Economic and Environmental Geology (자원환경지질)

The Korean Society of Economic and Environmental Geology (대한자원환경지질학회)
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Trend of the Unconventional Energy Resources

비재래 에너지자원 동향

  • 조진동 (한국과학기술정보연구원) ;
  • 김종헌 (한국과학기술정보연구원 미래정보분석실) ;
  • 박관순 (한국과학기술정보연구원)
  • Received : 2014.05.15
  • Accepted : 2014.06.23
  • Published : 2014.06.28
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Abstract

Unconventional resources are natural resources which require greater than industry-standard levels of technology or investment to exploit the commercial development. The key point is that unconventional resources are lower quality fuel sources and are not as economically viable as crude oil and conventional gas. Over the past 100 years, Conventional oil and gas has been satisfied with the energy demands. But developing countries such as China and India, the introduction of the developed countries and the surge of energy due to the depletion of unconventional energy resources will be the limelight. According to be analyzed in the academic literature to unconventional gas and oil(2000~2012) by the program of 'web of science', the research activities 402 papers in unconventional gas and 1,581 papers in unconventional oil.

비재래 자원은 상업적 개발을 위하여 높은 기술력과 많은 투자가 필요로 하는 자연자원이다. '비재래 자원' 용어는 물리적으로 낮은 투과성과 높은 탄화수소 점성도를 가지는 자연 오일저유소로부터 석유와 가스를 분리 생산을 요하는 특수한 탄화수소를 언급한다. 중국과 인도와 같은 개도국이 선진국으로 도입을 위해 필요한 에너지 사용의 급등 및 자원 고갈로 인해서 최근에 비재래 에너지 자원이 각광을 받고 있다. 따라서 비재래 에너지 자원의 상황과 'Web of science' 데이터베이스에 등록된 학술문헌지에 발표된 비재래 오일 가스 연구 활동(2000~2012)을 분석한 결과, 가스 402편과 오일 1,581편을 확인하였다. 국가 별 특성을 보면 미국은 비재래 가스분야, 캐나다는 비재래 오일분야 및 중국은 석탄 메탄가스 부문에서 강세를 보여주고 있다.

Keywords

References

  1. Cho, J.D. and Kim, J.H. (2013) Global Trends of Unconventional Energy Resources, KISTI, 86p.
  2. Cho, K.J. and Song M.K. (2012) The problem and effects of developing Unconventional resources in the global industrials, KDB, 28p.
  3. Hellmann, J.R. et al. (2014) Proppants for shale gas and oil recovery Engineering ceramics for stimulation of unconventional energy resources, American Ceramic Society Bulletin, v.93, n.1, p.28-35.
  4. IEA(International Energy Agency) (2012) World Energy Outlook Special Report on Unconventional Gas, 150p.
  5. IEA(International Energy Agency) (2012) World Energy Outlook 2012, 690p.
  6. Jeong, S.H. et al. (2014) Analysis of Canadian oil sand productivity by Seismic survey : porosity derived neural network, 2014 Joint Conference of the Geological science & Technology of Korea, 2014.0420-0423, Busan BEXCO, p.44-44.
  7. Lee, H.Y. et al. (2008) A Review on the Research and Development of Oil Shale, Korean Jour of Pertrol. Geol., v. 14, p.21-35.
  8. Lee, Y.M et al. (2014) 2014 Joint Conference of the Geological science & Technology of Korea, 2014.0420-0423, Busan BEXCO, p.48-48.
  9. McGlade, C. et al. (2013) Unconventional gas - A review of regional and global resources estimates, Energy, v.55, p.571-584. https://doi.org/10.1016/j.energy.2013.01.048
  10. Mamdouh, G.S. (2012) The potential unconventional oil resources: Between Expediency & Reality, p.17-20.
  11. Moon, T. (2008) New R&D White Paper Addresses Challenges for Future Energy Supply, J. of Petroleum Technology, v.60, n.4, p.48-50.
  12. Pomerantz, A.E. et al. (2014) Sulfur speciation in kerogen and bitumen from gas and oil shales, Organic Geochemistry, v.68, p.5-12. https://doi.org/10.1016/j.orggeochem.2013.12.011
  13. Shin, C.H. et al. (2013) Modeling and Evaluation technology of productivity on the shale gas reservoir, 2013 Joint Conference of the Geological Science & Technology of Korea, 2013.0424-0426, CECO, p.190.
  14. Yoon, J.P. et al. (2013) A stability Analysis of directional drilling on the shales with weak bedding planes, KSGE, v.50, n.4, p.581-595.
  15. Brian, F. and Herve, W. (2014) The Flexible Unconventional Gas Factory http://www.sbc.slb.com/
  16. CGG (2013) Worldwide Hydrocarbone Resources (URL: http://www.cgg.com)
  17. Jones oil (2013) http://www.jonesoil.ie/blog/
  18. Shibata A.(2013) Japanese Energy Strategy in the Shale-Gas http://www.nippon.com
  19. Web of Science (2013) (URL://http://apps.com)

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