Global Warming Images
 
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20130206_B18A8910.jpg The intake of two archimedes screws that provide renewable energy from water on the River Leven near Backbarrow, Cumbria, UK.
 
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20121226_B18A5581.jpg A micro hydro project in Landruk in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5750.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5752.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5762.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5765.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20130103_B18A7553.jpg An old traditional corn mill being powered by hydro in the Annapurna Himalayas, Nepal.
 
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20130103_B18A7556.jpg An old traditional corn mill being powered by hydro in the Annapurna Himalayas, Nepal.
 
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20121225_B18A5490.jpg Power lines in Landruk in the annapurna Himalayas, Nepal where the electricity is generated by a micro hydro project.
 
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20121225_B18A5491.jpg Power lines in Landruk in the annapurna Himalayas, Nepal where the electricity is generated by a micro hydro project.
 
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20121225_B18A5495.jpg Power lines in Landruk in the annapurna Himalayas, Nepal where the electricity is generated by a micro hydro project.
 
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20121225_B18A5555.jpg Lights of a small village being powered by a micro hydro plant below Annapurna South, Himalayas, Nepal.
 
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20121227_B18A5756.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5757.jpg Power lines in Landruk in the Annapurna Himalayas, Nepal where the electricity is generated by a micro hydro project.
 
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20121227_B18A5759.jpg Power lines in Landruk in the Annapurna Himalayas, Nepal where the electricity is generated by a micro hydro project.
 
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20121227_B18A5767.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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20121227_B18A5769.jpg A micro hydro project in Chomrong in the Annapurna Himalayas, Nepal.
 
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renewable.jpg A renewable energy composite.
 
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renewable_sign.jpg Renewable energy composite.
 
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20000101_IMG_0766.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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20000101_IMG_0765 (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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20000101_IMG_0761.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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20000101_IMG_0770.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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20000101_IMG_0777 (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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20000101_IMG_0781 (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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20000101_IMG_0783 (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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20000101_IMG_0786 (2).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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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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20000101_IMG_0821.jpg The owner of a small scale hydro electric station at Kilnstones in Longsleddale, Lake District, UK, checks the output from the system. 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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20040628_366W5877.jpg A hydro electric power station below the Matterhorn, near Zermatt, Switzerland
 
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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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20070618_366W1637.jpg A Hydro Electric Power station in Flims Switzerland
 
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20070907_366W4567.jpg A pelton wheel used to generate electricity at Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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20070907_366W4569 (1).jpg A pelton wheel used to generate electricity at Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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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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20100212_IMG_3301.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3304.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3307.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3309.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3312.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3320.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3347.jpg Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3355.jpg Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_3374.jpg Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_5903.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100212_IMG_5905.jpg Turbines in Murray 1 power station. Murray 1 is the 2nd largest power station in the Snowy mountains hydro scheme. It has 10, 95 megawatt turbine generators. Each turbine can generate enough electricity to power 95,000 homes. The whole snwy hydro scheme generates an average of 4500 gigwatt hours per year and produces 11% of Australias electricity. Sadly nearly all the rest of Australias power generation is from coal fired power stations. The scheme also provides 2360 gigalitres of irrigation water.
 
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20100215_IMG_4002.jpg Pipeline taking water to Gathega power station as part of the Snowy mountains hydro scheme, New South Wales, Australia.
 
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20100218_IMG_4540.jpg The Snowy Hydro scheme visitor centre in Cooma, Australia.
 
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20100218_IMG_6586.jpg Snowy Hydro buildings in Cooma, Australia.
 
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20100718_IMG_3799.jpg N Powers Hydro electric power station at Dolgarrog in North Wales.
 
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20100718_IMG_3840.jpg Dinorwig power station visitor centre, called electric mountain, in Llanberis, Snowdonia, North wales. Dinorwig is an Hydro power station that uses off peak cheap electricity to pump water up the mountain, which is then released during periods of peak demand to supply electricity via hydro turbines into the national grid.
 
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20100718_IMG_3859.jpg Dinorwig power station in Llanberis, Snowdonia, North wales. Dinorwig is an Hydro power station that uses off peak cheap electricity to pump water up the mountain, which is then released during periods of peak demand to supply electricity via hydro turbines into the national grid.
 
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20100905_IMG_6108.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6112.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6134.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6214.jpg Capturing geothermal steam from boreholes to power the Reykjanes geothermal power station near Reykjavik in Iceland. The power station produces 100 MW of electricity. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6221.jpg Capturing geothermal steam from boreholes to power the Reykjanes geothermal power station near Reykjavik in Iceland. The power station produces 100 MW of electricity. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6268.jpg Capturing geothermal steam from boreholes to power the Reykjanes geothermal power station near Reykjavik in Iceland. The power station produces 100 MW of electricity. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6276.jpg Capturing geothermal steam from boreholes to power the Reykjanes geothermal power station near Reykjavik in Iceland. The power station produces 100 MW of electricity. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100905_IMG_6280.jpg Capturing geothermal steam from boreholes to power the Reykjanes geothermal power station near Reykjavik in Iceland. The power station produces 100 MW of electricity. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
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20100906_IMG_6387.jpg Hellisheidi geothermal power station in Hengill, Iceland is the worlds second largest geothermal power station. It will soon have a capacity of 300 MW of electricity generation. It also supplies hot water via a pipeline to Reykjavik for space heating for households and industry. Iceland generates 100% of its electricity from renewables, aprox 70% from Hydro and 30% from geothermal.
 
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