Unlocking Potential in Thinly Laminated Reservoirs Through Cased Hole Pulsed Neutron Logging

Y. Akashev, S. Ahmad, C. Cavalleri, Yulia Ignatochkina, Yevgenii Solodkiy
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Abstract

Field A is located in the center of the Dnieper-Donets basin (DDB), producing gas from clastic reservoirs from several deep horizons in the Upper Visean sediments. The case study highlights the application of advanced pulsed neutron logging technologies and high-resolution data processing to unlock the sedimentary layers’ characteristics and the gas potential behind the casing. Multiple rock measurements are simultaneously recorded for continuous lithology identification, porosity quantification, and differentiating gas-filled porosity from low porosity formations. Dedicated log data acquisition and processing techniques enable investigating the effect of thin laminations on reservoir quality and producibility. The use of advanced pulsed neutron logging and interpretation method reduces the operational risks while securing critical reservoir parameters. A pulsed neutron spectroscopy tool provided a rich dataset including a self-compensated sigma and neutron porosity logs, fast neutron cross section (FNXS) together with capture and inelastic elemental spectroscopy. The logs interpretation was performed integrating FNXS and very high-resolution neutron porosity with mineral dry weight fractions and matrix properties from elemental spectroscopy processing. The comparison between the pulsed neutron measurements with standard open hole logs highlights the critical role of advanced fit-to-purpose logging techniques to accurately describe the underlying complexity of the formation and obtain improved net reservoir and net pay thicknesses in laminated and heterogeneous sequences. The logging objectives were successfully met, and additional valuable information related to the reservoir were determined in an efficient manner. The study also shows the critical value of FNXS as confident gas measurement. The FNXS measures the ability of the formation interacting with fast neutrons which are highly dependent on atomic density and not dominated by particular isotopes such as traditional sigma and porosity measurements. It is highly sensitive to gas-filled porosity, but it is independent of hydrogen index, acting like a cased-hole density measurement. Moreover, it demonstrates the importance of accurate knowledge of the mineralogy and matrix as well as the ability to measure at very high resolution to unravel the highly layered nature of the formation and its implication on completion and production strategy. Pulsed neutron logging has evolved over a half century, but the intrinsic physical measurements remain unchanged. With the advent and introduction of the new FNXS measurement and a high-quality spectroscopy elemental concentration, a higher quality measurement and interpretation can be obtained from standalone pulsed neutron logging. The advanced technology and log data analysis interpretation module can be considered as an effective and comprehensive methodology for robust formation evaluation in similar and complex setting.
套管脉冲中子测井解锁薄层储层潜力
A油田位于第聂伯-顿涅茨盆地(DDB)的中心,从上Visean沉积物的几个深层层位的碎屑储层中生产天然气。该案例强调了先进的脉冲中子测井技术和高分辨率数据处理的应用,以解锁沉积层的特征和套管后的天然气潜力。同时记录多个岩石测量数据,用于连续的岩性识别、孔隙度量化以及区分充满气体的孔隙度和低孔隙度地层。专用的测井数据采集和处理技术可以研究薄层对储层质量和产能的影响。采用先进的脉冲中子测井和解释方法,在确保油藏关键参数的同时,降低了作业风险。脉冲中子能谱工具提供了丰富的数据集,包括自补偿的sigma和中子孔隙度测井、快中子截面(FNXS)以及捕获和非弹性元素能谱。测井解释是将FNXS和高分辨率中子孔隙度与矿物干重分数和元素光谱处理的基质性质相结合进行的。脉冲中子测量与标准裸眼测井的对比凸显了先进的适合用途的测井技术的关键作用,它可以准确地描述地层的潜在复杂性,并在层状和非均质层序中获得改进的净储层和净产层厚度。成功实现了测井目标,并以有效的方式确定了与储层相关的其他有价值的信息。研究还显示了FNXS作为可靠气体测量的临界值。FNXS测量地层与快中子相互作用的能力,快中子高度依赖于原子密度,而不受传统的sigma和孔隙度测量等特定同位素的支配。它对充满气体的孔隙度非常敏感,但与氢指数无关,就像套管井密度测量一样。此外,它还证明了准确了解矿物学和基质的重要性,以及以非常高的分辨率进行测量的能力,以揭示地层的高度分层性质及其对完井和生产策略的影响。脉冲中子测井已经发展了半个多世纪,但内在的物理测量仍然没有改变。随着新的FNXS测量和高质量的光谱元素浓度的出现和引入,可以从独立脉冲中子测井中获得更高质量的测量和解释。先进的技术和测井数据分析解释模块可以被认为是一种有效而全面的方法,可以在类似和复杂的环境中进行稳健的地层评价。
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