当水变成油:通过综合裸眼/套管井测井解释进行低电阻率产层表征

Nicola Raimondi Cominesi, A. Guglielmelli, F. Rotelli, Natale Putignano, P. Roscini, M. Pirrone, G. Galli, Fabio Vinci, D. Rametta, S. Raniolo
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引用次数: 0

摘要

祖拜尔是位于伊拉克南部的一个巨型油田。该油田于1951年投产,目前在Mishrif(碳酸盐岩)和3rd Pay(砂岩)两个主要地层完成了150口井,产量约为450万桶/天。本文的范围是展示基于岩心分析、裸眼和套管井测井的综合方法如何利用异常电阻率解锁砂层(L1)的地下潜力。实际上,多口井在L1层段的电阻率曲线与同一砂岩储层其他层段的平均值相比低得惊人。因此,裸眼(OH)和套管井(CH)测井数据采集已与岩心和动态数据(即生产测井)信息相结合,以便更好地了解低电阻率情景背后的现象。因此,以L1层为主要目标进行了几次射孔扩展,在不增加产水量的情况下,全面提高了油气产能。详细地说,L1样品的常规和特殊岩心分析描绘了细粒低电阻率产层砂岩的典型环境,能够容纳大量不可还原水。然而,这种行为在L1内核中并不总是存在。因此,一种旨在表征砂岩行为的方法是强制性的。核磁共振测井通常用于识别低电阻率储层,但由于存在井眼问题,并不是一个合适的选择。因此,采用一种基于OH电阻率和CH脉冲中子测井(PNL)详细集成的方法来识别和表征这种低电阻率产层。这种方法主要依赖于地层水具有很强的导电性,对电阻率有很强的影响,而对PNL测量的影响则不那么明显。这种直觉得到了多速率PLT解释的证实,该解释动态地描述了L1砂岩,具有良好的产能指数和高储层压力,以及显著的干产量贡献。综上所述,揭示了L1电阻率行为的明确地质趋势,并与同一方向基体胶结度降低和粗化有关。综合OH/CH方法可以将低电阻率层划分为产油层。这一成就代表了Zubair新井和现有井射孔策略的重要里程碑。因此,在不增加含水率的情况下,新技术的广泛应用提高了油田的总产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
When Water Turns to Oil: Low Resistivity Pay Characterization through Integrated Open-Hole/Cased-Hole Log Interpretation
Zubair is a giant oil field located in the South of Iraq. The production started in 1951 and current oil production is around 450 kbopd achieved through 150 wells completed in two main formations: Mishrif (carbonate) and 3rd Pay (sandstone). The scope of this paper is to show how an integrated methodology based on core analysis, open-hole and cased-hole logs unlocked the underneath potential of a sand layer (L1) with an anomalous resistivity. Multiple wells, indeed, show resistivity curves in the L1 interval with surprising low values with respect to the average of other levels of the same sandstone reservoir. Therefore, fit-for-purpose open-hole (OH) and cased-hole (CH) log acquisitions have been integrated with information from cores and dynamic data (i.e. production logging) in order to better understand the phenomena behind the low resistivity scenario. As a consequence, several perforation extensions have been performed with L1 as the main target, providing an overall improvement of hydrocarbon deliverability without any increase in water production. In details, routine and special core analyses in L1 samples delineate the typical setting of a fine-grained low resistivity pay sandstone, able to host a large quantity of irreducible water. However, such behavior is not always present among L1 cores. Therefore, a methodology aimed at characterizing this sandstone behavior was mandatory. Nuclear magnetic resonance logging, commonly used to identify low resistivity pays, was not a suitable option due to bad-hole problems. Hence, an approach based on a detailed integration of OH resistivity and CH pulsed neutron logging (PNL) is used to recognize and characterize such low resistivity pay. This method mainly relies on the fact that formation water is very conductive and strongly affects the resistivity, while its effects on PNL measurements are not so pronounced. Such intuition is confirmed by multi-rate PLT interpretations that dynamically describe the L1 sandstone with fair productivity index and high reservoir pressure, together with a significant dry production contribution. In conclusion, a clear geological trend of L1 resistivity behavior is revealed and associated to the decreasing cementation of the matrix and its coarsening in the same direction. The integrated OH/CH methodology allows characterizing low resistivity intervals as pay zones. Such achievement represents an important milestone for the perforation strategy of new and existing wells in Zubair. As a natural consequence, the overall field production has been enhanced by widely applying the new technique without any increase in water-cut.
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