Global Warming Images
 
85 Media found on 3 pages     
     
l 1 l 2 l 3 l  

 
IMG_1633_p.jpg 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.
 
IMG_1633_p
Add to Lightbox - Lightbox

 
IMG_1636_p.jpg 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.
 
IMG_1636_p
Add to Lightbox - Lightbox

 
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
 
IMG_9745 (1)_p
Add to Lightbox - Lightbox

 
IMG_9752 (1)_p.jpg PHD scientist Ian Bartholomew taking measurements as part of a study 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
 
IMG_9752 (1)_p
Add to Lightbox - Lightbox

 
IMG_9757-p.jpg PHD scientist Ian Bartholomew taking measurements as part of a study 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
 
IMG_9757-p
Add to Lightbox - Lightbox

 
IMG_a9936_o.jpg PHD scientist Ian Bartholomew taking measurements as part of a study to measure the speed of the Russell 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
 
IMG_a9936_o
Add to Lightbox - Lightbox

 
366W5083_mixer.jpg A biodiesel quality sampling machine on trade stand at the Biodiesel Expo trade fair Newark Nottinghamshire UK
 
366W5083_mixer
Add to Lightbox - Lightbox

 
366W5084_quality control.jpg A biodiesel quality sampling machine on trade stand at the Biodiesel Expo trade fair Newark Nottinghamshire UK
 
366W5084_quality control
Add to Lightbox - Lightbox

 
366W5087_bubble.jpg biodiesel on trade stand at the Biodiesel Expo trade fair Newark Nottinghamshire UK
 
366W5087_bubble
Add to Lightbox - Lightbox

 
IMG_1633_sampling.jpg 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.
 
IMG_1633_sampling
Add to Lightbox - Lightbox

 
IMG_1636_drill samples.jpg 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.
 
IMG_1636_drill samples
Add to Lightbox - Lightbox

 
IMG_4244_sampling plot.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_4244_sampling plot
Add to Lightbox - Lightbox

 
IMG_4245_remote sampling.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_4245_remote sampling
Add to Lightbox - Lightbox

 
IMG_4258_sampling.jpg A gas chromatograph being used as part of a scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_4258_sampling
Add to Lightbox - Lightbox

 
IMG_4293_sampling.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_4293_sampling
Add to Lightbox - Lightbox

 
IMG_6275_air sampling.jpg A gas chromatograph being used as part of a scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_6275_air sampling
Add to Lightbox - Lightbox

 
IMG_6277_sampling.jpg A gas chromatograph being used as part of a scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot.
 
IMG_6277_sampling
Add to Lightbox - Lightbox

 
IMG_6338_soil sampling.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6338_soil sampling
Add to Lightbox - Lightbox

 
IMG_6345_soil sample.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6345_soil sample
Add to Lightbox - Lightbox

 
IMG_6356_carbon sequestration.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6356_carbon sequestration
Add to Lightbox - Lightbox

 
IMG_6358_soil sample.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6358_soil sample
Add to Lightbox - Lightbox

 
IMG_6360_core sampling.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6360_core sampling
Add to Lightbox - Lightbox

 
IMG_6361_soil sampling.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6361_soil sampling
Add to Lightbox - Lightbox

 
IMG_6362_soil sample.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6362_soil sample
Add to Lightbox - Lightbox

 
IMG_6369_soil sample.jpg A scientific experiment by scientists from Sydney University, Australia, in the Snowy mountains. The study is monitoring C02 exchange between the atmosphere and the soil on a grassland plot. Robert Simpson takes soil samples to measure the level of methanotropic bacteria.
 
IMG_6369_soil sample
Add to Lightbox - Lightbox

 
IMG_9687_scientist.jpg PHD student Ian Bartholomew from Edinburgh University taking readings from the meltwater river at the snout of the Russell Glacier near Kangerlussuaq in 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.
 
IMG_9687_scientist
Add to Lightbox - Lightbox

 
IMG_9704_glacier.jpg PHD scientist Ian Bartholomews GPS equipment measuring 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.
 
IMG_9704_glacier
Add to Lightbox - Lightbox

 
IMG_9745_greenland.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
 
IMG_9745_greenland
Add to Lightbox - Lightbox

 
IMG_9752_scientist.jpg PHD scientist Ian Bartholomew taking measurements as part of a study 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
 
IMG_9752_scientist
Add to Lightbox - Lightbox

 
IMG_a9936_research.jpg PHD scientist Ian Bartholomew taking measurements as part of a study to measure the speed of the Russell 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
 
IMG_a9936_research
Add to Lightbox - Lightbox

 
366W5083_biodiesel.jpg A biodiesel quality sampling machine on trade stand at the Biodiesel Expo trade fair Newark Nottinghamshire UK
 
366W5083_biodiesel
Add to Lightbox - Lightbox

 
366W5084_biodiesel.jpg A biodiesel quality sampling machine on trade stand at the Biodiesel Expo trade fair Newark Nottinghamshire UK
 
366W5084_biodiesel
Add to Lightbox - Lightbox
l 1 l 2 l 3 l  

Media Per Page