Advances in New and Renewable Energy >
New Developments in Gas Hydrate Recovery Technology
Received date: 2015-01-02
Revised date: 2015-03-26
Online published: 2015-06-30
This paper analyzed the drilling technology and the latest developments of gas hydrate recovery and classified six kinds of recovery methods and three kinds of key technologies of gas hydrate. In view of environmental risk factors, the latest research results at home and abroad were took into account to analyze the risk mechanism and integrated risk model of gas hydrate drilling. The economic and social value of gas hydrate as a new kind of energy for challenges and opportunities were described. The authors argued that the social value still depends on the capacity and level of the industry in communicating new knowledge with the public, including to comprehensively learn the features of gas hydrate and relationship with energy resources, ecosystem and environment, geohazards, and global climate changing. This paper finally concluded with “safely utilization” and “effective utilization” as two core issues of gas hydrate.
Key words: gas hydrate; drilling technology; key technology; environmental impacts
WU Xi-shun , ZHANG Bai-ren , ZHANG Wei , WANG Yan-dong , SUN Zhang-tao , SHAO Ming-juan . New Developments in Gas Hydrate Recovery Technology[J]. Advances in New and Renewable Energy, 2015 , 3(3) : 218 -225 . DOI: 10.3969/j.issn.2095-560X.2015.03.010
[1] Carlo G, Keith H. Gas Hydrates: Immense Energy Potential and Environmental Challenges[M]. Springer-Verlag London Limited, 2011. 17.
[2] Ayhan D. Methane Gas Hydrate[M]. Springer-Verlag London Limited, 2010. 81.
[3] Stoll R D, Bryan G M. Physical properties of sediments containing gas hydrate[J]. J Geophys Res, 1979, 84(B4): 1629-1634.
[4] Collette T S, Dallimore S R. Marine Methane Hydrate Field Research Plan[R]. Consortium for Ocean Leadership, 2013(12): 15-16.
[5] Ministry of Economy, Trade and Industry. Survey for shallow methane hydrate resources was conducted[N]. http://www.meti.go.jp/english/press/2013/1129_03.html.
[6] Ministry of Economy, Trade and Industry. ANRE to launch the FY2014 survey of shallow methane hydrate[N]. http://www.meti.go.jp/english/press/2014/ 041501.html.
[7] Collette T S, Dallimore S R. Detailed analysis of gas hydrate induced drilling and production hazards[C]. Proceedings of the 4th International Conference on Gas Hydrates, Yokohama, Japan, May 19-23, 2002. 47-52.
[8] Boswell R, Collette T S, Dallimore S R, et al. Geohazards associated with naturally occurring gas hydrate: Fire-In-The-Ice Methane Hydrate Newsletter[R]. National Energy Technology Laboratory, U.S. Department of Energy, 2012, 12(1), 11-15.
[9] Judith M S, Spangenberg E, Giese R, et al. Helmholtz Centre Potsdam Gfz German Research Centre for Geosciences(OL), Germany, 2014, 96-97.
[10] 冯望生, 宋伟宾, 郑箭的, 等. 可燃冰的研究与开发进展[J]. 价值工程, 2013(08): 31-33.
[11] Ho-keun K. Korea Maritime and Ocean University, South Korea risk assessment for a conceptual design of a natural gas hydrate transport vessel[C]. The 8th International Conference on Gas Hydrates proceedings, 2014.
[12] 张炜. 天然气水合物开采方法的应用——以Ignik Sikumi天然气水合物现场试验工程为例[J]. 中外能源, 2013(02): 33-38.
[13] Ministry of Economy, Trade and Industry. Survey for shallow methane hydrate resources was conducted[N]. 2013.11.29.
[14] 梁钢华. 我国可燃冰开采输运关键技术取得进展[EB/OL]. http://news.xinhuanet.com/tech/2007-01/12/content_5597321.htm. 2007-01-12.
[15] 王丽艳, 宋雪. 海洋油气工程与装备研发平台建设在青启动[EB/OL]. http://www.sd.xinhuanet.com/lh/2012- 05/30/content_25316344.htm. 2012-05-30.
[16] 翁震平. 深谋“蛟龙”号远虑可燃冰[EB/OL]. css.stdaily.com/special/content/2013-06/04/content_612055.htm. 2013-06-04.
[17] Collette T S, Johnson A, Knapp C. Natural Gas Hydrates − Energy Resource Potential and Associated Geologic Hazards[R]. American Association of Petroleum Geologists Memoir 1989. 68.
[18] Collette T S, Dallimore S R. Detailed analysis of gas hydrate induced drilling and production hazards[C]. Proceedings of the 4th International Conference on Gas Hydrates, Yokohama, Japan, May 19-23, 2002. 47-52.
[19] 高立萍. 可燃冰的国际竞赛[N]. 第一财经日报. 2014-01-06.
/
| 〈 |
|
〉 |