东海盆地西湖凹陷保俶斜坡北段超深层甜点储层发育主控因素

Main controlling factors of ultra-deep sweet spot reservoir development in northern section of Baochu Slope, Xihu Sag, East China Sea Basin

  • 摘要: 东海盆地西湖凹陷Y地区成藏条件优越,已发现T含油气构造,具备巨大油气勘探潜力。钻井证实该地区超深层甜点储层是油气成藏富集的关键,但高砂地比背景下储层非均质性较强,优质储层成因机制和主控因素不明确,制约了该地区增储上产。在对Y地区平湖组和宝石组岩石学特征、储集特征、成岩作用和成岩演化分析的基础上,探讨了深层—超深层甜点储层成因机理及控制因素。Y地区超深层宝石组广泛发育甜点储层,4 600 m以下发育甜点储层物性反转带,中粗粒厚层、低泥质含量的河道砂岩为优势沉积相带,绿泥石保孔、次生溶蚀增孔和超压的建设性作用为甜点储层发育的主控因素。绿泥石发育颗粒包膜、孔隙衬边和孔隙充填3种赋存状态,早期绿泥石膜对压实和石英次生加大的有效抑制是甜点储层形成的关键因素。中成岩A期,有机质生成的酸性流体对长石进行溶蚀形成次生孔隙,进一步改善储层物性;超压可抑制压实、形成微裂缝促进溶蚀,同样有利于改善储层物性。基于平湖组和宝石组沉积特征、成岩作用及成岩演化序列的差异,建立了研究区3种储层演化模式:早期绿泥石膜保孔—后期溶蚀增孔—晚期超压接力保孔增渗的甜点储层、早期强硅质胶结—后期弱溶蚀的致密储层和早期强压实—中期弱溶蚀—晚期铁方解石胶结的致密储层。第一种甜点储层演化模式为Y地区新区新领域超深层油气勘探奠定了基础。

     

    Abstract: The Y area in the Xihu Sag of East China Sea Basin has superior conditions for hydrocarbon accumulation, with the T oil-gas structure already discovered, demonstrating significant exploration potential. Drilling confirms that the ultra-deep sweet spot reservoirs are key to hydrocarbon enrichment in this area. However, under the background of high sand-to-ground ratio, reservoir heterogeneity is strong, and the genetic mechanisms and main controlling factors of high-quality reservoirs remain unclear, which restricts the reserve growth and production enhancement in this region. Based on the analysis of petrological characteristics, storage properties, diagenesis, and diagenetic evolution of the Pinghu Formation and Baoshi Formation in the Y area, this study investigated the genetic mechanisms and controlling factors of deep to ultra-deep sweet spot reservoirs. In the Y area, ultra-deep sweet spot reservoirs were widely developed in the Baoshi Formation. A physical-property inversion zone of the sweet spot reservoirs developed below 4 600 m. Medium- to coarse-grained, thick-bedded channel sandstones with low argillaceous content were the dominant sedimentary facies. The constructive effects of chlorite in preserving pores, secondary dissolution in increasing pores, and overpressure were the main controlling factors for the development of sweet spot reservoirs. Chlorite occurred in three forms: grain coatings, pore linings, and pore fillings.The effective inhibition of compaction and quartz overgrowth by early-stage chlorite coatings was a key factor in the formation of sweet spot reservoirs. During the early diagenetic stage A, acidic fluids generated from organic matter dissolved feldspar to form secondary pores, further improving reservoir properties. Additionally, overpressure could inhibit compaction and form micro-fractures to promote dissolution, also contributing to improved physical properties. Based on the differences in sedimentary characteristics, diagenesis, and diagenetic evolution sequences between the Pinghu Formation and the Baoshi Formation, three reservoir evolution models were established for the study area: sweet spot reservoir evolution model of "early chlorite coating pore preservation-later dissolution pore increase-late overpressure relay pore preservation and permeability increase"; tight reservoir evolution model of "early strong siliceous cementation-later weak dissolution"; and tight reservoir evolution model of "early strong compaction-middle weak dissolution - late iron calcite cementation". The first sweet spot reservoir evolution model provides a foundation for oil and gas exploration of ultra-deep formation in new areas and new fields of the Y area.

     

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