Global Warming Images
 
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20000105_IMG_4711.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20000105_IMG_4713.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0373.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0374.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0375.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0376.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0378.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120107_0379.jpg North West Water building a larger, new sewerage system in Keswick, after the 2009 floods, to try to protect the town from overflowing sewage during periods of high rainfall.
 
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20120112_IMG_7580.jpg Wind turbines on the West coast of Cumbria UK, with a sewage plant in the foreground.
 
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20120112_IMG_7582.jpg Wind turbines on the West coast of Cumbria UK, with a sewage plant in the foreground.
 
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20120112_IMG_7584.jpg Wind turbines on the West coast of Cumbria UK, with a sewage plant in the foreground.
 
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20120112_IMG_7585.jpg Wind turbines on the West coast of Cumbria UK, with a sewage plant in the foreground.
 
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20120112_IMG_7586.jpg The Kodak factory in Workington Cumbria, with a wind turbine helping to power the plant, with a sewage plant in the foreground.
 
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20120112_IMG_7597.jpg The Kodak factory in Workington Cumbria, with a wind turbine helping to power the plant, with a sewage plant in the foreground.
 
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20120112_IMG_7600.jpg The Kodak factory in Workington Cumbria, with a wind turbine helping to power the plant, with a sewage plant in the foreground.
 
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IMG_0677_methane.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_0681_chp.jpg A combined heat and power plant at Daveyhulme waste water treatment plant. 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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IMG_0689_anaerobic.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_1528_sewage plant.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_1532_digestor.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_1538_anaerobic.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_1541_anaerobic digestor.jpg Biodigesters at United Utilities Daveyhulme plant which 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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IMG_1546_digestor.jpg Waste water tanks 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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IMG_1553_settling pond.jpg Waste water tanks 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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IMG_1558_manchester.jpg The odour suppresant plant 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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IMG_1576_waste water.jpg The odour suppresant plant 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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IMG_1587_sewage works.jpg The odour suppresant plant 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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IMG_1594_sewage works.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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IMG_1596_sewage.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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IMG_1599_methane.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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IMG_1600_electricity.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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IMG_1605_engine.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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