Global Warming Images
 
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IMG_2756_derelict.jpg A flare stack at the Flotta oil terminal on the Island of Flotta in the Orkney's Scotland, UK. 10% of the UK's oil production comes through the Flotta terminal from the North Sea oil fields.
 
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IMG_4484_.jpg A Wello Penguin on the dockside at Lyness on Hoy in the Orkney Isles, Scotland, UK. The Orkneys are developing a reputation as the marine energy centre of the world, with enormous potential for renewable energy generation. The Penguin converts the kinetic energy of wave movement into electricity. It can produce =up to 1 Mw of electricity , is 30m long and weights 1600 tonnes.
 
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IMG_4487_chain.jpg A Wello Penguin on the dockside at Lyness on Hoy in the Orkney Isles, Scotland, UK. The Orkneys are developing a reputation as the marine energy centre of the world, with enormous potential for renewable energy generation. The Penguin converts the kinetic energy of wave movement into electricity. It can produce =up to 1 Mw of electricity , is 30m long and weights 1600 tonnes.
 
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IMG_1791_p.jpg The Angel of the north a sculpture by Antony Gormley in Gateshead, Tyneside, UK.
 
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IMG_9008_piping.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9010_drill pipes.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9014_rust.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9016_blue.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9008_fossil fuel.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9016_drill pipe.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9019_pipe.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9010_drill pipe.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_9014_drilling.jpg A test drilling site for shale gas at Preese Hall Farm near Blackpool, Lancashire, UK. The gas is contained within layers of shale rock and is released by a controversial process known as Fracking, where liquids are pumped into the rock under high pressure to shatter the rock and release the gas. Recently the process was halted when it was thought it was responsible for two small earthquakes in the area. In the USA the process is highly controvercial, as it leads to contamination of groundwater and polluted drinking water. Its exploitation is also obviously very bad from a climate change perspective.
 
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IMG_8325_rusting.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8336_harness.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8342_railing.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8345_steel.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8347_tube.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8349_monopile.jpg The jack up barge, The Goliath moored next to a monopile at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. The Goliath will then fit a transition pice over the monopile, upon which the wind turbine is constructed. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8387_hole.jpg A worker stands on top of a 320 tonne transition piece on the deck of the jack up barge, The Goliath at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8396_sitting.jpg A worker on top of a 320 tonne transition piece on the deck of the jack up barge, The Goliath at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8398_red.jpg A worker on top of a 320 tonne transition piece on the deck of the jack up barge, The Goliath at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8403_circle.jpg A worker on top of a 320 tonne transition piece on the deck of the jack up barge, The Goliath at the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8509_helmet.jpg A monopile, the foundation for a wind turbine, on the Walney offshore wind farm. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8521_rusty.jpg A monopile, the foundation for a wind turbine, on the Walney offshore wind farm. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8529_colleague.jpg A monopile, the foundation for a wind turbine, on the Walney offshore wind farm. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8530_work mate.jpg A monopile, the foundation for a wind turbine, on the Walney offshore wind farm. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8531_rusting.jpg A monopile, the foundation for a wind turbine, on the Walney offshore wind farm. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8570_rusty.jpg The jack up barge, The Goliath lifting a 320 tonne transition piece into place on the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_8580_monopile.jpg The jack up barge, The Goliath lifting a 320 tonne transition piece into place on the Walney Offshore windfarm project, off Barrow in Furness, Cumbria, UK. When finished it will have 102, 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy.
 
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IMG_3006_legs.jpg The Walney Offshore Windfarm project is located 15km off Barrow in Furness in Cumbria. The project consists of Walney 1 and Walney 2 each with 51 turbines. When finished it will have 102 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. This shot shows the massive monopiles that are hammered 30 metres into the seabed to anchor the wind turbine.
 
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IMG_3010_piling.jpg The Walney Offshore Windfarm project is located 15km off Barrow in Furness in Cumbria. The project consists of Walney 1 and Walney 2 each with 51 turbines. When finished it will have 102 3.6 MW turbines, giving a total capacity of the Walney project of 367.2 MW, enough to power 320,000 homes. The rotor diameter of the turbines is 107m for Walney 1 and 120 m for Walney 2. The wind farm is owned and constructed by Dong Energy. This shot shows the massive monopiles that are hammered 30 metres into the seabed to anchor the wind turbine.
 
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