Global Warming Images
 
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IMG_4417_balance.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_2675_remote control.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_2682_workman.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4415_lean.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4417_yellow.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4510_pelamis wave power.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4514_tidal energy.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4517_tidal power.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4518_moored.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4521_balacing.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4522_remote control.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4524_docks.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4530_balance.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4533_wave energy.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4536_wave power.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4554_Hoy.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4555_lyness.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_4571_woman.jpg A Pelamis P2 wave energy generator on the dockside at Lyness on Hoy, Orkney Isles, Scotland, UK. The Orkney's have huge potential for wave and tidal energy generation and are world leaders in testing such devices. The pelamis P2 is 180 m long, weights 1300 tonnes and is rated at 750 Kw. It was the world's first commercial scale marine device to generate electricity to the grid, from offshore. The power is created from flexible joints that are linked to cylinders that pump liquid into high pressure accumulators to generate electricity. This shot shows a workman preparing to tow the devie to its test site.
 
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IMG_1224_wales.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows the jack up barge, the Krakken, with a remotely operated low loader being moved into place with a nacelle being lifted onto the barge.
 
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IMG_1365_remote control.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1366_remote unit.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1386_moving.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1389_move.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1390_yellow.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1393_jacket.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1395_control panel.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1398_remote operator.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1402_remote control.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1406_remote.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a workman using a remote control unit for manouvering a specialist low loader, which is used to move heavy turbine pieces around.
 
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IMG_1411_trailer load.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a nacelle being moved
 
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IMG_1422_high vis.jpg Dong Energy are building the Walney offshore wind farm, off the Cumbrian coast, UK. When finished the farm will consist of 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 turbines are shipped into the UK and stored at Mostyn port in North Wales. From here they are picked up by a jack up barge, that sails out to the construction site to build the turbines. This shot shows a nacelle being moved
 
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IMG_9808_lifting.jpg An engineer uses a remote crane lift control to lift parts into place in the nacelle on a wind turbine at the Walney offshore wind farm. The holes in the base are where the electric cables will be fitted through. the farm consists of 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. Cumbria, UK.
 
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