Research advances on the mechanisms of reservoir formation and hydrocarbon accumulation and the oil and gas development methods of deep and ultra-deep marine carbonates

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-08-01 DOI:10.1016/S1876-3804(24)60507-0
Yongsheng MA , Xunyu CAI , Maowen LI , Huili LI , Dongya ZHU , Nansheng QIU , Xiongqi PANG , Daqian ZENG , Zhijiang KANG , Anlai MA , Kaibo SHI , Juntao ZHANG
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Abstract

Based on the new data of drilling, seismic, logging, test and experiments, the key scientific problems in reservoir formation, hydrocarbon accumulation and efficient oil and gas development methods of deep and ultra-deep marine carbonate strata in the central and western superimposed basin in China have been continuously studied. (1) The fault-controlled carbonate reservoir and the ancient dolomite reservoir are two important types of reservoirs in the deep and ultra-deep marine carbonates. According to the formation origin, the large-scale fault-controlled reservoir can be further divided into three types: fracture-cavity reservoir formed by tectonic rupture, fault and fluid-controlled reservoir, and shoal and mound reservoir modified by fault and fluid. The Sinian microbial dolomites are developed in the aragonite-dolomite sea. The predominant mound-shoal facies, early dolomitization and dissolution, acidic fluid environment, anhydrite capping and overpressure are the key factors for the formation and preservation of high-quality dolomite reservoirs. (2) The organic-rich shale of the marine carbonate strata in the superimposed basins of central and western China are mainly developed in the sedimentary environments of deep-water shelf of passive continental margin and carbonate ramp. The tectonic-thermal system is the important factor controlling the hydrocarbon phase in deep and ultra-deep reservoirs, and the reformed dynamic field controls oil and gas accumulation and distribution in deep and ultra-deep marine carbonates. (3) During the development of high-sulfur gas fields such as Puguang, sulfur precipitation blocks the wellbore. The application of sulfur solvent combined with coiled tubing has a significant effect on removing sulfur blockage. The integrated technology of dual-medium modeling and numerical simulation based on sedimentary simulation can accurately characterize the spatial distribution and changes of the water invasion front. Afterward, water control strategies for the entire life cycle of gas wells are proposed, including flow rate management, water drainage and plugging. (4) In the development of ultra-deep fault-controlled fractured-cavity reservoirs, well production declines rapidly due to the permeability reduction, which is a consequence of reservoir stress-sensitivity. The rapid phase change in condensate gas reservoir and pressure decline significantly affect the recovery of condensate oil. Innovative development methods such as gravity drive through water and natural gas injection, and natural gas drive through top injection and bottom production for ultra-deep fault-controlled condensate gas reservoirs are proposed. By adopting the hierarchical geological modeling and the fluid-solid-thermal coupled numerical simulation, the accuracy of producing performance prediction in oil and gas reservoirs has been effectively improved.

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深海和超深海碳酸盐岩储层形成和油气聚集机理及油气开发方法的研究进展
基于钻井、地震、测井、测试和实验等新资料,对我国中西部叠合盆地深部和超深部海相碳酸盐岩地层成藏、油气聚集和高效油气开发方式等关键科学问题进行了持续研究。(1)断层控制碳酸盐岩储层和古白云岩储层是深部和超深部海相碳酸盐岩的两种重要储层类型。根据成藏成因,大型断层控制储层又可分为三种类型:构造断裂形成的断裂-空腔储层、断层和流体控制储层、断层和流体改造的滩丘储层。华南微生物白云岩发育于文石-白云岩海中。主要的丘-滩面、早期白云石化和溶解、酸性流体环境、无水石膏盖层和超压是优质白云岩储层形成和保存的关键因素。(2)中国中西部叠合盆地海相碳酸盐岩地层中的富有机质页岩主要发育于被动大陆边深水陆架和碳酸盐岩斜坡的沉积环境中。构造-热力系统是控制深部和超深部储层烃相的重要因素,改造后的动力场控制着深部和超深部海相碳酸盐岩的油气聚集和分布。(3) 在普光等高含硫气田开发过程中,硫沉淀会堵塞井筒。应用硫溶剂与盘管相结合,对清除硫堵塞效果显著。基于沉积模拟的双介质建模与数值模拟集成技术,可以准确描述水侵前沿的空间分布和变化特征。随后,提出了气井全生命周期的水控制策略,包括流量管理、排水和堵漏。(4) 在开发超深断层控制裂缝空腔储层时,由于储层应力敏感性导致渗透率降低,气井产量迅速下降。凝析气藏的快速相变和压力下降极大地影响了凝析油的采收率。针对超深断层控制凝析气藏,提出了注水注天然气重力驱、顶注底采天然气驱等创新开发方式。采用分层地质建模和流固热耦合数值模拟,有效提高了油气藏生产性能预测精度。
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