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台北凹陷侏罗系煤层残留气量数值模拟 被引量:1

A numerical simulation on amount of remained gas in Jurassic coal-measure strata in Taibei sag
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摘要 在分别考虑各种相态残留气量影响因素并建立相应定量关系的基础上 ,采用排烃门限理论和物质平衡法 ,对吐哈盆地台北凹陷侏罗系煤层残留气量进行了数值模拟。模拟结果表明 ,煤中残留的气主要以水溶、油溶、游离和吸附 4种相态存在 ,其中油溶相和吸附相起决定作用。与炭质页岩和泥岩相比 ,煤的残留气量最大。台北凹陷 1m3 煤岩残留甲烷气和重烃气的量分别为 10 .64m3 和 2 .3 84m3 ,煤岩残留气量随埋深先增大后减小。台北凹陷中、下侏罗统煤层残留气量分别为 5 .63× 10 12 m3 和 13 .12× 10 12 m3 ,在该区适合开展煤层气勘探。图 2参 On the basis of studying the influence factors on amount of remained gas in all phases and establishing the corresponding quantitative relations respectively, a numerical simulation on amount of remained gas in Jurassic coal measures strata in Taibei sag, Turpan Hami basin was carried out by using the theory of hydrocarbon expulsion threshold and the material balance method. The results show that main mechanisms of gas retained in coal measure strata include dissolution in formation water, free phase, dissolution in oil and diffusion, with the last two being the most important. Comparing Carbonaceous shale with mudstone, the amount of remained gas in coal is the largest. In the studied region, the amount of methane and heavier hydrocarbon gases remained in 1m 3 coal source rocks is 10.64m 3 and 2.384m 3, respectively. With the burial depth increasing,remained gas in coal measure strata increases firstly, but decreases later. The total amount of remained gas in the middle and the lower Jurassic coal measure strata is 5.63×10 12 m 3 and 13.12×10 12 m 3, respectively. It is suitable to explore coal bed gas in Taibei sag.
作者 左胜杰 庞雄奇
机构地区 教育部石油天然气成藏机理重点实验室 石油大学(北京)盆地与油藏研究中心
出处 《石油勘探与开发》 SCIE EI CAS CSCD 北大核心 2002年第1期76-79,共4页 Petroleum Exploration and Development
基金 CNPC中青年创新基金资助项目 (1994 0 1)
关键词 台北凹陷 侏罗系 煤层 残留气量 数值模拟 油气地质 Taibei sag Jurassic coal measures strata amount of remained gas numerical simulation method
分类号 P618.130.2 [天文地球—矿床学] TE12 [石油与天然气工程—油气勘探]
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