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4 CONCLUSION
The presented study explores practical reviews on Korean
marine sediments for CO
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sequestration in relation to geological
and geotechnical considerations. The geological conditions of
off-shore sedimentary basins in Korea were investigated, and
the suitability of the basins for CO
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storage were evaluated. The
Ulleung basin were found to be the most suitable site for GCS,
although their scores were lower than the scores of some basins
where CO
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storage is currently undergoing or pilot-tested in
Canada and Australia. Geophysical behavior of CO
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-storing
sediments is available for field application to monitor CO
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movements and leakages. A laboratory scale experiment
simulating the in-situ condition for measuring geophysical
properties, and the results showed that CO
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can be detected by
measuring geophysical properties but further study is required
to exact understanding geophysical behavior of CO
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5 ACKNOWLEDGEMENTS
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This research was supported by a grant from the Korea Electric
Power Corporation (KEPCO) and by the Block Funding Project
(GP2012-030) of Korea Institute of Geoscience and Mineral
Resources (KIGAM) transferred from the Energy Efficiency &
Resources Program of the Korea Institute of Energy Technology
Evaluation and Planning (KETEP) grant, funded by the
Ministry of Knowledge Economy, Republic of Korea.
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