JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Review of CO2 Storage Projects and Driving Strategy of CO2 Storage Program in Korea
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Review of CO2 Storage Projects and Driving Strategy of CO2 Storage Program in Korea
Gwon, Lee-Gyun;
  PDF(new window)
 Keywords
 Language
Korean
 Cited by
 References
1.
2030에너지신산업육성전략 (2015) 산업통상자원부-국무조정실-국토교통부-미래창조과학부-환경부.

2.
국가CCS종합추진계획 (2010) 녹색성장위원회-교육과학기술부-기획재정부-지식경제부-국토해양부-환경부.

3.
권이균 (2014) 이산화탄소 지중저장사업 예타 기획보고서. 공주대학교.

4.
권이균 (2016) 이산화탄소 지중저장 실증사업의 추진 방향성 제안. 석유지.

5.
권이균, 김인혜, 박소정, 김병준, 박은영, 이혜연, 이온유, 한아름, 최지수, 박경미, 신승욱, 임성민, 조재국, 이현주, 조수영 (2015) 이산화탄소 지중저장 기초이론. 도서출판 보성, 154-174 pp.

6.
김민철, 김용식, 손의영, 손문, 황인걸, 신영재, 최헌수 (2015) 한반도 남동부 마이오세 장기분지 내 $CO_2$ 지중저장 가능성 평가를 위한 지질구조/퇴적학 연구. 지질학회지, 51권(3), p. 253-271.

7.
김유리, 이금석, 조소현, 김민준, 김종수, 박명호 (2012) 동해 울릉분지 남서주변부의 이산화탄소 저장 용량 예비 평가. 자원환경지질, 45권(1), 41-48.

8.
박용찬, 허대기, 유동근, 황세호, 이흥연, 노을 (2009) 국내 $CO_2$ 지중저장 사업화 방안 검토. 지질학회지, 45권(5), p. 579-587.

9.
박재용, 김준모, 윤석훈 (2015) 이산화탄소 지중저장을 위한 한국 포항분지의 삼차원 지질모델링. 지질학회지, 51권(3), p. 289-302.

10.
채기탁, 윤성택, 최병영, 김강수, M. Shevalier (2005) 이산화탄소 저감을 위한 지중처분기술의 지구화학적 개념과 연구개발 동향. 자원환경지질학회, 38권(1), p. 1-22.

11.
신영재, 유동근, 황세호, 박용찬, 허대기 (2012) 울릉분지의 $CO_2$ 지중저장 유망구조와 저장능력에 대한 예비연구. 한국자원공학회, 49권(1), 47-58.

12.
왕수균 (2009) 이산화탄소 지중저장 법령정비를 위한 제언. 지질학회지, 45권(5), p. 569-577.

13.
이인영 (2014) 전략분야 연소 후 습식 $CO_2$ 포집기술 및 동향. News & Information for Chemical Engineers, 32권(1), p. 33-37.

14.
이창근 (2010) 건식흡수제 이용 연소배가스 이산화탄소 포집기술. 한국화학공학회지, 48권(2), p. 140-146.

15.
최병영, 박용찬, 신영재, 김구영, 채기탁, 김정찬 (2015) 포항분지 소규모 $CO_2$주입실증 부지에 대한 수치 모의 예비 결과: 1. $CO_2$ 거동 예측. 지질학회지, 51권(5), p. 487-496.

16.
한국지질자원연구원 (2014) 이산화탄소 지중저장 실증을 위한 저장지층 특성화 및 기본설계 기술개발 보고서.

17.
환경부 (2015) http://www.me.go.kr/

18.
Bai, M., Sun, J., Song, K., Li, L., Qiao, Z. (2015) Well completion and integrity evaluation for $CO_2$ injection wells. Renew. Sustain. Energy Rev. 45, 556-564. crossref(new window)

19.
Benson, S.M., Gasperikova, E., Hoversten, G.M. (2004) Overview of monitoring techniques and protocols for geologic storage projects. IEA Greenhouse Gas R&D Programme Report.

