Global Warming Images
 
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IMG_6449_recycling.jpg Recycling bins in Newcastle, North East, UK.
 
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IMG_0933_composter.jpg Cote How, one of only 3 Soil Association, registered organic guest houses in the UK. Cote Howe is in Rydal, Lake District, Cumbria, UK. This shot shows the composting bins.
 
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IMG_0934_compost bin.jpg Cote How, one of only 3 Soil Association, registered organic guest houses in the UK. Cote Howe is in Rydal, Lake District, Cumbria, UK. This shot shows the composting bins.
 
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IMG_0937_compost.jpg Cote How, one of only 3 Soil Association, registered organic guest houses in the UK. Cote Howe is in Rydal, Lake District, Cumbria, UK.
 
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IMG_0938_kitchen.jpg Cote How, one of only 3 Soil Association, registered organic guest houses in the UK. Cote Howe is in Rydal, Lake District, Cumbria, UK.
 
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IMG_0939_recycling.jpg Cote How, one of only 3 Soil Association, registered organic guest houses in the UK. Cote Howe is in Rydal, Lake District, Cumbria, UK.
 
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IMG_7168_p.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7171_p.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7175_p.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7179_p.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7661_p.jpg A Sita power from waste plant at Billingham, Teeside, UK. The plant burns household rubbish with a capacity of 390, 000 tonnes of waste per year and generates enough electricity to power 60, 000 homes
 
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IMG_5037_recycling.jpg The Bowland Wild Boar Park is a tourist attraction that lies in a remote area of Bowland near Chipping in Lancashire, UK. The site is off grid, having no mains electricity. The whole site is powered by solar PV panels, with solar water heaters and a wind turbine, with a diesel generator providing backup power.
 
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IMG_2854_rubbish tip.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_2857_rubbish dump.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_4486_garbage.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_4500_rubbish.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_4501_packaging.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_4508_plastic.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_4517_landfill.jpg Rubbish on a landfill site in Alicante, Costa Blanca, Murcia, Spain. The site captures bio methane from rotting organic waste. This prevents the gas which is a powerful greenhouse gas from escaping to the atmsphere, which can then be used to power turbines to generate electricity.
 
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IMG_3532_bin bag.jpg Plastic rubbish in a landfill site on Teeside, UK. It is increasingly difficult to find sites and increasingly expensive to landfill rubbish.
 
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IMG_9031_wheely bin.jpg Recycling bins outside an Ambleside hotel, Cumbria, UK.
 
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IMG_9035_recycling.jpg Recycling bins outside an Ambleside hotel, Cumbria, UK.
 
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IMG_9036_recycling bin.jpg Recycling bins outside an Ambleside hotel, Cumbria, UK.
 
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IMG_9039_recycle.jpg Recycling bins outside an Ambleside hotel, Cumbria, UK.
 
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366W6830_spill kit.jpg An oil leak in a car park
 
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IMG_9607_oil spillage.jpg A Guillemot (Uria aalge) covered in oil on a black sand volcanic beach at Vik, on Iceland's south coast.
 
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IMG_7168_spill kit.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7171_drilling.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7175_drilling rig.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7179_spill kit.jpg A spill kit at a geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_7613_power plant.jpg A Sita power from waste plant at Billingham, Teeside, UK. The plant burns household rubbish with a capacity of 390, 000 tonnes of waste per year and generates enough electricity to power 60, 000 homes
 
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IMG_7661_incinerator.jpg A Sita power from waste plant at Billingham, Teeside, UK. The plant burns household rubbish with a capacity of 390, 000 tonnes of waste per year and generates enough electricity to power 60, 000 homes
 
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