Reservoir Quality Under the Control of Gravity Flows in the C7 Member of Yanchang Formation in the Jinghe Oilfield, Ordos Basin, China

Yousuf Fudol, Hongping Liu
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Abstract

The late Triassic sandstone reservoir in the C7 member of the Jinghe oilfield southern Ordos basin is a typical deep-water gravity flow tight oil reservoir. Sedimentary microfacies, physical properties, and petrographic analysis were being examined for quality determination. Pore structure and physical properties data together combined with, thin sections, and scanning electron microscope and core images were used to identify factors controlling reservoir physical properties. The depositional system under debates of different gravity flows including debris flow, seismite slumping, and turbidity flows. Among which sandy debris flow facies shows a better distribution of porosity and permeability followed by seismite-slump, where turbidity facies are the poorest. The petrophysical analysis shows that the study oil interval is a typical tight sandstone reservoir with an average porosity of 9% and permeability average being 0.025mD. The rock classification criteria of the C7 sandstone reveal the sub-categories of lithic feldspar sandstone and feldspar lithic sandstone. Average quartz sandstone contents of 48.25%, average feldspar sandstone content being 25%, and lithic fragments content of 29%. The formation lithology comprises mostly fine-grained sandstone and small pore size, which disclose that the porosity-permeability distribution increases proportional to the average and median pore throat radius, and decreases with average and median pressure. The microfacies distribution shows that the depositional facies controlled physical properties. The sandstone primary pores are affected by the mineral composition of quartz, feldspar, illite, smectite, kaolinite, calcite, and dolomite. Features such as dissolved pores and intergranular pore filling by feldspar, silky-like aggregates of illite-smectite intergranular pore filling and most diagenetic minerals influenced the sandstone pores beside the compaction.
中国鄂尔多斯盆地精河油田延长地层 C7 层重力流控制下的储层质量
鄂尔多斯盆地南部泾河油田 C7 层三叠系晚期砂岩油藏是典型的深水重力流致密油藏。对沉积微地貌、物性和岩相分析进行了研究,以确定其质量。孔隙结构和物理性质数据与薄片、扫描电子显微镜和岩心图像相结合,用于确定控制储层物理性质的因素。沉积系统由不同的重力流组成,包括碎屑流、地震岩坍塌流和浊流。其中,砂质碎屑流面显示出较好的孔隙度和渗透率分布,其次是地震岩坍塌,而浊流面的孔隙度和渗透率分布最差。岩石物理分析表明,研究油层属于典型的致密砂岩储层,平均孔隙度为 9%,平均渗透率为 0.025mD。根据 C7 砂岩的岩石分类标准,可分为石英长石砂岩和长石石英砂岩两个亚类。石英砂岩的平均含量为48.25%,长石砂岩的平均含量为25%,石屑含量为29%。地层岩性多为细粒砂岩,孔隙较小,孔隙度-渗透率分布随平均孔喉半径和中值的增大而增大,随平均压力和中值的增大而减小。微面分布表明沉积面控制了物理性质。砂岩原生孔隙受石英、长石、伊利石、镜铁矿、高岭石、方解石和白云石等矿物成分的影响。长石的溶解孔隙和晶间孔隙填充、伊利石-直闪石晶间孔隙填充的丝状聚集体以及大多数成岩矿物等特征在压实过程中对砂岩孔隙产生了影响。
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