Log dependent approach to predict reservoir facies and permeability in a complicated shaly sand reservoir

Abdelrahman Elkhateeb, R. Rezaee, A. Kadkhodaie
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引用次数: 1

Abstract

Summary The prediction of facies and permeability in complicated reservoirs represents a major challenge that necessitates the usage of advanced statistical techniques. A new approach is presented in this paper to generate a log based continuous facies log and permeability index in the shaly sand of the Irwin River Coal Measures Formation. An integration between the density log and the NMR free fluid index has been carried out. This was done to establish a comprehensive electrofacies model and accommodate the large permeability variations. A new Reservoir Index, equivalent to the Flow Zone Indicator (FZI), has been calculated to allow a quantitative reservoir characterisation that includes facies and permeability independent of any core measurements. The modelled electrofacies and permeability from this analysis showed very effective results of high resolution. In order to calibrate the calculated permeability, the repeat formation tester mobility was used as a reference for the generated model. To further validate the results, the created models have been correlated with the core thin sections and core permeability. Four hydraulic flow units have been identified from the Reservoir Index, hence four different permeability models. From the log dependent results, an excellent match to the formation mobility has been achieved despite the reservoir heterogeneity. Furthermore, the outputs showed very encouraging results with the core data, upon which the methodology can be used in uncored wells. The workflow described in this paper shows a new methodology for reservoir characterisation through electric logs. The methodology allows an independent technique for rock typing in the absence of any core data. Regardless of the degree of the reservoir heterogeneity, a high-resolution facies and permeability index can be generated for advanced formation evaluation.
测井依赖法预测复杂泥质砂岩储层相及渗透率
复杂储层的相和渗透率预测是一项重大挑战,需要使用先进的统计技术。本文提出了一种基于测井的欧文河煤系组泥质砂连续相测井和渗透率指数生成方法。将密度测井曲线与核磁共振自由流体指数进行了积分。这样做是为了建立一个综合的电相模型,并适应大的渗透率变化。一种新的储层指数,相当于流动区指数(FZI),已经被计算出来,允许定量的储层特征,包括相和渗透率,而不依赖于任何岩心测量。模拟的电相和渗透率显示出非常有效的高分辨率结果。为了校正计算出的渗透率,将重复地层测试器的流度作为生成模型的参考。为了进一步验证结果,建立的模型与岩心薄片和岩心渗透率进行了关联。从储层指数中确定了四个水力流动单元,从而确定了四种不同的渗透率模型。从依赖于测井的结果来看,尽管储层具有非均质性,但仍能很好地匹配地层流动性。此外,通过岩心数据,输出结果显示出非常令人鼓舞的结果,该方法可用于未取心井。本文描述的工作流程展示了一种通过电测井进行储层表征的新方法。该方法允许在没有任何岩心数据的情况下使用独立的岩石分类技术。无论储层非均质程度如何,都可以生成高分辨率的相和渗透率指数,用于高级地层评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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