喀麦隆里奥德雷盆地南部油田储层的测井岩石学和三维地震剖面解释

IF 1.827 Q2 Earth and Planetary Sciences
Mbouemboue Nsangou Moussa Ahmed, Olugbengha Ajayi Ehinola, Wokwenmendam Nguet Pauline, Anatole Eugene Djieto Lordon, Anas Mohamed Abaker Babai, Togozo Francis Thierry
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引用次数: 0

摘要

这项工作主要涉及岩石物理评估和确定里奥德尔雷盆地潜在储层的碳氢化合物饱和度。Petrel 2017 软件用于解释获得的测井记录和地震数据。Illustrator CS 用于地图和数字的调整和排列。研究结果表明,从两口目标井共成功探测到四个储层(S1A1、S1A2、S1A3 和 RB):S-C1 和 S-FB。孔隙度、渗透率和含水饱和度分别为 17%至 22%、149 至 193.5 mD 和 60%至 100%。根据岩石物理研究,在多个区带发现了良好的储层,但只有两个区带与本次工作有关。含水饱和度低于 80%、孔隙度为 17%和 22%的区块产量最高。其余区域具有相同的孔隙度和渗透率范围,但由于页岩体积大,含水饱和度超过 80%,因此不被视为富集区。地震解释显示存在七条列状断层,其中两条大断层(分别呈东北-西南走向的 F9 断层和呈东西走向的 F19 断层)和五条小断层(出现在两口井中的 F7 断层、F2 断层和 F6 断层)。断层 F9、F2 和 F6 的走向与主断层相同:从东到西。在 S-C1 井中发现了四个主要地层(S1A1、S1A2、S1A3 和 RB),而在 S-FB 井中只发现了其中一个主要地层(S1A3)。所有这些地层都与两口目标井中要研究的五个储层顶部相对应。在列表断层之间发现了褶皱反褶构造和断层闭合。在储层中发现了所有三种沉积环境:顺层(沉积物向陆地移动)、逆层(远离海岸的沉积)和逆层(沉积物向海移动)序列。翻转反斜或四向构造封闭是陷阱形成的主要机制。储层的 STOOIP 已经确定,其中 S1A3 和 RB 区储量较多。S1A3 的 STOOIP 高值为 11.2 百万桶,基值为 8.5 百万桶,低值为 7.4 百万桶,而 RB 的 STOOIP 基值为 8.6 百万桶,高值为 10.8 百万桶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Well log petrophysics and interpretation of 3D seismic profiles of reservoirs in the Southern Field, Rio Del Rey Basin, Cameroon

This work principally involves the petrophysical evaluation and the determination of hydrocarbon saturation of potential reservoirs in the Rio del Rey basin. Petrel 2017 software was used to interpret the obtained data well logs and seismic. Illustrator CS was used to find tune and arrange the maps and figures. From the studies, four reservoirs (S1A1, S1A2, S1A3 and RB) in total were successfully detected from two target wells: S-C1 and S-FB. Porosity, permeability and water saturation ranged between 17 to 22%, 149 to 193.5 mD and 60 to 100%, respectively. Good reservoirs were discovered based on the petrophysical studies at multiple zones, but only two were of interest to this work. The most prolific zones are those with less than 80% saturation of water and porosity of 17% and 22%. The remaining zones had the same porosity and permeability range but were not considered prolific zones due to high shale volume and more than 80% water saturation. Seismic interpretation revealed the presence of seven listric faults, two major faults (F9 and F19 trending in the NE-SW and E-W direction, respectively) and five minor faults (F7, and F2, and F6 which appear in the two wells). Faults F9, F2 and F6 trend in the same direction as the major faults: Eastern to Western. Four major horizons (S1A1, S1A2, S1A3, RB) were identified in well S-C1, and only one of these major horizons was identified in well S-FB (S1A3). All these horizons correspond to the five reservoir tops to be studied in the two target wells. Rollover anticlinal structures and fault closures between the listric faults were identified. All three types of environments of deposition of sediments were found in the reservoirs: progradational (sediment shift landward), aggradational (deposition far away from shore) and retrogradational (sediment shift seaward) sequences. Rollover anticline or four-way structural closure constitutes the main mechanism for trap formation. STOOIP of the reservoirs have been determined with S1A3 and RB zone being more prolific. The STOOIP of S1A3 is given by 11.2 MMbbls high case, 8.5 MMbbls base case and 7.4 MMbbls low case, while the STOOIP of RB is given by 8.6 MMbbls for the base case and 10.8 MMbbls for the high case.

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来源期刊
Arabian Journal of Geosciences
Arabian Journal of Geosciences GEOSCIENCES, MULTIDISCIPLINARY-
自引率
0.00%
发文量
1587
审稿时长
6.7 months
期刊介绍: The Arabian Journal of Geosciences is the official journal of the Saudi Society for Geosciences and publishes peer-reviewed original and review articles on the entire range of Earth Science themes, focused on, but not limited to, those that have regional significance to the Middle East and the Euro-Mediterranean Zone. Key topics therefore include; geology, hydrogeology, earth system science, petroleum sciences, geophysics, seismology and crustal structures, tectonics, sedimentology, palaeontology, metamorphic and igneous petrology, natural hazards, environmental sciences and sustainable development, geoarchaeology, geomorphology, paleo-environment studies, oceanography, atmospheric sciences, GIS and remote sensing, geodesy, mineralogy, volcanology, geochemistry and metallogenesis.
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