Global Warming Images
 
186 Media found on 6 pages     
     
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20000105_IMG_4714.jpg A river level measurement station on the River greta in Keswick, Cumbria, UK.
 
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20120107_0364.jpg New flood defences being built in Keswick after the disastrous 2009 floods, Lake district, UK.
 
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20120107_0365.jpg New flood defences being built in Keswick after the disastrous 2009 floods, Lake district, UK.
 
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IMG_5823_architect.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5933_test.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5935_testing.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5936_thermal.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5938_thermal imaging.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5942_thermal imaging camera.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_5945_architect.jpg Gentoo house builder's Hutton Rise housing development in Sunderland, UK. Hutton Roof sets new standards in green build. Many of the houses are zero carbon, highly thermally efficient and incur minimal running costs. These passivehaus;s have 300mm wall cavities with super insulation standards. One biofuel boiler will heat 8 houses which are so thermally efficient that the only source of heat in thw whole house , is a towel rail in the bathroom. The annual running cost for heat, light and water will be only £70 per house. The houses are 20 times more air tight than the current British standard. All of the houses have solar thermal water heating and many have solar electric panels. This shot shws the architect testing the thermal efficiency of the building with a thermal imaging camera.
 
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IMG_6714_p.jpg Control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6717 (1)_p.jpg An electrician working a control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6721 (1)_p.jpg An electrician working a control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6726_p.jpg Control panel in Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6733_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6737 (1)_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6743 (1)_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6744_p.jpg The turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6749_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6752_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6754_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6755_p.jpg An electrician checks one of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6768_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6771 (1)_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6773 (1)_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_6774_p.jpg The control room hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7900_p.jpg One of the steam turbines in the turbine hall of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant.. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7903_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7904_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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IMG_7909_p.jpg The control room of Krafla geothermal power station, that measures some of the 5000 measurements that control the power plant. Krafla has an installed capacity of 60 MW. 100% of Iceland's electricity is produced from renewables, 70% from hydro and 30% from geothermal.
 
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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_9745 (1)_p.jpg PHD scientist Ian Bartholomews theodolite tripod being used to measure the speed of the Russelll Glacier near Kangerlussuag Greenland. The study is looking at how increasing quantities of melt water caused by climate change are affecting the glaciers speed which like most glaciers in Greenland has speeded up considerably in the last 20 years. It is thought that the meltwater helps lubricates the glaciers base enabling it to flow faster. As part of the study reflective poles were drilled 4 metres into the ice to measure their speed at various positions on the glacier. Within a month all the poles had fallen over as the glacier melted down over 4 metres
 
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