Global Warming Images
 
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20130504_B18A9626.jpg Climate change heaven and hell, a train infront of an oil terminal in Amsterdam, Netherlands, with wind turbines generating renewable energy.
 
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20130507_B18A0797.jpg Climate change heaven and hell, an oil terminal in Amsterdam, Netherlands, with wind turbines generating renewable energy.
 
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20130504_B18A9433.jpg Climate change heaven and hell of a wind turbine with emissions from a coal fired power station in Amsterdam, Netherlands.
 
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20130504_B18A9458.jpg Climate change heaven and hell of a wind turbine with emissions from a coal fired power station in Amsterdam, Netherlands.
 
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20130504_B18A9476.jpg Emissions from a coal fired power station in Amsterdam, Netherlands, with a train engine.
 
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20130504_B18A9622.jpg Climate change heaven and hell, a train infront of an oil terminal in Amsterdam, Netherlands, with wind turbines generating renewable energy.
 
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20130507_B18A0796.jpg Climate change heaven and hell, an oil terminal in Amsterdam, Netherlands, with wind turbines generating renewable energy.
 
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20130504_B18A9445.jpg Climate change heaven and hell of a wind turbine with emissions from a coal fired power station in Amsterdam, Netherlands.
 
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20130504_B18A9472.jpg Climate change heaven and hell of a wind turbine with emissions from a coal fired power station in Amsterdam, Netherlands.
 
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20130223_P2230192.jpg The original steam engine pump in the old sewage pumping station museum in Leicester, UK.
 
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20130223_P2230193.jpg The original steam engine pump in the old sewage pumping station museum in Leicester, UK.
 
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20130223_P2230198.jpg The original steam engine pump in the old sewage pumping station museum in Leicester, UK.
 
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20090709_IMG_1594.jpg The biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK. United Utilities Daveyhulme plant process's all of Manchester sewage and deals with 714 million litres a day. The sewage sludge from the plant is put in huge biodigesters which produce biogas from the human waste. This biogas is 70% methane a potent greenhouse gas that is more than 20 times efficient as a greenhouse gas than C02. The biogas is burnt on site in a heat and pwer plant, preventing its release into the atmosphere. The plant generates around 7 megawatt of electricity per day from the renewable biogas.
 
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20090709_IMG_1597.jpg The biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK. United Utilities Daveyhulme plant process's all of Manchester sewage and deals with 714 million litres a day. The sewage sludge from the plant is put in huge biodigesters which produce biogas from the human waste. This biogas is 70% methane a potent greenhouse gas that is more than 20 times efficient as a greenhouse gas than C02. The biogas is burnt on site in a heat and pwer plant, preventing its release into the atmosphere. The plant generates around 7 megawatt of electricity per day from the renewable biogas.
 
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20090709_IMG_1599.jpg The biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK. United Utilities Daveyhulme plant process's all of Manchester sewage and deals with 714 million litres a day. The sewage sludge from the plant is put in huge biodigesters which produce biogas from the human waste. This biogas is 70% methane a potent greenhouse gas that is more than 20 times efficient as a greenhouse gas than C02. The biogas is burnt on site in a heat and pwer plant, preventing its release into the atmosphere. The plant generates around 7 megawatt of electricity per day from the renewable biogas.
 
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20090709_IMG_1605.jpg The biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK. United Utilities Daveyhulme plant process's all of Manchester sewage and deals with 714 million litres a day. The sewage sludge from the plant is put in huge biodigesters which produce biogas from the human waste. This biogas is 70% methane a potent greenhouse gas that is more than 20 times efficient as a greenhouse gas than C02. The biogas is burnt on site in a heat and pwer plant, preventing its release into the atmosphere. The plant generates around 7 megawatt of electricity per day from the renewable biogas.
 
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20120807IMG_5058.jpg Massive dump trucks by the Syncrude upgrader plant. The tar sands are the largest industrial project on the planet, and the world's most environmentally destructive. The synthetic oil produced from them is 3 times more carbon intensive than conventional oil supplies, a disaster for the climate. They are responsible for the second fastest rate of deforestation on the planet. Second only to the amazon Rainforest. They produce millions of litres of highly polluted water every day which leaches out into the Athabasca river and has serious health impacts on First Nation peoples living downstream.
 
