Global Warming Images
 
223 Media found on 7 pages     
     
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IMG_3301_hub.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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IMG_3304_interior.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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IMG_3307_turbine hall.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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IMG_3309_electricity generation.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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IMG_3312_power plant.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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IMG_3316_orange.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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IMG_3324_turbine hall.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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IMG_3329_Murray 1 power plant.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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IMG_3332_blue.jpg A poster about cloud seeding in the Snowy mountains, a technique used to increase the rainfall for hydro generation and irrigation water.
 
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IMG_3347_Murray.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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IMG_3355_water.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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IMG_3362_Snowy.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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IMG_3365_snowy mountains.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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IMG_3368_pipeline.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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IMG_3374_hydro plant.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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IMG_5895_australian hydro.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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IMG_5897_hydro turbine.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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IMG_5900_orange.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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IMG_5903_turbine hall.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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IMG_5905_orange.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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IMG_5911_head.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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IMG_4659_lesbos.jpg A pumping house supplying irrigation water to farmland around Skala Eresou, Lesbos, Greece.
 
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IMG_4661_irrigation water.jpg A pumping house supplying irrigation water to farmland around Skala Eresou, Lesbos, Greece.
 
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IMG_4667_pumping house.jpg A pumping house supplying irrigation water to farmland around Skala Eresou, Lesbos, Greece.
 
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IMG_4670_water pipe.jpg A pumping house supplying irrigation water to farmland around Skala Eresou, Lesbos, Greece.
 
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IMG_5821_slipway.jpg A reservoir above Skala Eresou on Lesbos, Greece. This reservoir supplies drinking and irrigation water to the surrounding farmland. Like most of the Meditteranean area it is getting hotter and drier as a result of climate change. Without irrigation, it would be virtually impossible to grow crops in this area.
 
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IMG_5835_water meter.jpg Irrigation water pipes supplying water to surrounding farmland near Skala Eresou on Lesbos, Greece. Like most of the Meditteranean area it is getting hotter and drier as a result of climate change. Without irrigation, it would be virtually impossible to grow crops in this area.
 
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IMG_5849_pumping station.jpg A pumping house supplying irrigation water to Skala Eresou on Lesbos, Greece.
 
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IMG_5854_water pipe.jpg A pumping house supplying irrigation water to Skala Eresou on Lesbos, Greece.
 
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IMG_6251_irrigation water.jpg Irrigation water pipes supplying water to surrounding farmland near Skala Eresou on Lesbos, Greece. Like most of the Meditteranean area it is getting hotter and drier as a result of climate change. Without irrigation, it would be virtually impossible to grow crops in this area.
 
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IMG_6255_irrigation.jpg A farmer irrigating his crops at Skala Eresou on Lesbos, Greece. Without irrigation water it would be virtually impossible to grow food in parts of the Meditteranean, as climate change leads to hotter and drier conditions.
 
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IMG_6258_irrigation.jpg A farmer irrigating his crops at Skala Eresou on Lesbos, Greece. Without irrigation water it would be virtually impossible to grow food in parts of the Meditteranean, as climate change leads to hotter and drier conditions.
 
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