天然气水合物评价的测井响应特征

摘要
参考文献
相关文章
Metrics

全文: PDF(492 KB)
输出: BibTeX | EndNote (RIS)

摘要

随着世界上石油、天然气资源的日渐耗尽,天然气水合物被称为21世纪具有商业开发前景的战略资源,正受到各国科学家和各国政府的重视.文中概要地介绍了天然气水合物的不同的测井响应特征.

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	任泽
	刘修国
	张剑波
	高艳芳

关键词 ：浓集中心偏移, 极值点提取, 畸形网格点剔除, 地球化学图件

Abstract：

Gas hydrate has been called the new energy resource of the 21th century with the gradual exhaustion of petroleum and gas in the world. The researches on gas hydrates have recently become a major focus both at home and abroad. As a traditional evaluation method for oil/gas reservoir, geophysical well logging remains one of the effective means in gas hydrates reservoir evaluation. This paper has made a preliminary description and analysis of the response characteristics of geophysical well logging.

Key words： excursion of geochemical concentration focus extreme points extraction rejection of abnormal grid points geochemical map

收稿日期: 2002-07-18 出版日期: 2003-02-24

:	TE1
	P631.8

作者简介: 王祝文(1961-),男,教授.1994年毕业于中国地质大学(北京),获工学博士学位.1994～1996年在原长春地质学院博士后流动站做研究工作.现就教于吉林大学地球物理系,主要从事地球物理测井、核地球物理、构造地球化学、大陆科学钻探地球物理测井、地震资料数据处理等方面的解释理论和方法的教学与科研工作.

引用本文:

王祝文, 李舟波, 刘菁华. 天然气水合物评价的测井响应特征[J]. 物探与化探, 2003, 27(1): 13-17.
WANG Zhu-wen, LI Zhou-bo, LIU Jing-hua . LOGGING RESPONSE CHARACTERISTICS IN GAS HYDRATE EVALUATION. Geophysical and Geochemical Exploration, 2003, 27(1): 13-17.

链接本文:

https://www.wutanyuhuatan.com/CN/ 或 https://www.wutanyuhuatan.com/CN/Y2003/V27/I1/13

［1］ Brown K M, Bangs N L. The nature, distribution, and origin of gas hydrate in the Chile triple junction region［J］.Earth and Planetary Science Letters, 1996, 139:471-483.
［2］ Collett T S, Ladd J. Detection of gas hydrate with downhole logs and assessment of gas hydrate concentrations (saturations) and gas volumes on the Blake Ridge with electrical resistivity log data［A］. Paul C K, Matsumoto R, Wallace P J, at el. Proc. ODP, Sci. Results［C］. 164: College Station, TX (Ocean Drilling Program), 2000,179-191.
［3］ Collett T S. Well Log Evaluation of Gas Hydrate Saturations［A］. SPWLA 39th Annual Logging Symposium［C］. Paper MM,1998.
［4］ Collett T S. Natural Gas Hydrates of the Prudhoe Bay and Kuparuk River Area［J］. North Slope, Alaska, AAPG Bulletin, 1993, 77(5): 793-812.
［5］ Hamilton E L. Sound velocity-density relations in sea-floor sediments and rocks［J］.J Acoust Soc Am, 1978, 634: 366-377.
［6］金春爽,汪集旸.确定天然气水合物热物理参数的方法［A］.中国地球物理学会年刊［C］. 武汉: 中国地质大学出版社,2000,217.
［7］ Lee M W, Hutchinson D R, Dillon W P, at el. Method of estimating the amount of in situ gas hydrate in deep marine sediments［J］. Marine and Petroleum Geology, 1993, 10: 493-506.
［8］ Lee M W. Gas hydrate amount estimated from acoustic logs at Blake Ridge, Site 994, 995, and 997［A］. Paul C K, Matsumoto R, Wallace P J,at el. Proc ODP, Sci Results［C］. 164: College Station, TX (Ocean Drilling Program),2000,193-198.
［9］刘吉成译.苏联梅索亚哈天然气水合物气田［J］.地质科技动态,1990,19.
［10］ Mathews M. Logging Characteristics of Methane Hydrate［J］. The Log Analyst, 1986, 27(3): 26-63.
［11］ Miles P R. Potential distribution of methane hydrate beneath the European continental margins［J］.Geophysical Research Letters, 1995, 22(23):3 179 -3 182.
［12］ Person C F, Halleck P M, McGuire P L, et al. Natural Gas Hydrate Deposits: A Review of in Situ Properties［J］. J Phys Chem, 1983, 87: 4180-4185.
［13］戚学贵,陈则韶.天然气水合物研究进展［J］.自然杂志,2001,23(2):79-82.
［14］ Ridley I, Dominic K. 天然气水合物将为21世纪提供能源［A］.张志强编译.见:史斗,孙成权,朱岳年.国外天然气水合物研究进展［C］.兰州:兰州大学出版社,1992,26-31.
［15］史斗,尹相英编译.麦索亚哈气田气水合物藏的地质和矿场地球物理特征［A］.见:史斗,孙成权,朱岳年.国外天然气水合物研究进展［C］.兰州:兰州大学出版社,1992,125-130.
［16］徐学祖编译.天然气水合物及其研究概况［A］.见:史斗,孙成权,朱岳年.国外天然气水合物研究进展［C］.兰州:兰州大学出版社,1992,11-16.
［17］周怀阳.天然气水合物［M］.北京:海洋出版社,2000.

[1]	苏永红. 基于MapGIS的极值无偏地球化学等值线图生成方法[J]. 物探与化探, 2016, 40(5): 1026-1029.
[2]	吴卫国. Surfer网格化与白化处理在数据扩边中的应用——以1:5万水系沉积物测量成图为例[J]. 物探与化探, 2015, 39(3): 602-605.
[3]	任泽, 刘修国, 张剑波, 高艳芳. 一种极值无偏的地球化学等值线图生成方法[J]. 物探与化探, 2015, 39(3): 610-614.

Viewed

Full text

Abstract

Cited

Shared

Discussed