Global Warming Images
 
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20060916_366W0866.jpg A hydro electric power station at Grudie in the North West highlands of scotland
 
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20060916_366W0869.jpg Achanalt hydro electric power station, North West highlands of scotland
 
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20090321_IMG_5017.jpg In 2008 China became the worlds largest emitter of greenouse gases, fuelled by high levels of economic growth and electricity mainly being generated by dirty, highly polluting coal fired power stations. The Chinese are also investing heavily in renewable energy projects. Here a dam across the Yellow River at Sanmanxie produces Hydro electricity.
 
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20090321_IMG_5018.jpg In 2008 China became the worlds largest emitter of greenouse gases, fuelled by high levels of economic growth and electricity mainly being generated by dirty, highly polluting coal fired power stations. The Chinese are also investing heavily in renewable energy projects. Here a dam across the Yellow River at Sanmanxie produces Hydro electricity.
 
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20090321_IMG_5029.jpg In 2008 China became the worlds largest emitter of greenouse gases, fuelled by high levels of economic growth and electricity mainly being generated by dirty, highly polluting coal fired power stations. The Chinese are also investing heavily in renewable energy projects. Here a dam across the Yellow River at Sanmanxie produces Hydro electricity.
 
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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_7146 (1).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 the turbine hall.
 
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20100914_IMG_7148.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 the turbine hall.
 
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20100914_IMG_7153.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 the turbine hall.
 
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20100914_IMG_7157.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 the turbine hall.
 
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20100914_IMG_7165.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 the turbine hall.
 
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20100914_IMG_7173.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 cleaner, claning the main turbine hall.
 
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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_8521.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 one of the turbine axles.
 
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20100914_IMG_8522.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.
 
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20100914_IMG_8540.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.
 
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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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20100914_IMG_8564.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.
 
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20100914_IMG_8576.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 where the output from the turbines, the main high voltage electric cables start their journey, from the underground plant, to the outside pylons.
 
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20100914_IMG_8577.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 where the output from the turbines, the main high voltage electric cables start their journey, from the underground plant, to the outside pylons.
 
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20100914_IMG_8583.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 where the output from the turbines, the main high voltage electric cables start their journey, from the underground plant, to the outside pylons.
 
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20100914_IMG_8586.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 where the output from the turbines, the main high voltage electric cables start their journey, from the underground plant, to the outside pylons.
 
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20100914_IMG_8591.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 the high voltage power cables exiting the underground plant towards the outside pylons.
 
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20100914_IMG_8613.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 red light art instalation in the entrance tunnel to the underground power station.
 
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20100914_IMG_8618.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 red light art instalation in the entrance tunnel to the underground power station.
 
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IMG_4293_River Tees.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_4295_turbine.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_4298_barrage.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_4303_drop.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_4306_tidal barrage.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_4311_screw thread.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6581_turbine.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6587_turbine.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6588_screw.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6589_screw.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6590_hydro.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6591_archimedes screw.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6593_archimedes.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6595_hydro.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6603_Tees Barrage.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_6614_Stockton.jpg Archimedes screws, hydro power generation at the Tees barrage on the River Tees at Middlesbrough, UK.
 
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IMG_1438_heat pump.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1439_heat pump.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1442_insulated.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1444_tank.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1449_technology.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1452_air source.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1453_heat pump.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1455_air source heat pump.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, which are shown in this image.
 
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IMG_1433_clock tower.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building.
 
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IMG_1435_air source heat pump.jpg The old Clock Tower Builing at Low Wood near Haverthawaite, Cumbria, UK, has been given a complete make over. It has been renovated to provide office accomodation on a very green scael. Next to the building, 2 huge archimedes screws provide hydro electricity for the building and the grid. Excess heat from the turbines which would be normally lost to the atmosphere is being pumped into the buildings. Also air source heat pumps are used to heat the building, qwhich are housed in the wooden shed in the foreground.
 
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366W0741_electric.jpg Loch Dubh hydro electric power station in the north West Highlands near Ullapool, Scotland
 
366W0741_electric
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366W0745_sub station.jpg Loch Dubh hydro electric power station in the north West Highlands near Ullapool, Scotland
 
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366W0752_sign.jpg Loch Dubh hydro electric power station in the north West Highlands near Ullapool, Scotland
 
366W0752_sign
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366W0865_power plant.jpg A hydro electric power station at lochluichart in the North West highlands of scotland
 
366W0865_power plant
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366W0866_pylon.jpg A hydro electric power station at Grudie in the North West highlands of scotland
 
366W0866_pylon
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366W0868_service.jpg Maintanance work on one of the generators at Achanalt hydro electric power station, North West highlands of scotland
 
366W0868_service
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366W0869_sign.jpg Achanalt hydro electric power station, North West highlands of scotland
 
366W0869_sign
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366W0881_tummel.jpg The hydro electric power station and dam at Pitlochry, Scotland
 
366W0881_tummel
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366W0892_scottish hydro.jpg an old turbine outside the hydro electric power station at Pitlochry, Scotland
 
366W0892_scottish hydro
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366W0896_engineering.jpg A plaque to Sir Edward MacColl who pioneered much of the hydro electric power generation in Scotland, Pitlochry, Scotland
 
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