG_4999.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 hopper where the feedstock is loaded and mixed with the slurry.
 
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20120127_IMG_5000.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 hopper where the feedstock is loaded and mixed with the slurry.
 
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20120127_IMG_5003.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 hopper where the feedstock is loaded and mixed with the slurry.
 
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20120127_IMG_8345.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 control panels in the generator room.
 
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20120127_IMG_8346.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 control panels in the generator room.
 
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20120127_IMG_8348.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 control panels in the generator room.
 
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20120127_IMG_8350.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 control panels in the generator room.
 
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20120127_IMG_8351.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 control panels in the generator room.
 
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20120127_IMG_8355.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 control panels in the generator room.
 
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20120127_IMG_8406.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 hot water from the generator going to warm the digestors.
 
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20120127_IMG_8413.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 computer control software.
 
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20120127_IMG_8414.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 computer control software.
 
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20120127_IMG_8472.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 part of the control centre.
 
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IMG_1775_facade.jpg Solar panels on a building on the campus of Northumbria University in Newcastle, UK.
 
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IMG_6393_clean.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6393_tracker.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6530_clean.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6530_green.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6536_elec.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6536_energy.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_7424_Newcastle.jpg Solar panels on a building on the campus of Northumbira University, Newcastle upon Tyne, UK.
 
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IMG_8971_preston.jpg A tracking solar photovoltaic panel on the campus of UCLAN, the University of Centrsl Lancashire, Preston, UK.
 
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IMG_8975_readout.jpg A tracking solar photovoltaic panel on the campus of UCLAN, the University of Centrsl Lancashire, Preston, UK.
 
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IMG_4138_tidal power.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows the bank of electrical switch gear converters in the sub station at Billia Croo.
 
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IMG_4139_wave energy.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows the bank of electrical switch gear converters in the sub station at Billia Croo.
 
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IMG_4144_wave power.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows the bank of electrical switch gear converters in the sub station at Billia Croo.
 
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IMG_4145_orkney.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows the bank of electrical switch gear converters in the sub station at Billia Croo.
 
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IMG_4151_EMEC.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows an electrician monitering the switch gear equipment in the substation.
 
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IMG_4152_emec.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows an electrician monitering the switch gear equipment in the substation.
 
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IMG_4159_billia croo sub station.jpg The EMEC centre's test site of Billia Croo in Stromness, Orkney, Scotland, UK. The European Marine Energy Centre is the only accredited wave and tidal energy test centre for marine renewable energy in the world. This shot shows an electrician monitoring the switch gear equipment in the substation.
 
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