Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions
Marine sediment core samples collected from a gas hydrate deposit site (Ulleung Basin (UB), East Sea, Korea) were explored to identify the role of sediment organic matters (SOMs) on the formation of CO2 hydrate. Two distinct CO2 hydrate formation regimes (favorable (<= 40 min) and unfavorable (&g...
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American Chemical Society
2011
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| Online Access: | http://hdl.handle.net/10203/98457 |
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ftkoasas:oai:koasas.kaist.ac.kr:10203/98457 |
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ftkoasas:oai:koasas.kaist.ac.kr:10203/98457 2023-05-15T18:18:32+02:00 Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions Lamorena, RB Lamorena, Rheo Baguio Kyung, DS Kyung, Dae-Seung Lee, WJ Lee, Woo-Jin 201107 http://hdl.handle.net/10203/98457 ENG eng American Chemical Society CARBON-DIOXIDE HYDRATE; GULF-OF-MEXICO; RESOLUTION MASS-SPECTROMETRY; SOIL MINERAL SUSPENSIONS; EAST SEA; ICE NUCLEATION; METHANE; JAPAN; SEQUESTRATION; ELECTROSPRAY ARTICLE A 2011 ftkoasas 2014-11-28T00:50:13Z Marine sediment core samples collected from a gas hydrate deposit site (Ulleung Basin (UB), East Sea, Korea) were explored to identify the role of sediment organic matters (SOMs) on the formation of CO2 hydrate. Two distinct CO2 hydrate formation regimes (favorable (<= 40 min) and unfavorable (>250 min)) were observed from the hydrate formation tests. CO2 hydrate induction time in UB sediment suspensions was approximately seven times faster than that in UB sediment suspensions without SOMs (baked UB), showing a direct influence of SOMs. Spectrometric and spectroscopic analyses confirmed the existence of different types of SOMs including nonhumic and humic substances in UB sediment samples. We found SOMs with aromatic ring structures in all sediment extracts and SOMs with amine and amide groups and lignin in alkaline extracts. SOMs were extracted from UB sediment core samples (1 g each). Measured CO2 hydrate induction times were different in baked UB sediment suspensions with different extracts of UB sediments. The experimental results demonstrated that SOMs can play a significant role to accelerate the formation of CO2 hydrate in UB sediment suspensions, suggesting that the gas hydrate deposit site at UB may be a proper place for CO2 sequestration as a form of CO2 hydrate. Article in Journal/Newspaper Sea ice Korea Advanced Institute of Science and Technology: KOASAS - KAIST Open Access Self-Archiving System |
| institution |
Open Polar |
| collection |
Korea Advanced Institute of Science and Technology: KOASAS - KAIST Open Access Self-Archiving System |
| op_collection_id |
ftkoasas |
| language |
English |
| topic |
CARBON-DIOXIDE HYDRATE; GULF-OF-MEXICO; RESOLUTION MASS-SPECTROMETRY; SOIL MINERAL SUSPENSIONS; EAST SEA; ICE NUCLEATION; METHANE; JAPAN; SEQUESTRATION; ELECTROSPRAY |
| spellingShingle |
CARBON-DIOXIDE HYDRATE; GULF-OF-MEXICO; RESOLUTION MASS-SPECTROMETRY; SOIL MINERAL SUSPENSIONS; EAST SEA; ICE NUCLEATION; METHANE; JAPAN; SEQUESTRATION; ELECTROSPRAY Lamorena, RB Lamorena, Rheo Baguio Kyung, DS Kyung, Dae-Seung Lee, WJ Lee, Woo-Jin Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| topic_facet |
CARBON-DIOXIDE HYDRATE; GULF-OF-MEXICO; RESOLUTION MASS-SPECTROMETRY; SOIL MINERAL SUSPENSIONS; EAST SEA; ICE NUCLEATION; METHANE; JAPAN; SEQUESTRATION; ELECTROSPRAY |
| description |
Marine sediment core samples collected from a gas hydrate deposit site (Ulleung Basin (UB), East Sea, Korea) were explored to identify the role of sediment organic matters (SOMs) on the formation of CO2 hydrate. Two distinct CO2 hydrate formation regimes (favorable (<= 40 min) and unfavorable (>250 min)) were observed from the hydrate formation tests. CO2 hydrate induction time in UB sediment suspensions was approximately seven times faster than that in UB sediment suspensions without SOMs (baked UB), showing a direct influence of SOMs. Spectrometric and spectroscopic analyses confirmed the existence of different types of SOMs including nonhumic and humic substances in UB sediment samples. We found SOMs with aromatic ring structures in all sediment extracts and SOMs with amine and amide groups and lignin in alkaline extracts. SOMs were extracted from UB sediment core samples (1 g each). Measured CO2 hydrate induction times were different in baked UB sediment suspensions with different extracts of UB sediments. The experimental results demonstrated that SOMs can play a significant role to accelerate the formation of CO2 hydrate in UB sediment suspensions, suggesting that the gas hydrate deposit site at UB may be a proper place for CO2 sequestration as a form of CO2 hydrate. |
| format |
Article in Journal/Newspaper |
| author |
Lamorena, RB Lamorena, Rheo Baguio Kyung, DS Kyung, Dae-Seung Lee, WJ Lee, Woo-Jin |
| author_facet |
Lamorena, RB Lamorena, Rheo Baguio Kyung, DS Kyung, Dae-Seung Lee, WJ Lee, Woo-Jin |
| author_sort |
Lamorena, RB Lamorena, Rheo Baguio |
| title |
Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| title_short |
Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| title_full |
Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| title_fullStr |
Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| title_full_unstemmed |
Effect of organic matters on CO 2 hydrate formation in ulleung basin sediment suspensions |
| title_sort |
effect of organic matters on co 2 hydrate formation in ulleung basin sediment suspensions |
| publisher |
American Chemical Society |
| publishDate |
2011 |
| url |
http://hdl.handle.net/10203/98457 |
| genre |
Sea ice |
| genre_facet |
Sea ice |
| _version_ |
1766195127855874048 |