20.
Bielicki, J.M. and Stephens, J.C. (2008) Public perception of carbon capture and Storage technology. Workshop Report, 17 pp.

21.
Bjorn Winden, Mingsheng Chen, Naoya Okamoto, Do Kyun Kim, Elizabeth McCaig, Ajit Shenoi, Philip Wilson (2014) Investigation of offshore thermal power plant with carbon capture as an alternative to carbon dioxide transport. Ocean Engineering, Volume 76, p. 152-162. crossref(new window)

22.
Boreham, C., Underschultz, J., Stalker, L., Kirste, D., Freifeld, B., Jenkins, C., Ennis-King, J. (2011) Monitoring of $CO_2$ storage in a depleted natural gas reservoir: gas geochemistry from the $CO_2$CRC Otway Project, Australia, Int. J. Greenhouse Gas Contr., in press.

23.
Buhre, B.J.P., Elliott, L.K., Sheng, C.D., Gupta, R.P., Wall, T.F. (2005) Oxy-fuel combustion technology for coal-fired power generation, Progress in Energy and Combustion Science, Volume 31, Issue 4, 2005, p. 283-307. crossref(new window)

24.
CO2CRC (2015) Capture Project and IEA GHG R&D PROGRAM.

25.
CO2CRC (2015) http://www.CO2crc.com.au/

26.
Dooley, D.D., Dahowski, R.T., Davidson, C.L. (2010) $CO_2$-driven Enhanced Oil Recovery as a Stepping Stone to What? Pacific Northwest National Laboratory (PNNL). DOE Report, 31 pp.

27.
Eiken O, Ringrose P, Hermanrud C, Nazarian B, Torp TA, Hier L (2011) Lessons learned from 14 years of CCS operations: Sleipner, In Salah and Snohvit. Energy Procedia, Volume 4, p. 5541-5548. crossref(new window)

28.
Eke, P.E., Naylor, M., Haszeldine, S., Curtis, A. (2011) $CO_2$ brine surface dissolution and injection: $CO_2$ storage enhancement. SPEProjects, Facilities & Construction, Volume 6, p. 41-53. crossref(new window)

29.
Eurobarometer (2011) Public Awareness and Acceptance of $CO_2$ capture and storage.

30.
Global Carbon Capture and Storage Institute (GCCSI) (2015) What is CCS?. http://www.globalccsinstitute. com/publications/what-ccs.

31.
Global Carbon Capture and Storage Institute (GCCSI) (2015) The global status of CCS: 2015. Volume 1: international climate dicussions, GCCSI publication.

32.
Global Carbon Capture and Storage Institute (GCCSI) (2015) The global status of CCS: 2015. Volume 2: project, policy and markets, GCCSI publication.

33.
Global Carbon Capture and Storage Institute (GCCSI) (2015) The global status of CCS: 2015. Volume 3: technologies, GCCSI publication.

34.
Global Carbon Capture and Storage Institute (GCCS) (2015) http://www.globalccsinstitute.com/

35.
Goodarzi S, Settaria A, Keith D. (2011) Geomechanical modeling for $CO_2$ storage in Wabamun Lake Area of Alberta, Canada. Energy Procedia, Volume 4, p.3399-3406. crossref(new window)

36.
Gozalpour, F., Ren, S. R., Tohidi, B. (2005) $CO_2$ EOR and storage in oil reservoir. Oil gas Sci. Technol, Volume 60, p. 537-546. crossref(new window)

37.
Hachiyama K. (METI) (2012) Update on Nagaoka $CO_2$ Storage Project, Presentation to CSLF Meeting, Perth.

38.
Hovorka, S.D. (2010) EOR as Sequestration-Geoscience Perspective. White Paper for Symposium on Role of EOR in Accelerationg Deployment of CCS. Bureau of Economic Geology, 26 pp.

