利用细脉冲中子能谱技术解锁棕地油藏潜力:以埃及苏伊士湾海上油田为例

Mohamed Ameen, Eslam Atwa, Y. Youssif, Emad Abdel Hakim, M. Farouk, S. Ghadiry, K. Saleh, Aly Morad
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引用次数: 0

摘要

40多年来,脉冲中子谱主要用于油藏管理,以确定油气饱和度剖面,跟踪油藏枯竭,规划修井活动,以诊断水侵等生产问题。传统的脉冲中子工具已经使用了40多年来提供这些信息,但是当遇到混合岩性油藏、复杂完井、未知井眼条件以及套管井中水泥完整性差时,它们就会受到挑战。本文介绍了两个成功的现场实例和应用,利用先进的细脉冲中子能谱技术,精确确定复杂地质构造中的多相接触点,提供与套管后水泥质量无关的当前烃饱和度,并识别旁路烃。这对于了解当前储层流体分布,揭示埃及苏伊斯湾海上棕地的真正潜力至关重要。通过综合方法和候选井选择,选择了套管后固井质量差、岩性混合的非均质碳酸盐岩储层以及复杂储层结构中流体接触不确定的两口候选井。这些井眼和储层的综合条件与使用传统脉冲中子工具获取这些关键信息的难度相似,因此需要一种先进的技术来克服这些挑战,使用单一测井模式,测井速度是目前业内可用的任何脉冲中子技术的两倍。在此基础上,在该成熟油田进行了修井作业,在有效控制成本的同时提高了整体产油量,特别是在油气行业正经历着前所未有的时期。采用了一种综合方法,选择了两口井进行饱和度测定测井工具部署。详细的高分辨率矿物学、自补偿总孔隙度和sigma、流体类型识别和多相流体饱和度在套管井后高精度地获得,不受水泥完整性和井内流体再侵入的影响。该结果为综合油藏工程方法提供了重要信息,该方法揭示了100米左右的净油层,此前由于电阻率相对较低而被忽视。通过流体接触评价,确定了次生气顶发育和水侵方向。该技术可以进一步应用于更多的棕地,只要对候选油田进行正确的选择,以了解油田的潜力,这将提高棕地的采收率,棕地占全球油气田的65%以上。
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Exploiting Slim Pulsed Neutron Spectroscopy for Unlocking Reservoir Potential in Brownfields: Two Examples from Gulf of Suez Offshore Field in Egypt
For more than 40 years, pulsed neutron spectroscopy has been primarily used in reservoir management to determine hydrocarbon saturation profiles, tracking reservoir depletion, and planning workover activities to diagnose production problems such as water influx. Legacy pulsed neutron tools used to provide this information for more than four decades, but they were challenged when a mixed lithology reservoir is encountered, complex completions, unknown borehole conditions, and poor cement integrity in cased boreholes. This paper presents two successful field examples and applications using the advanced slim pulsed neutron spectroscopy to precisely determine multiphase contacts in a complex geological structure, provide current hydrocarbon saturation independent of the quality of cement behind the casing, and identifying bypassed hydrocarbon. This was of paramount importance in understanding current reservoir fluid distribution to reveal the true potential of this offshore brownfield located in the Gulf of Suez, Egypt. An integrated approach and candidate well selection were done that resulted in selecting two candidate wells that had poor cement quality behind casing, heterogeneous carbonate reservoir with mixed lithology, and uncertain fluid contacts in a complex reservoir structure. These combined borehole and reservoir conditions resemble challenges for capturing this crucial information with high confidence using the legacy pulsed neutron tool, and therefore required an advanced technology that can overcome these challenges using a single logging mode at twice the logging speed of any current pulsed neutron technology available in the industry. Based on the results, a workover campaign was implemented in this mature field to increase overall oil production with very efficient cost control, especially with this unprecedented time the O&G industry is going through. An integrated approach was set that resulted in the selection of two wells for the saturation determination logging tool deployment. Detailed high-resolution mineralogy, self-compensated total porosity and sigma, fluid type identification, and multiphase fluid saturation was obtained with high precision behind cased borehole independent of cement integrity and borehole fluid reinvasion. The results provided crucial information as an input to the integrated reservoir engineering approach which revealed around a 100-m net oil interval which was previously overlooked due to relatively low resistivity. Besides, fluids contacts were evaluated that confirmed the development of a secondary gas cap and the water encroachment direction. This technology can be further applied to more brownfields provided the right candidate selection is done to understand the potentiality of the field which would increase the recovery factor of the brownfields that represent almost more than 65% of the oil and gas fields around the world.
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