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Carbon dioxide capture and geological storage
Philosophical Transactions Series A, Mathematical, Physical, and Engineering Sciences, 2007Carbon dioxide capture and geological storage is a technology that could be used to reduce carbon dioxide emissions to the atmosphere from large industrial installations such as fossil fuel-fired power stations by 80–90%. It involves the capture of carbon dioxide at a large industrial plant, its transport to a geological storage site and its long-term ...
Sam Holloway
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62nd EAGE Conference and Exhibition - Special Session on CO2, 2000
To meet the targets for greenhouse gas emission reduction set by the Kyoto Protocol, many countries are considering a range of near-term options for abatement of emissions. These include fuel switching, energy efficiency improvement and use of renewable sources of energy.
J. Gale, P. Freund
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To meet the targets for greenhouse gas emission reduction set by the Kyoto Protocol, many countries are considering a range of near-term options for abatement of emissions. These include fuel switching, energy efficiency improvement and use of renewable sources of energy.
J. Gale, P. Freund
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Nature Geoscience, 2009
Storage of the carbon dioxide that is produced by burning fossil fuels is one way to avoid the damaging consequences of climate change. A range of observations suggests that geological carbon storage is much less risky than unabated carbon emissions to the atmosphere.
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Storage of the carbon dioxide that is produced by burning fossil fuels is one way to avoid the damaging consequences of climate change. A range of observations suggests that geological carbon storage is much less risky than unabated carbon emissions to the atmosphere.
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Carbon Capture and Geologic Storage
AIP Conference Proceedings, 2008This paper will briefly discuss carbon capture and storage options, mechanisms and costs. Risks from geologic storage risks will be addressed and the need for monitoring. Some current field studies will be described.
Larry R. Myer +4 more
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In this chapter, the current status of CO2 storage is discussed, firstly by introducing each of the main geological storage types, saline aquifers, depleted oil and gas fields, and mineralization in basalts, and secondly by introducing the key areas of project development: characterizing a site and the risk management and monitoring of a site. Firstly,
Rycroft, L. +9 more
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Rycroft, L. +9 more
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Onshore Geologic Storage of CO 2
Science, 2009The possibility that substantial quantities of CO 2 can be injected into subsurface porous rock formations has been investigated sufficiently to show that pore space available to contain the CO 2 is abundant. Multiple rock types and physical mechanisms can be used to trap the CO 2
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Geological storage of carbon dioxide
Geological Society, London, Special Publications, 2004Abstract Carbon dioxide is the main compound identified as affecting the stability of the Earth’s climate. A significant reduction in the volume of greenhouse gas emissions to the atmosphere is a key mechanism for mitigating against climate change.
Shelagh J. Baines, Richard H. Worden
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Geological Storage of Carbon Dioxide
Environmental and Engineering Geoscience, 2009In the 8 years since these papers were first presented at the 2001 meeting of the European Union of Geoscientists, a multitude of articles on deep CO2 storage in aquifers or petroleum reservoirs has appeared in journals such as Environmental Science & Technology , Energy Conversion & Management , and the publications of the Society of Petroleum ...
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