涪陵页岩气储层生产测井综合分析

Yaowen Liu, W. Pang, Jincai Shen, Ying Mi
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摘要

涪陵页岩气田是中国最成功的页岩气田之一。生产测井是评价页岩气在不同阶段、不同储层的贡献的重要技术之一。目前已对40多口井进行了生产测井,大部分作业都是成功的,取得了良好的效果。在涪陵页岩气区块,已有一些研究揭示了单井或几口井的生产测井结果。但不同井间的生产测井结果差异较大。为了更好地理解结果,进行了全面的概述。分析了岩性层数、总有机质含量、孔隙度、脆性矿物含量、井眼轨迹等因素的影响。结果表明,生产测井结果与地质认识基本一致,有利层裂缝供气较大。速率贡献与TOC呈正相关,TOC越高,每段速率贡献越大。对于TOC较高的井,每级速率贡献差异相对较小,而对于TOC较低的井,速率贡献变化较大,TOC低于2%的压裂段贡献率很小,存在一条或多条优势裂缝,贡献气量最大。孔隙度和脆性矿物对速率贡献也有正向影响。随着孔隙度和脆性矿物的增加,每个压裂阶段的气速贡献增大。“上”井和水平井的前半分支和后半分支的产气量比较接近。然而,对于“向下”的井,后半水平段比前半水平段贡献更多的天然气。认为趾部的液体载荷降低了前半段侧向的气体贡献。概述研究对于进一步了解生产测井和不同裂缝对页岩气生产的贡献具有重要意义。该方法对水平井分支段设计和裂缝场景设计也有指导意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comprehensive Analysis of Production Loggings in Fuling Shale Gas Play in China
Fuling shale gas field is one of the most successful shale gas play in China. Production logging is one of the vital technologies to evaluate the shale gas contribution in different stages and different clusters. Production logging has been conducted in over 40 wells and most of the operations are successful and good results have been observed. Some previous studies have unveiled one or several wells production logging results in Fuling shale gas play. But production logging results show huge difference between different wells. In order to get better understanding of the results, a comprehensive overview is carried out. The effect of lithology layers, TOC (total organic content), porosity, brittle mineral content, well trajectory is analyzed. Results show that the production logging result is consistent with the geology understanding, and fractures in the favorable layers make more gas contribution. Rate contribution shows positive correlation with TOC, the higher the TOC, the greater the rate contribution per stage. For wells with higher TOC, the rate contribution difference per stage is relatively smaller, but for wells with lower TOC, it shows huge rate contribution variation, fracture stages with TOC lower than 2% contribute very little, and there exist one or several dominant fractures which contributes most gas rate. Porosity and brittle minerals also show positive effect on rate contribution. The gas rate contribution per fracture stage increases with the increase of porosity and brittle minerals. The gas contribution of the front half lateral and that of latter half lateral are relatively close for the "upward" or horizontal wells. However, for the "downward" wells, the latter half lateral contribute much more gas than the front half lateral. It is believed that the liquid loading in the toe parts reduced the gas contribution in the front half lateral. The overview research is important to get a compressive understanding of production logging and different fractures’ contribution in shale gas production. It is also useful to guide the design of horizontal laterals and fractures scenarios design.
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