Machine Learning Application of Two-Dimensional Fracture Properties Estimation

Ardian Nurcahya, Aldenia Alexandra, Satria Zidane Zainuddin, Fatimah Az-Zahra, M. I. Khoirul Haq, Irwan Ary Dharmawan
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引用次数: 0

Abstract

Fractures are substantial contributors to solute transport sedimentary systems that form pathways. The pathway formed in a fracture has two physical parameters, there are mean aperture and surface roughness. Mean aperture is the thickness of the pathway that the fluid will pass through, and surface roughness is the roughness of the fracture pathway. The two physical parameters of the fracture are important to determine since they affect the permeability value in petroleum reservoir analysis. We developed a machine learning algorithm based on the Convolutional Neural Network (CNN) to predict those two parameters. Furthermore, image processing analysis is performed to generate the datasets. The results show that the CNN algorithm shows good agreement with the reference results. In addition, the algorithms showed efficient performance in terms of computational time. CNN is a type of deep neural designed to perform analysis on multi-channel images that can classify fracture geometry. The best model was determined using a benchmark dataset with a CNN model provided by Keras. The results of experiments conducted on fracture geometry images show that the machine learning model created is able to predict the mean aperture and surface roughness values.
二维断裂特性估计的机器学习应用
裂缝是形成通道的溶质运移沉积体系的重要贡献者。裂缝中形成的通道有两个物理参数,即平均孔径和表面粗糙度。平均孔径为流体将通过通道的厚度,表面粗糙度为裂缝通道的粗糙度。在油藏分析中,裂缝的这两个物性参数影响到渗透率值,因此确定裂缝的这两个物性参数非常重要。我们开发了一种基于卷积神经网络(CNN)的机器学习算法来预测这两个参数。此外,还进行了图像处理分析以生成数据集。结果表明,CNN算法与参考结果吻合较好。此外,该算法在计算时间方面表现出高效的性能。CNN是一种深度神经网络,用于对多通道图像进行分析,可以对裂缝几何形状进行分类。使用Keras提供的CNN模型的基准数据集确定最佳模型。对裂缝几何图像进行的实验结果表明,所建立的机器学习模型能够预测平均孔径和表面粗糙度值。
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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