참고문헌
- Aminu, M.D., Nabavi, S.A., Rochelle, C.A. and Manovic, V. (2017) A review of developments in carbon dioxide storage. Applied Energy, v.208, p.1389-1419. https://doi.org/10.1016/j.apenergy.2017.09.015
- Asquith, G. and Krygowski, D. (2004) Basic Well Log Analysis. In: American Association of Petroleum Geologists Methods in Exploration Series No. 16, 2nd ed. American Association of Petroleum Geologists, Tulsa, 244p.
-
Bachu, S., Bonijoly, D., Bradshaw, J., Burruss, R., Holloway, S., Christensen, N.P. and Mathiassen, O.M. (2007)
$CO_2$ storage capacity estimation: Methodology and gaps. International Journal of Greenhouse Gas Control, v.1, p.430-443. https://doi.org/10.1016/S1750-5836(07)00086-2 - Bong, P.Y., Lee, H.Y., Kwon, Y.I., Son, J.D., Oh, J.H., Kwak, Y.H., Son, J.D., Cheong, T.J., Ryu, B.J., Son, B.K., Lee, Y.J., Kim, H.J., Hwang, I.G., Park, K.S., Park, K.P., Shin, C.S. and Jo, C.H. (1993) Petroleum Resources Assessment of Sokotra Basin. KIGAM Research Report, KR-93-4A-1, p.3-234.
- Chen, Z., Yan, H., Li, J., Zhang, G., Zhang, Z. and Liu, B. (1999) Relationship Between Tertiary Volcanic Rocks and Hydrocarbons in the Liaohe Basin, People's Republic of China. American Association of Petroleum Geologists (AAPG) Bulletin, v.83, p.1004-1014.
- Clavier, C.W., Hoyle, R. and Meunier, D. (1971) Quantitative interpretation of thermal neutron decay time lags: Part 1. Fundamentals and techniques. Journal of Petroleum Technology, v.23, p.743-755. https://doi.org/10.2118/2658-A-PA
- Cukur, D., Horozal, S., Kim, D.C., Lee, G.H., Han, H.C. and Kang, M.H. (2010) The distribution and characteristics of the igneous complexes in the northern East China Sea Shelf Basin and their implications for hydrocarbon potential. Marine Geophysical Researches, v.31, p.299-313. https://doi.org/10.1007/s11001-010-9112-y
- DOE-NETL (U.S. Department of Energy - National Energy Technology Laboratory - Office of Fossil Energy) (2008) Carbon Sequestration Atlas of the United State and Canada, 2nd ed.
- Gislason, S.R. and Oelkers, E.H. (2014) Carbon Storage in Basalt. Science, v.344, p.373-374. https://doi.org/10.1126/science.1250828
- Goodman, A., Hakala, A., Bromhal, G., Deel, D., Rodosta, T., Frailey, S., Small, M., Allen, D., Romanov, V., Fazio, J., Huerta, N., McIntyre, D., Kutchko, B. and Guthrie, G. (2011) U.S. DOE methodology for the development of geologic storage potential for carbon dioxide at the national and regional scale. International Journal of Greenhouse Gas Control, v.5, p.952-965. https://doi.org/10.1016/j.ijggc.2011.03.010
-
Gorecki, C.D., Sorensen, J.A., Bremer, J.M., Knudsen, D.J., Smith, S.A., Steadman, E.N. and Harju, J.A. (2009) Development of Storage Coefficients for Determining the Effective
$CO_2$ Storage Resource in Deep Saline Formations. In: Society of Petroleum Engineers International Conference on$CO_2$ Capture, Storage and Utilization, SPE 126444, San Diego, California. - IEA (2017) Energy Technology Perspectives 2017. France, IEA Publications.
- IEA GHG (2009) Development of Storage Coefficients for Carbon Dioxide Storage in Deep Saline Formation. Technical Report 2009/13, International Energy Agency Greenhouse Gas R&D Programme (IEA GHG), Cheltenham, Gloucester, UK, 94p.
-
IPCC (2018) Summary for Policymakers. Global warming of
$1.5^{\circ}C$ . An IPCC Special Report on the impacts of global warming of$1.5^{\circ}C$ above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty, World Meteorological Organization, Geneva, Switzerland, 32p. - Johnson, D.E. and Pile, K.E. (2002) Well Logging in Nontechnical Language 2nd Edition. Penn Well Publishing Company, Tulsa, Oklahoma, 289p.