39.
Intergovernmental Panel on Climate Change (IPCC) (2005) IPCC Special Report on Carbon Dioxide Capture and Storage. Prepared by Working Group III of the Intergovernmental Panel on Climate Change [Metz, B., O. Davidson, H. C. de Coninck, M. Loos, and L. A. Meyer (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 442 pp.

40.
Intergovernmental Panel on Climate Change (IPCC) (2006) IPCC Guidelines for National Greenhouse Gas Inventories. Chapter 5: Carbon Dioxide Transport, Injection and Gological Storage, 5.1-5.32 pp.

41.
International Energy Agency (IEA) (2005) World Energy Outlook 2004. OECD and International Energy Agency report, Paris, France.

42.
Japan CCS (2011) http://www.japanccs.com/

43.
Kevin, F. (2007) Oxygen production technologies ; Cryogenic and ITM, 2nd Workshop on Oxy-Fuel Combustion Research Network. Alstom Power Inc.

44.
Knoope, M. M. J., A. Ramirez, A. P. C. Faaij (2015) Investing in $CO_2$ transport infrastructure under uncertaint: A comparison between ships and pipeline. Greenhouse gas control, Volume 41, p. 174-193. crossref(new window)

45.
Lawal, A., Wang, M., Stephenson, P., Yeung, H. (2009) Dynamic modelling of $CO_2$ absorption for post combustion capture in coal-fired power plants, 7th European Conference on Coal Research and Its Applications, Volume 88, Issue 12, December 2009, p. 2455-2462.

46.
Maja B. Toftegaard, Jacob Brix, Peter A. Jensena, Peter Glarborga, Anker D. Jensen (2010) Oxy-fuel combustion of solid fuels. Progress in Energy and Combustion Science, Volume 36, Issue 5, p. 581-625. crossref(new window)

47.
Marine Well Containment Company (2015) MWCC's Containment System Bluewater, What is an FPSO, http://www.bluewater.com/

48.
Martens S, Kempka T, Liebscher A, Luth S, Moller F, Myrttinen A, Norden B, Schmidt-Hattenberger C, Zimmer M, Kuhn M (2012) Europe's longest-operating on-shore $CO_2$ storage site at Ketzin, Germany: a progress report after three years of injection. Environ Earth Sci, Volume 67, p. 323-334. doi:10.1007/s12665-012-1672-5. crossref(new window)

49.
Michael, K., Golab, A., Shulakova, V., Ennis-King, J., Allinson, G., Sharma, S., Aiken, T. (2010) Geological storage of $CO_2$ in saline aquifers-a review of the experience from existing storage operations. Int. J. Greenh. Gas Con., Volume 1011.

50.
Mito S., Ziqiu Xue (2011) Post-Injection monitoring of stored $CO_2$ at the Nagaoka pilot site: 5 years time-lapse well logging results. Energy Procedia, Volume 4, p. 3284-3289. crossref(new window)

51.
Mito S., Ziqiu Xue (2012) Nagaoka Post-injection Monitoring Update and Recent Research Activities in Japan, Carbon Storage R&D Project Review Meeting, Pittsburgh, Pennsylvania.

52.
Miyazaki, T., Osawa, H., Matsuura, M., Ohta, M. and Ozaki, M. (2013) Offshore Operational Availability of Onboard Direct Injection of $CO_2$ into Sub-seabed Geological Formations, GHGT-11. Energy Procedia, Volume 37, p. 3168-3175. crossref(new window)

53.
Mohamed Kanniche, Rene Gros-Bonnivard, Philippe Jaud, Jose Valle-Marcos, Jean-Marc Amann, Chakib Bouallou (2010) Pre-combustion, post-combustion and oxy-combustion in thermal power plant for $CO_2$ capture. Applied Thermal Engineering, Volume 30, Issue 1, p. 53-62. crossref(new window)

54.
Nakazawa, N., Kikuchi, K., Ishii, K., Yamaguchi, T., Ohta, M. and Ozaki, M. (2013) Ship-based $CO_2$ Injection into Subseabed Geological Formations using a Flexible Riser Pipe Pickup System, GHGT-11. Energy Procedia, Volume 37, p. 3176-3183. crossref(new window)

55.
National Energy Technology Laboratory, http://www.netl. doe.gov/

56.
National Energy Technology Laboratory(NETL) (2006) International carbon capture and storage projects overcoming legal barriers.

