收稿日期: 2003-05-23
修回日期: 2003-07-27
网络出版日期: 2003-10-01
基金资助
国家863计划项目“天然气水合物探测技术”课题(编号:2001AA611020);国家重点基础研究发展规划项目“暖池形成演变的构造控制与沉积证据”课题(编号:G2000078501)资助.
SCIENTIFIC OCEAN DRILLING AND GAS-HYDRATES
Received date: 2003-05-23
Revised date: 2003-07-27
Online published: 2003-10-01
天然气水合物是由水和甲烷等气体水分子组成的冰状物,主要分布于海洋陆坡区和陆地永久冻土带,是21世纪理想的替代能源。科学家已对天然气水合物的物理化学性质、产出条件、分布规律、勘查技术、开采工艺、经济评价及开采可能造成的环境影响等进行了广泛而深入的研究。大洋钻探计划(ODP)是获得深部含天然气水合物和游离气沉积物的唯一途径,已成功实施了164和 204两个以天然气水合物为主要目标的航次,分析研究了含天然气水合物沉积物的原位物理化学特性和地球物理性质,探讨了气体-水-沉积物-水合物间的相互作用机理,为气体储量计算提供了依据,对推动水合物研究作出了重大贡献。综合大洋钻探计划(IODP)的启动,将为人们深刻理解地球历史和地球系统过程(ESP),特别是认识天然气水合物在地质过程中的作用,提供前所未有的机会。
陈弘 , 王宏斌 , 蔡秋蓉 , 吴能友 . 科学大洋钻探与天然气水合物[J]. 地球科学进展, 2003 , 18(5) : 753 -758 . DOI: 10.11867/j.issn.1001-8166.2003.05.0753
Gas hydrates are solid compounds similar to ice crystals where cages of water molecules enclose molecules of natural gas mostly being methane a well as ethane, propane, etc. It has long been known that the natural gas hydrates occur globally in sediments mainly in the continental slope and in permafrost regions of the continent. Over the past years, geoscientists had acquired a lot of information about the physical and chemical characteristics, geological conditions of formation and concentration, distribution of the gas hydrate, the technology and methold of explorating and exploitating, as well as the potentially influence on environment. Scientific ocean drilling provided the only avenue for us to gain sample of gas-hydrate and bearing-gas-hydrate sediments and free gas from deep setting, especially Leg164 and Leg204 of Ocean Drilling Program (ODP). By studying the data from ODP, geoscientists had analyzed in situ property of bearing-gas-hydrate sediments, discussed reacting mechanism among gas, water, sediment and gas-hydrate. The Integrated Ocean Drilling Program (IODP) will provide a new opportunity for us to research the Earth's history and the System's Processing (ESP), and will reveal the importance of gas-hydrate in the process.
[1] Kvenvolden K A. A review of geochemistry of methane in nature gas hydrate[J]. Organic Geochemistry, 1995, 23(11/12):997-1 008.
[2] Collett T S. Natural gas hydrates of the Prudhoe Bay and Kupruk River area, North Slope, Alask[J]. American Association of Petroleum Geologists Bulletin, 1993 ,77(5):793-812.
[3] Yamazaki Akira. MITI's plan of research and development for technology of methane hydrate development as domestic gas resources[Z]. Copenhagen. 20th World Gas Conference,1997.
[4] Anon. Gas hydrates to boost India's gas resource[J]. Oil and Gas Journal, 1997,95(37): 28.
[5] Alexei V, Milkov, Roger Sassen. Economic geology of offshore gas hydrate accumulations and provinces[J]. Marine and Petroleum Geology, 2002, 19:1-11.
[6] Lee M W. Gas hydrate amount estimated from acoustic logs at the Blake Ridge, Sites 994, 995, and 997. Proceedings of the Ocean Drilling Program, Scientific results, 164[R]. College Station, Texas, Ocean Drilling Program, 2000.193-198.
