Mohammad Bakhtiyari, Jafar Qajar, Amir Karimian Torghabeh, Ali Dehghan Abnavi
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In the second part of the paper, we performed estimation, uncertainty evaluation, and assessment of the porosity–thickness relationship of the high-quality EFs using geostatistical techniques. We used sequential simulation schemes to map the spatial distributions of porosity and thickness of the high-quality EFs across the field. Using probabilistic approaches, the generated multiple realizations were used to quantify the local and spatial uncertainties. Variogram analysis showed that property distributions had a higher continuity and minimum variance in the NW–SE direction. Based on spatial uncertainty analysis, we found that the indicator-based sequential simulated maps exhibited less spatial uncertainty. 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引用次数: 0
摘要
油气储层结构复杂,很难将地质和岩石物理特性联系起来。油气田的成功开发取决于准确绘制储层关键参数的空间分布图。在本研究中,我们介绍了对伊朗南部一个气田 33 口井的地质和岩石物理数据进行岩石类型分析、估算和不确定性评估的结果。本文分为两部分。在第一部分,我们通过分析测井和岩心数据,在确定电积(EF)和水力流单元的基础上,使用了储层岩石分类主题。在论文的第二部分,我们利用地质统计技术对优质 EF 的孔隙度-厚度关系进行了估算、不确定性评价和评估。我们使用连续模拟方案绘制了整个油田优质 EF 的孔隙度和厚度的空间分布图。利用概率方法,对生成的多重现实进行量化,以确定局部和空间的不确定性。方差图分析表明,属性分布在西北-东南方向具有较高的连续性和最小方差。基于空间不确定性分析,我们发现基于指标的序列模拟图显示出较小的空间不确定性。此外,获得的概率图显示,研究区域的东南部更适合钻探和生产方案。
Rock typing and uncertainty assessment in geological and petrophysical properties by integrating electrofacies, hydraulic flow units, and geostatistical techniques in the Kangan gas field, Zagros basin
The structural complexities of hydrocarbon reservoirs make it difficult to correlate geological and petrophysical properties. A successful field development depends on accurately mapping the spatial distributions of reservoir key parameters. In this study, we present results on rock type analysis, estimation, and uncertainty evaluation of geological and petrophysical data of 33 wells in one of the south Iranian gas fields. This paper is divided into two parts. In the first part, we used a reservoir rock classification theme based on identifying electrofacies (EFs) and hydraulic flow units by analyzing both log and core data. In the second part of the paper, we performed estimation, uncertainty evaluation, and assessment of the porosity–thickness relationship of the high-quality EFs using geostatistical techniques. We used sequential simulation schemes to map the spatial distributions of porosity and thickness of the high-quality EFs across the field. Using probabilistic approaches, the generated multiple realizations were used to quantify the local and spatial uncertainties. Variogram analysis showed that property distributions had a higher continuity and minimum variance in the NW–SE direction. Based on spatial uncertainty analysis, we found that the indicator-based sequential simulated maps exhibited less spatial uncertainty. Furthermore, the obtained probability maps indicated that the SE part of the study area is more suitable for drilling and production scenarios.
期刊介绍:
Acta Geophysica is open to all kinds of manuscripts including research and review articles, short communications, comments to published papers, letters to the Editor as well as book reviews. Some of the issues are fully devoted to particular topics; we do encourage proposals for such topical issues. We accept submissions from scientists world-wide, offering high scientific and editorial standard and comprehensive treatment of the discussed topics.