鄂尔多斯盆地奥陶系海相平凉页岩和石炭-二叠系过渡太原-山西页岩的页岩气潜力

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
H. Nie, Q. Chen, P. Li, W. Dang, J. C. Zhang
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引用次数: 0

摘要

摘要通过对鄂尔多斯盆地西北缘奥陶系平凉组、石炭-二叠系太原组和山西组页岩气潜力的评价,可以深入了解沉积环境的波动对岩相和页岩气潜力有何重要影响。为了研究页岩气潜力,对代表性露头样品进行了一系列测量(即岩石蒸发热解、显微组分分析和X射线粉末衍射等),以表征页岩性质。平凉海相页岩有机质以Ⅰ型为主,以腐泥岩为主,而太原-山西过渡页岩以Ⅱ-Ⅲ型干酪根为主。此外,平凉页岩的特征是“贫”烃源岩,主要是由于总有机碳(TOC)含量较低(平均0.79 wt%)和更高的成熟度[镜质组反射率(R o)平均1.78%],而太原-山西过渡页岩的特征主要是“中等”烃源岩,一些样品的TOC含量高(超过2.0 wt%)存在良好的烃源岩。沉积环境作为决定有机质和TOC含量的关键因素,不可避免地影响着页岩中矿物的类型和含量,并控制着页岩气的潜力。例如,过渡泥质太原-山西页岩与硅质平凉页岩有显著差异,特别是前者的总粘土含量超过50 wt%,而后者富含石英含量(超过70 wt%)。此外,太原页岩的石英和粘土含量范围很广,尤其是I–S ML的蒙脱石含量。由于山西页岩沉积在受陆地影响较大的浅三角洲相,太原组障壁海岸相更有利于有机质的富集和保存。综上所述,太原组和山西组页岩气具有较好的开发潜力,特别是TOC含量较高(平均2.45 wt%)和中等R o值(平均1.25%)。对于未来的勘探,选择页岩厚度相对较大、脆性矿物含量较高、构造稳定和保存条件较好的区域是优化页岩气有利勘探区域的关键。重点对比了太原-山西泥质页岩和平凉硅质页岩的页岩气潜力。建立了沉积相对海相和过渡期页岩储层参数的影响。这是对中国鄂尔多斯盆地西北缘海相和过渡期页岩气潜力的首次详细比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shale gas potential of Ordovician marine Pingliang shale and Carboniferous–Permian transitional Taiyuan-Shanxi shales in the Ordos Basin, China
Abstract The assessment of shale gas potential for the Ordovician Pingliang Formation and Carboniferous–Permian Taiyuan and Shanxi formations in the northwest margin of Ordos Basin, China provides insight into how fluctuation in depositional environments has a significant role on lithofacies and shale gas potential. To investigate the shale gas potential, a series of measurements (i.e. Rock-Eval pyrolysis, maceral composition analyses and X-ray powder diffraction, etc.) on representative outcrop samples were conducted to characterise shale properties. The organic matter from marine Pingliang shale is predominantly type I with a strong predominance of sapropelinite, whereas the transitional Taiyuan-Shanxi shales are dominated by types II to III kerogen. Furthermore, the Pingliang shale is characterised as a ‘poor’ source rock mainly owing to the lower total organic carbon (TOC) content (average 0.79 wt%) and higher maturity [average 1.78% in vitrinite reflectance (R o)], while the transitional Taiyuan-Shanxi shales are mostly characterised as ‘fair’ source rocks, and some samples with high TOC content (more than 2.0 wt%) present good source rocks. It is also found that the sedimentary environment, as a key factor determining the organic matter and TOC content, inevitably influences the type and content of minerals in shale, and controls the shale gas potential. For example, the transitional argillaceous Taiyuan-Shanxi shales are significantly different from the siliceous Pingliang shales, specifically, total clay content for the former is more than 50 wt%, while the latter is rich in quartz content (more than 70 wt%). Additionally, the quartz and clay contents of the Taiyuan shale range widely, especially the smectite content of I–S ML. The barrier coastal facies in the Taiyuan Formation are more conducive to the enrichment and preservation of organic matter because the Shanxi shale was deposited in shallow delta facies with a greater terrestrial influence. Conclusively, the Taiyuan and Shanxi formations have relatively good exploitation potential for shale gas, especially the relatively high TOC content (average 2.45 wt%) and moderate R o value (average 1.25%). For future exploration, selecting areas with relatively large shale thickness, high brittle mineral content, stable tectonics and better preservation conditions are key to optimising favourable exploration areas for shale gas. KEY POINTS The shale gas potentials of the argillaceous Taiyuan-Shanxi shales and siliceous Pingliang shale are compared. The influence of sedimentary facies on reservoir parameters of marine and transitional shales is established. This is a first detailed comparison of the marine and transitional shale gas potential in the northwest margin of Ordos Basin, China.
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.
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