Global Warming Images
 
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20130402_P4020513.jpg A sign about Phytophthora infection on the Stiperstones in Shropshire, UK.
 
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20121224_PC240035.jpg Pokhara airport, Nepal
 
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20000101_IMG_0800 (1).jpg A small scale hydro electric station at Kilnstones in Longsleddale, Lake District, UK. 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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20090709_IMG_0781.jpg The control panels for 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_0786.jpg The control panels for 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_1607.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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20100912_IMG_6717 (1).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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20100912_IMG_6733.jpg 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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20100912_IMG_6737 (1).jpg 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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20100912_IMG_6743 (1).jpg 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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20100912_IMG_6744.jpg 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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20100912_IMG_6749.jpg 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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20100912_IMG_6754.jpg 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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20100912_IMG_6755.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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20100912_IMG_6771 (1).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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20100912_IMG_6774.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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20100912_IMG_7900.jpg 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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20100912_IMG_7903.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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20100912_IMG_7904.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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20100912_IMG_7912.jpg Krafla geothermal power station. 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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20100913_IMG_6932 (1).jpg Karahnjukar dam and Halslon reservoir, a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, damheight 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows the gate valves that control water going to the power plant.
 
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20100913_IMG_6938.jpg Karahnjukar dam and Halslon reservoir, a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, damheight 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows the gate valves that control water going to the power plant.
 
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20100914_IMG_7180.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water going into the turbines.
 
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20100914_IMG_8486.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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20100914_IMG_8503.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows a worker nxt to valves that control the water flow into the turbines.
 
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20100914_IMG_8543.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows some of the control panels that help run the project.
 
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20120823IMG_1865.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1870.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1876.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1895.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1898.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1899.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1901.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_1904.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9589.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9591.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9592.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9593.jpg A map showing areas closed due to a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9596.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9597.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9599.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9604.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9607.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9609.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9613.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9616.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9617.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9622.jpg Boreal Forest burnt by the mount shanks wild fire in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9627.jpg Boreal Forest burnt and a forest fire raging on Octopus Mountain in Kootenay National Park, Canada. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120823IMG_9876.jpg Smoke from a forest fire raging on Octopus Mountain in Kootenay National Park, Canada hangs in the air over Canmore in Banff National park. The Alberta tar sands in Canada are the largest industrial project on the planet, and the world's most environmentally destructive. Climate change exascerbated by tar sands mining is leading to both a greater frequency and ferocity of forest fires.
 
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20120511_IMG_7476.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 owl meter in a house on Eigg that trips the power if they use more than 5Kw at a time.
 
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20120509_IMG_7207.jpg Japanese Knott Weed, an alien invader trying to be controlled on the coast at Broadford, Isle of Skye, Scotland, UK.
 
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20100106_IMG_0429.jpg A car is abandoned on the Kirkstone Pass road above Windermere after it is blocked by spindrift and wind blown snow, Lake District, UK.
 
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20120306_IMG_2350.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park.
 
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20120306_IMG_2357.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park. This shot showsd the electronic break that controls the turbine.
 
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20120306_IMG_2360.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park.
 
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20120306_IMG_2474.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park. This shot shows the inverters for the turbines
 
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20120307_IMG_6687.jpg Growing with Grace is an organic fruit and vegetable growing co-operative based in Clapham in the Yorkshire Dales, UK. They grow organic veg which is sold via a box scheme to local people. The delivery van is powered by bio diesel which is made on site from waste vegetable oil from local restaurants. They take green waste from the local council and turn it into organic compost, which is used on their own crops and sold to local gardeners.
 
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20120307_IMG_6688.jpg Growing with Grace is an organic fruit and vegetable growing co-operative based in Clapham in the Yorkshire Dales, UK. They grow organic veg which is sold via a box scheme to local people. The delivery van is powered by bio diesel which is made on site from waste vegetable oil from local restaurants. They take green waste from the local council and turn it into organic compost, which is used on their own crops and sold to local gardeners.
 
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20120306_IMG_2351.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park.
 
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20120306_IMG_2356.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park. This shot showsd the electronic break that controls the turbine.
 
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20120306_IMG_2359.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park.
 
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20120306_IMG_2361.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park.
 
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20120306_IMG_2472.jpg 3 wind turbines being constructed behind the kirkstone Pass Inn on kirkstone Pass in the Lake District, UK. Because of its remote location, the pub is not connected to the grid and currently spends £25,000 a year on a diesel generator. The wind turbines will vastly reduce the need for the generator and are the first wind turbines to get planning permission in the National Park. This shot shows the inverters for the turbines
 
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