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20120807IMG_5072.jpg Massive dump trucks by the Syncrude upgrader plant. The tar sands are the largest industrial project on the planet, and the world's most environmentally destructive. The synthetic oil produced from them is 3 times more carbon intensive than conventional oil supplies, a disaster for the climate. They are responsible for the second fastest rate of deforestation on the planet. Second only to the amazon Rainforest. They produce millions of litres of highly polluted water every day which leaches out into the Athabasca river and has serious health impacts on First Nation peoples living downstream.
 
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20120807IMG_5077.jpg Massive dump trucks by the Syncrude upgrader plant. The tar sands are the largest industrial project on the planet, and the world's most environmentally destructive. The synthetic oil produced from them is 3 times more carbon intensive than conventional oil supplies, a disaster for the climate. They are responsible for the second fastest rate of deforestation on the planet. Second only to the amazon Rainforest. They produce millions of litres of highly polluted water every day which leaches out into the Athabasca river and has serious health impacts on First Nation peoples living downstream.
 
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20120730IMG_9107.jpg Planes at Gatwick Airport, London, UK.
 
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20120730IMG_9110.jpg Planes at Gatwick Airport, London, UK.
 
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20120730IMG_9113.jpg Planes at Gatwick Airport, London, UK.
 
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20120819IMG_7829.jpg A train engine unit in Jasper in the Rocky mountains, Canada.
 
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20120819IMG_7832.jpg A train engine unit in Jasper in the Rocky mountains, Canada.
 
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20120819IMG_7833.jpg A train engine unit in Jasper in the Rocky mountains, Canada.
 
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20120517_IMG_8978.jpg A Royal Mail van advertising its green credentials, the engine automatically cuts out at traffic lights, junctions etc. London, UK.
 
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20120517_IMG_8977.jpg A Royal Mail van advertising its green credentials, the engine automatically cuts out at traffic lights, junctions etc. London, UK.
 
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20120517_IMG_8975.jpg A Royal Mail van advertising its green credentials, the engine automatically cuts out at traffic lights, junctions etc. London, UK.
 
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20120511_IMG_7511 - Copy.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, an Eigg crofter and Eigg electric employee checking the backup diesel generators.
 
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20120511_IMG_7511.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, an Eigg crofter and Eigg electric employee checking the backup diesel generators.
 
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20120511_IMG_7515 - Copy.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, an Eigg crofter and Eigg electric employee checking the backup diesel generators.
 
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20120511_IMG_7515.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, an Eigg crofter and Eigg electric employee checking the backup diesel generators.
 
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20120511_IMG_7517 - Copy.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the backup diesel generators that kick in if needed.
 
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20120511_IMG_7517.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the backup diesel generators that kick in if needed.
 
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20120511_IMG_7522 - Copy.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the backup diesel generators that kick in if needed.
 
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20120511_IMG_7522.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the backup diesel generators that kick in if needed.
 
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20120127_IMG_8360.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_8363.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_8366.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_8372.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_8373.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_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_8382.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_8386.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_8389.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_8391.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_8396.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_8397.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_8401.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_8402.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_8403.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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IMG_1864_air pollution.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_1866_polution.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_2933_pollution.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_2941_filthy.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_2944_black.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_2947_marine diesel.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_2951_exhaust.jpg Exhaust emissions, the result of burning marine diesel in a ships engine. Marine diesel is one of the most polluting fuels in the world.
 
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IMG_1043_steam engine.jpg The steam engine, Peace ,at Queens Mill in Burnley. The steam engine was built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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IMG_1044_fly wheel.jpg The steam engine, Peace ,at Queens Mill in Burnley. The steam engine was built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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IMG_1046_Victorian.jpg The steam engine, Peace ,at Queens Mill in Burnley. The steam engine was built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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IMG_1054_piston.jpg The steam engine, Peace ,at Queens Mill in Burnley. The steam engine was built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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IMG_1060_steam engine.jpg The steam engine, Peace ,at Queens Mill in Burnley. The steam engine was built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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IMG_1068_weaver.jpg The Weaving shed, at Queens Mill in Burnley. The mill is powered by a steam engine, built over 100 years ago and is still powering the mill today. The mill is believed to be the only steam powered weaving mill working in the world. The weaving shed at Queens mill was used as a location for filming the Kings speech.
 
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