-
Kang, M.H., Kim, J.H., Kim, K.O., Cheong, S. and Shinn, Y.J. (2018) Assessment of
$CO_2$ storage capacity for basalt caprock-sandstone reservoir system in the northern East China Sea. EGU, Geophysical Research Abstracts, v.20, EGU2018-5772. - KIGAM (1997) Hydrocarbon potential of the northern East China Shelf Basin I (in Korean with English abstract). Korea Institute of Geoscience and Mineral Resources (KIGAM) Report, 420p.
- Koh, C.S., Yoon, S.H., Lee, D.K. and Yoo, H.S. (2016) Tectonic evolution and depositional environments of Jeju and Socotra basins in the southernmost continental shelf of the South Sea, Korea. Journal of the Geological Society of Korea, v.52, n.3, p.355-371. https://doi.org/10.14770/jgsk.2016.52.3.355
- Lee, C., Shinn, Y.J., Han, H.C. and Ryu, I.C. (2018) Structural evolution of two-stage rifting in the northern East China Sea Shelf Basin. Geological Journal, v.54, p.2229-2240. https://doi.org/10.1002/gj.3292
- Lee, G.H., Kim, B., Shin, K.S. and Sunwoo, D. (2006) Geologic evolution and aspects of the petroleum geology of the northern East China Sea shelf basin. American Association of Petroleum Geologists (AAPG) Bulletin, v.90, n.2, p.237-260. https://doi.org/10.1306/08010505020
- McGrail, B.P., Schaef, H.T., Ho, A.M., Chien, Y.J., Dooley, J.J. and Davidson, C.L. (2006) Potential for carbon dioxide sequestration in flood basalts. Journal of Geophysical Research, v.111, B12201.
- McGrail, B.P., Schaef, H.T., Spane, F.A., Horner, J.A., Owen, A.T., Cliff, J.B., Qafoku, O., Thompson, C.J. and Sullivan, E.C. (2017) Wallula Basalt Pilot Demonstration Project: Post-Injection Results and Conclusions. Energy Procedia, v.114, p.5783-5790. https://doi.org/10.1016/j.egypro.2017.03.1716
- Pigott, J.D., Kang, M.H. and Han, H.C. (2013) First order seismic attributes for clastic seismic facies interpretation: Examples from the East China Sea. Journal of Asian Earth Sciences, v.66, p.34-54. https://doi.org/10.1016/j.jseaes.2012.11.043
- Raymer, L.L., Hunt, E.R. and Gardner, J.S. (1980) An improved sonic transit time-to-porosity transform. Society of Professional Well Log Analysts, 21st Annual Logging Symposium, Transactions, Paper P.
-
Shin, S.Y., Kang, M.H., Cheong, S. and Shinn, Y.J. (2019) Assessment of
$CO_2$ geological storage capacity for basalt flow structure in eastern Jeju Island. 2019 Joint Conference of the Geological Science & Technology of Korea, KSEEG, GSK, KSPSG, KIGAM, p.207. -
Span, R. and Wagner, W. (1996) A new equation of state for carbon dioxide covering the fluid region from the triple-point temperature to
$1100^{\circ}K$ at pressures up to 800 MPa. Journal of Physical Chemistry Data, v.25, p.1509-1596. https://doi.org/10.1063/1.555991 - Thien, B.M.J., Kosakowski, G. and Kulik, D.A. (2015) Differential alteration of basaltic lava flows and hyaloclastites in Icelandic hydrothermal systems. Geothermal Energy, v.3, n.11.
- Yoon, S.H., Son, B.K. and Shinn, Y.J. (2009) Review on Geology and Potential Petroleum Systems of Sedimentary Basins in the South Sea of Korea. KIGAM Bulletin, v.13, n.1, p.54-68.
- Yun, H., Yi, S., Yi, S., Kim, J.H., Byun, H.S., Kim, G.H. and Park, D.B. (1999) Biostratigraphy and Paleo-environment of the Cheju Sedimentary Basin : Based on Materials from Exploration Wells, Geobuk-1 and Okdom-1. Journal of the Paleontological Society of Korea, v.15, n.1, p.43-94.
- Zhou, Z., Zhao, J. and Yin, P. (1989) Characteristics and Tectonic Evolution of the East China Sea, Chinese Sedimentary Basins. Elsevier, p.165-179.