Global Warming Images
 
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IMG_5862_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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IMG_5864_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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IMG_5870_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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IMG_5873_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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IMG_5876_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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IMG_6076_p.jpg The Perlan building in Reykjavik, Icleand. The structure was designed around 5 huge water tanks that hold geothermally heated water. This hot water is used to provide household heating as well as heating, schools, municipal buildings, and even used for keeping the capitals pavements ice and snow free in winter via a network or under pavement pipes. The geothermal water helps icelanders to have a much reduced carbon footprint, as their heating is carbon free.
 
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366W4139 (1)_cliff.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4140_mountain.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4144 (1)_dammed.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4557 (1)_dam wall.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4560_lake.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4562_pelton wheel.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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366W4567_pelton wheel.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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366W4569 (1)_cup.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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366W4573 (1)_dammed.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4575 (1)_curve.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4584_Emerson.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4585 (1)_carriage.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4588 (1)_dam wall.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4594 (1)_surveyor.jpg Engineers check the dam for faults at Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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IMG_8280_bolt.jpg Bolts holding a Transition piece in place, on the deck of the jack up barge, 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_8292_screw thread.jpg Bolts holding a Transition piece in place, on the deck of the jack up barge, 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_2514_cranes.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_2526_caterpiller.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_2528_barrow.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_2533_workforce.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_3971_docks.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_3980_arch.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_3988_visible.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_3994_sky.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_3998_yellow.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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IMG_4007_tall.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 yellow transition pieces, that fit onto the monopile, that holds the structure to the sea bed. The tower and turbine is then fixed onto the transition piece.
 
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