图像测井数据的智能处理与分析:非均质碳酸盐岩储层相建模的数字化方法

M. Galli, R. Berto, G. Buongiovanni, M. Pirrone
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引用次数: 2

摘要

本文讨论了一种新的数据驱动方法在碳酸盐岩储层自动相分类和表征中的应用。该方法广泛使用了电缆和随钻电成像测井,可以直接、快速地识别多尺度的主要地质特征,并进行二次孔隙度估计。在这些令人困惑的情况下,这体现了岩石类型、动态行为理解和储层建模目的的公正和有价值的关键驱动因素。该方法采用了一种非常规的方法来分析和解释图像测井,该方法基于应用于结构和岩石物理框架的图像处理和自动分类技术。特别是多分辨率基于图的聚类(MRGC)算法,它能够自动揭示隐藏在给定图像日志数据集中的重要模式。这使得系统能够在一个高效的模板内进行客观的多井分析。基于数字图像分割过程的分水岭变换(Watershed Transform, WT)方法可以建立相的进一步表征,该方法主要针对定量孔隙度划分(原生和次生)。通过对具有高非均质性的碳酸盐岩储层的直井和次水平井的案例研究,证明了这种数据驱动的图像测井分析的附加价值。首先,进行MRGC是为了获得具有固有纹理意义的替代测井相分类。接下来,基于wt的算法根据连通洞洞、孤立洞洞、裂缝和基质贡献率,对次生孔隙度对总孔隙度的贡献进行了稳健量化。最后,将图像测井相分类和定量孔隙度划分与生产测井和压力瞬态分析相结合,将获得的碳酸盐岩类型与有效流体流动及其相关的井尺度动态行为相协调。该方法被认为能够自动、客观、先进地解释现场规模的图像测井数据集,当需要处理的井数量很大或环境恶劣时,避免了耗时的传统方法和低效的标准分析。此外,次生孔隙度可以从动态的角度进行识别、评价和表征,从而为任何三维储层模型提供了有价值的信息。
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Smart Processing and Analysis of Image Log Data: A Digital Approach for a Robust Facies Modelling in Heterogeneous Carbonate Reservoirs
This paper discusses the use of a novel data-driven method for automated facies classification and characterization of carbonate reservoirs. The approach makes an extensive use of wireline and while drilling electrical borehole image logs and provides a direct and fast recognition of the main geological features at multi-scale level, together with secondary porosity estimation. This embodies an unbiased and valuable key-driver for rock typing, dynamic behavior understanding and reservoir modeling purposes in these puzzling scenarios. The implemented methodology takes advantage of a non-conventional approach to the analysis and interpretation of image logs, based upon image processing and automatic classification techniques applied in a structural and petrophysical framework. In particular, the Multi-Resolution Graph-based Clustering (MRGC) algorithm that is able to automatically shed light on the significant patterns hidden in a given image log dataset. This allows the system to perform an objective multi-well analysis within a time-efficient template. A further characterization of the facies can be established by means of the Watershed Transform (WT) approach, based on digital image segmentation processes and which is mainly aimed at quantitative porosity partition (primary and secondary). The added value from this data-driven image log analysis is demonstrated through selected case studies coming from vertical and sub-horizontal wells in carbonate reservoirs characterized by high heterogeneity. First, the MRGC has been carried out in order to obtain an alternative log-facies classification with an inherent textural meaning. Next, the WT-based algorithm provided a robust quantification of the secondary porosity contribution to total porosity, in terms of connected vugs, isolated vugs, fractures and matrix contribution rates. Finally, image log-facies classification and quantitative porosity partition have been integrated with production logs and pressure transient analyses to reconcile the obtained carbonate rock types with the effective fluid flows and the associated dynamic behavior at well scale. The presented novel methodology is deemed able to perform an automatic, objective and advanced interpretation of field-scale image log datasets, avoiding time-consuming conventional processes and inefficient standard analyses when the number of wells to be handled is large and/or in harsh circumstances. Moreover, secondary porosity can be proficiently identified, evaluated and also characterized from the dynamic standpoint, hence representing a valuable information for any 3D reservoir models.
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