[7] Hovland M, Gardner J V, Judd A. The significance of pockmarks to understanding fluid flow processes and geohazards[J]. Geofluids, 2002, 2:127-136.
[8] Shi Dou, Sun Chengquan, Zhu Yuenian, eds. International Progress on Gas Hydrate Research [C]. Lanzhou: Lanzhou University Press, 1992.[史斗,孙成权,朱岳年,主编.国外天然气水合物研究进展[M].兰州:兰州大学出版社,1992. ]
[9] Suess E. The evolution of an idea: From avoiding gas hydrates to actively drilling for them [A]. In: Achievements and Opportunities of Scientific Ocean Drilling[C]. 2002.45-50.
[10] Integrating Marine Science in European, European Science Foundation[Z]. ESF Marine Board, 2002.46-47.
[11] MacDonald I R, Leifer I, Sassen R, et al. Transfer of hydrocarbons from natural seeps to the water column and atmosphere[J]. Geofluids, 2002, 2:95-107.
[12] Judd A, Hovland M, Dimitrov L I, et al. The geological methane budget at continental margins and its influence on climate change[J]. Geofluids, 2002, 2:109-126.
[13] Kvenvolden K A, McDonald T J. Gas Hydrates of the Middle America Trench, Deep Sea Drilling ProJect Leg 84, Initial Reports[R]. Deep Sea Drilling ProJect, 1985.667-682.
[14] Shipboard Scientific Party, Site 1041: Proceedings, Initial Reports of Leg170[R]. Ocean Drilling Program, 1997.153-188.
[15] Harrison W E, Curiale J A. Gas Hydrates in Sediments of Holes 497 and 498A, Deep Sea Drilling ProJect leg 67: Initial Reports[R]. Deep Sea Drilling ProJect, 1982.591-594.
[16] Shipley T H, Didyk B M. Occurrence of Methane Hydrates Offshore Southern Mexico: Initial Reports, Deep Sea Drilling ProJect, v. 66[R]. 1982. 547-555.
[17] Whiticar M J, Hovland M, Kastner M, et al. Organic Geochemistry of Gases, Fluids, and Hydrates at the Cascadia Accretionary margin[R]. Ocean Drilling Program, Scientific Results of Leg146, 1997. 385-397.
[18] Ganguly N, Spence G D, Chapman N R, et al. Heat flow variations from bottom simulating reflectors on the Cascadia margin[J]. Marine Geology, 2000, 164: 53-68.
[19] Shipboard Scientific Party, Site 796, Proceedings of Ocean Drill Program, Initial Reports 127[R]. 1990.247-322.
[20] Shipboard Scientific Party, Site 808 Proceedings of Ocean Drill Program, Initial Reports 131[R]. 1991.71-269. [21] Kvenvolden K A, Kastner M. Gas hydrates of the Peruvian outer continental margin, Proceedings of Ocean Drill Program[R]. Scientific Results, 112, 1990. 517-526.
[22] MacDonald I R, Guinasso N J, Sassen R, et al. Gas hydrate that breaches the sea floor on the continental slope of the Gulf of Mexico[J]. Geology, 1994,22: 699-702.
[23] Kvenvolden K A, Barnard L A. Gas Hydrates of the Blake Outer Ridge, Site 533, Deep Sea Drilling Project Leg 76, Initial Reports[R]. Deep Sea Drilling ProJect, 1983. 353-365.
[24] Paull C K, Matsumoto R, Wallace P J, et al. Proceedings of Leg164 Initial Reports [R]. Ocean Drill Program, 1996.623.
[25] Gerhard Bohrmann, Anne Trehu, Jack Baldauf, et al. Leg 204 Preliminary Report[R]. Ocean Drill Program, 2002.7-46.
[26] Integrated Ocean Drilling Program. Earth, Oceans and Life[R]. Integrated Ocean Drill Program, 2001.29-35.
/
| 〈 |
|
〉 |
甘公网安备62010202000687
