Global Warming Images
 
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IMG_2657_sign.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
 
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IMG_2689_Orkney.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
 
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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_4022_solar building.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4028_solar shading.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4032_Devonshire.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4035_Devonshire building.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4012_Newcastle.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4020_Devonshire.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4025_blue.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4027_Devonshire building.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4029_shading.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4033_solar shades.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_4034_solar shading.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6401_Devonshire.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6411_cycle.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004, with scratch bikes, a public bike hire scheme in the foreground
 
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IMG_6420_scratch bike.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004, with scratch bikes, a public bike hire scheme in the foreground
 
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IMG_6431_sun visor.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6432_green award.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6434_breeam.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6438_BREEAM.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6439_Devonshire building.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_6446_Devonshire.jpg The Devonshire Building at Newcastle University is a green building incorporating solar panels, water recycling, and heat pumps, it has won several environmental awards and uses 30% less energy than the best practice targets at the time of construction in 2004.
 
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IMG_3485_pump price.jpg Manchester College of Arts and Technology's library at Harpurhey is a green building incorporating passive ventilation. It has 482, 80 W polycrystalline panels on the south facade and a further 178, 165 W panels on the roof. Manchester, UK.
 
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IMG_2600_health and safety.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
 
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IMG_2608_sea.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
 
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IMG_2610_pelamis.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
 
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IMG_2612_orange.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_2615_wave worker.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_2618_tool bag.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_2629_boat.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
 
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IMG_2636_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
 
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