石油与天然气地质 ›› 2024, Vol. 45 ›› Issue (3): 739-751.doi: 10.11743/ogg20240312

• 油气地质 • 上一篇    下一篇

鄂尔多斯盆地神木气田二叠系石千峰组5段致密气富集因素及有利区预测

吴伟涛1,2(), 冯炎松3, 费世祥3, 王一妃3, 吴和源1,2, 杨旭东1   

  1. 1.西安石油大学 地球科学与工程学院, 陕西 西安 710065
    2.陕西省油气成藏地质学重点实验室, 陕西 西安 710065
    3.中国石油 长庆油田分公司 勘探开发研究院, 陕西 西安 710029
  • 收稿日期:2023-12-06 修回日期:2024-05-06 出版日期:2024-07-01 发布日期:2024-07-01
  • 第一作者简介:吴伟涛(1983—),男,副教授、硕士研究生导师,成藏地质学和非常规油气地质与勘探。E‑mail: wtwu@xsyu.edu.cn
  • 基金项目:
    中国石油天然气股份有限公司前瞻性基础性科技项目(2021DJ2101)

Enrichment factors and play fairway mapping for tight gas in the 5th member of the Permian Shiqianfeng Formation, Shenmu gas field, Ordos Basin

Weitao WU1,2(), Yansong FENG3, Shixiang FEI3, Yifei WANG3, Heyuan WU1,2, Xudong YANG1   

  1. 1.School of Earth Sciences and Engineering,Xi’an Shiyou University,Xi’an,Shaanxi 710065,China
    2.Shaanxi Key Laboratory of Petroleum Accumulation Geology,Xi’an,Shaanxi 710065,China
    3.Research Institute of Exploration and Development,Changqing Oilfield Branch Company,PetroChina,Xi’an,Shaanxi 710029,China
  • Received:2023-12-06 Revised:2024-05-06 Online:2024-07-01 Published:2024-07-01

摘要:

针对致密砂岩气富集主控因素不清、有利区预测难度大的关键问题,以鄂尔多斯盆地神木气田二叠系石千峰组5段(千5段)为研究对象,利用地震、钻井、测井和测试分析资料,研究了致密气气藏特征,分析了断裂、储层、盖层、隔层、烃源岩和海拔条件对致密气富集的影响,预测了致密气勘探有利区。研究表明:千5段砂体为辫状河三角洲平原亚相分流河道砂体,继承性走滑断裂起到改善储层和输导天然气的作用。气层孔隙度为6.0 %~12.0 %,平均9.1 %,渗透率为(0.20~0.80)×10-3 μm2,中值为0.49×10-3 μm2,气藏为透镜状致密气藏,具有横向连片、纵向叠置的准连续型分布特征。断裂和储层物性是致密气富集的主要因素,盖层厚度、隔层厚度和源岩煤层厚度的控气作用相对微弱,海拔条件对天然气分布不具有控制作用。当气井与断裂的距离大于9 km、储层泥质含量大于12 %、隔层泥岩厚度大于210 m时,随着参数值的减小,天然气富集程度增强;当孔隙度小于9 %、渗透率小于0.5×10-3 μm2、盖层泥岩厚度小于120 m、源岩煤层厚度小于15 m时,随着参数值的增加,天然气富集程度增强。提出气层富集指数预测致密气藏有利区,优选出14个Ⅰ类有利区和22个Ⅱ类有利区,它们主要分布在神木气田东部。

关键词: 富集因素, 有利区预测, 致密气, 石千峰组, 神木气田, 鄂尔多斯盆地

Abstract:

The study intends to clarify the undefined dominant factors controlling the tight sandstone gas enrichment and challenges associated with play fairway mapping through the exploration of the 5th member of the Permian Shiqianfeng Formation (hereafter referred to as the Qian 5 Member) in the Shenmu gas field, Ordos Basin. A combination of seismic, drilling, log, and laboratory data is applied to examine the characteristics of tight-gas reservoirs, analyze the impacts of various factors including faults, reservoirs, cap rocks, barriers, source rocks, and the elevation on tight gas enrichment, and map play fairways for tight gas exploration. The results indicate that the sand bodies of the Qian 5 Member originate from the distributary channels of the braided river delta plain subfacies and that inherited strike-slip faults play a role in improving the reservoir properties and transporting natural gas. The gas reservoir in the member exhibits a porosity mainly ranging from 6.0 % to 12.0 % (average: 9.1 %) and permeability from 0.20×10-3 to 0.80×10-3 μm2 (median: 0.49×10.0-3 μm2). The reservoir is of a lenticular tight gas reservoir, exhibiting a quasi-continuous distribution characterized by lateral contiguity and vertical superimposition. Primary factors controlling tight gas enrichment include faults and reservoir physical properties. In contrast, the thicknesses of cap rocks, barriers, and coal seams in source rocks produce relatively weak controlling effects on tight gas enrichment, and the elevation delivers no impact in this regard. In the case where the distance between a gas well and faults exceeds 9 km, the reservoir shale content is greater than 12 %, and the thickness of mudstone barriers exceeds 210 m, the degree of natural gas enrichment increases as the values of these parameters decrease. Conversely, under conditions where the porosity is below 9 %, the permeability falls below 0.5×10-3 μm2, the thickness of mudstone cap rocks is less than 120 m, and the coal seam thickness within source rocks is less than 15 m, the degree of natural gas enrichment improves with increasing values of these parameters. It is proposed to employ the gas enrichment indices to map the play fairways of tight-gas reservoirs. Using this method, a total of 14 Class Ⅰ and 22 Class Ⅱ play fairways primarily distributed in the eastern Shenmu gas field are identified.

Key words: enrichment factor, play fairway mapping, tight gas, Shiqianfeng Formation, Shenmu gas field, Ordos Basin

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