57.
National Energy Technology Laboratory(NETL) (2010) DOE/NETL Carbon dioxide capture and storage R&D roadmap.

58.
National Energy Technology Laboratory(NETL) (2012) Best practices for monitoring, verification, and accounting of $CO_2$ stored in deep geologic formations-2012 updated. DOE/NETL-2012/1568.

59.
Offshore Energy Today (2014) http://www.offshoreenergytoday.com/

60.
Oldenburg, C.M. (2008) Screening and ranking framework for geologic $CO_2$ storage site selection on the basis of health, safety, and environmental risk. Environmental Geology, Volume 54, no. 8, p. 1687-1694. crossref(new window)

61.
Ozaki, M., Ohsumi, T. and Kajiyama, R. (2013) Ship-based Offshore CCS Featuring $CO_2$ Shuttle Ships Equipped with Injection Facilities, GHGT-11. Energy Procedia, Volume 37, p. 3184-3190. crossref(new window)

62.
Plains $CO_2$ Reduction Partnership, Aquistore $CO_2$ Geological Storage Project, https://www.undeerc.org/pcor/co2sequestrationprojects/Aquistore.aspx

63.
Petroleum Technology Research Centre (2012) Weyburn $CO_2$ EOR Project, http://ptrc.ca/projects/weyburn-midale/

64.
PetroVision Energy Services (2013) http://www.petro-vision.com/

65.
Pevida, C., Plaza, M. G., Arias, B., Fermoso, J., Rubiera, F. and Pis, J. J. (2007) Nitrogen Enriched Solid Sorbents for $CO_2$ Capture. International Conference on Coal Science and Technology, Volume 7.

66.
Raziperchikolaee, S., Alvarado, V., and Yin, S. (2013) Effect of hydraulic fracturing on long-term storage of $CO_2$ in stimulated saline aquifers. Applied Energy, Volume 102, p. 1091-1104. crossref(new window)

67.
Sean T. McCoy, Edward S. Rubin (2008) An engineering- economic model of pipeline transport of $CO_2$ with application to carbon capture and storage. International Journal of Greenhouse Gas Control, Volume 2, Issue 2, p. 219-229. crossref(new window)

68.
Schlumberger, http://www.slb.com/

69.
Statoil (2014) http://www.statoil.com/

70.
Svensson, R., Odernberger, M., Johhsson, F. and Stromberg L. (2004) Transportation systems for $CO_2$-application to carbon capture and storage, Energy Conversion and Management, 45: 2343-2353. crossref(new window)

71.
Underschultz, J., Boreham, C., Dance, T., Stalker, L., Freifeld, B., Kirste, D. Jonathan, Ennis-King, J. (2011) $CO_2$ storage in a depleted gas field: An overview of the CO2CRC Otway Project and initial results. Int. J. Greenhouse Gas Control, Volume 5, p. 922-932. crossref(new window)

72.
Whittaker S, Worth K. (2011) Aquistore: a fully integrated demonstration of the capture, transportation and geologic storage of $CO_2$. Energy Procedia, vol. 4, pp. 5607-5614. crossref(new window)

73.
Xie L.U. (2014) Supervisory Control and Data Acquisition System Design for $CO_2$ Enhanced Oil Recovery. University of California, Berkeley College of Engineering.

74.
Zhang, Z.X., Wang, G.X., Massarotto, P., Rudolph, V. (2005) Optimization of pipeline transport for $CO_2$ sequestration. Energy Conversion and Management, Volume 47, Issue 6, p. 702-715.