Unsupervised machine learning technique for classifying production zones in unconventional reservoirs

Karrar A. Abbas , Amir Gharavi , Noor A. Hindi , Mohamed Hassan , Hala Y. Alhosin , Jebraeel Gholinezhad , Hesam Ghoochaninejad , Hossein Barati , James Buick , Paria Yousefi , Reham Alasmar , Salam Al-Saegh
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Abstract

Significant amounts of information are rapidly increasing in bulk as a consequence of the rapid development of unconventional tight reservoirs. The geomechanical and petrophysical characteristics of the wellbore rocks influence the sweet and non-sweet areas of tight unconventional reservoirs. Using standard approaches, such as data from cores and commercial software, it is difficult and costly to locate productive zones. Furthermore, it is difficult to apply these techniques to wells that do not have cores. This study presents a less costly way for the systematic and objective detection of productive and non-productive zones via well-log data using clustering unsupervised and supervised machine learning algorithms. The method of cluster analysis has been used in order to classify the productive and non-productive reservoir rock groups in the tight reservoir. This was accomplished by assessing the variability of the reservoir characteristics data that are forecasted by looking at the dimensions of the well logs. The Support vector machine as a supervised machine learning algorithm is then used to evaluate the classification accuracy of the unsupervised algorithms based on the clustering labels. The application made use of approximately ten different variables of rock characteristics including zonal depth, effective porosity, permeability, shale volume, water saturation, total organic carbon, young's modulus, Poisson's ratio, brittleness index, and pore size. The findings show that both clustering techniques identified the sweet areas with high accuracy and were less time-consuming.

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非常规油藏生产区划分的无监督机器学习技术
由于非常规致密储层的快速开发,大量信息正在迅速大量增加。井筒岩石的地质力学和岩石物理特征影响致密非常规储层的甜区和非甜区。使用标准方法,如核心数据和商业软件,定位生产区既困难又昂贵。此外,很难将这些技术应用于没有岩心的井。这项研究提出了一种成本较低的方法,通过使用聚类无监督和监督机器学习算法的测井数据,系统客观地检测生产区和非生产区。应用聚类分析方法对致密储层中的生产和非生产储层岩石群进行了分类。这是通过评估储层特征数据的可变性来实现的,这些数据是通过查看测井图的尺寸来预测的。然后使用支持向量机作为一种有监督的机器学习算法来评估基于聚类标签的无监督算法的分类精度。该应用程序利用了大约十个不同的岩石特征变量,包括地带深度、有效孔隙度、渗透率、页岩体积、含水饱和度、总有机碳、杨氏模量、泊松比、脆性指数和孔径。研究结果表明,这两种聚类技术都能高精度地识别甜区,而且耗时较少。
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