Global Warming Images
 
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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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IMG_1607_power.jpg The control panels for the biogas biolers 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_6812_treatment plant.jpg A sewage works in Grindleton, Lancashire, UK.
 
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IMG_6815_sewage works.jpg A sewage works in Grindleton, Lancashire, UK.
 
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IMG_6835_United Utilities.jpg A United Utilities sewage plant at Barrow in Furness, Cumbria, UK.
 
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IMG_6840_sewage works.jpg A United Utilities sewage plant at Barrow in Furness, Cumbria, UK.
 
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IMG_4176_water restrictions.jpg Thirlmere reservoir in the Lake District UK, with a hosepipe ban in affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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IMG_7314_water quality.jpg United Utilities improving the sewerage system in Elterwater, Langdale, Lake District, UK.
 
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IMG_7316_sewerage.jpg United Utilities improving the sewerage system in Elterwater, Langdale, Lake District, UK.
 
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IMG_7317_sewer.jpg United Utilities improving the sewerage system in Elterwater, Langdale, Lake District, UK.
 
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IMG_4242_drought cracks.jpg Human footprints through mud cracks at Thirlmere reservoir in the Lake District UK, with a hosepipe ban in affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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IMG_4257_drought.jpg Human footprints through mud cracks at Thirlmere reservoir in the Lake District UK, with a hosepipe ban in affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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IMG_3078_Thirlmere.jpg Thirlmere reservoir in the Lake District UK, the day before the hosepipe ban comes into affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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IMG_3092_water out take.jpg Thirlmere reservoir in the Lake District UK, the day before the hosepipe ban comes into affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought. This water intake tower was almost submerged during the November 2009 floods.
 
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IMG_3094_dam.jpg Thirlmere reservoir in the Lake District UK, the day before the hosepipe ban comes into affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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IMG_3132_water shortage.jpg Thirlmere reservoir in the Lake District UK, with a hosepipe ban in affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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