Application of supervised machine learning to predict the enhanced gas recovery by CO2 injection in shale gas reservoirs

IF 4.2 Q2 ENERGY & FUELS Petroleum Pub Date : 2024-03-01 DOI:10.1016/j.petlm.2023.02.003
Moataz Mansi, Mohamed Almobarak, Jamiu Ekundayo, Christopher Lagat, Quan Xie
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Abstract

The technique of Enhanced Gas Recovery by CO2 injection (CO2-EGR) into shale reservoirs has brought increasing attention in the recent decade. CO2-EGR is a complex geophysical process that is controlled by several parameters of shale properties and engineering design. Nevertheless, more challenges arise when simulating and predicting CO2/CH4 displacement within the complex pore systems of shales. Therefore, the petroleum industry is in need of developing a cost-effective tool/approach to evaluate the potential of applying CO2 injection to shale reservoirs. In recent years, machine learning applications have gained enormous interest due to their high-speed performance in handling complex data and efficiently solving practical problems. Thus, this work proposes a solution by developing a supervised machine learning (ML) based model to preliminary evaluate CO2-EGR efficiency. Data used for this work was drawn across a wide range of simulation sensitivity studies and experimental investigations. In this work, linear regression and artificial neural networks (ANNs) implementations were considered for predicting the incremental enhanced CH4. Based on the model performance in training and validation sets, our accuracy comparison showed that (ANNs) algorithms gave 15% higher accuracy in predicting the enhanced CH4 compared to the linear regression model. To ensure the model is more generalizable, the size of hidden layers of ANNs was adjusted to improve the generalization ability of ANNs model. Among ANNs models presented, ANNs of 100 hidden layer size gave the best predictive performance with the coefficient of determination (R2) of 0.78 compared to the linear regression model with R2 of 0.68. Our developed ML-based model presents a powerful, reliable and cost-effective tool which can accurately predict the incremental enhanced CH4 by CO2 injection in shale gas reservoirs.

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应用监督式机器学习预测页岩气藏注入二氧化碳提高天然气采收率的效果
近十年来,向页岩储层注入二氧化碳提高天然气采收率(CO2-EGR)的技术日益受到关注。CO2-EGR 是一个复杂的地球物理过程,受页岩性质和工程设计的多个参数控制。然而,在模拟和预测页岩复杂孔隙系统中的 CO2/CH4 位移时,会遇到更多挑战。因此,石油行业需要开发一种经济有效的工具/方法,以评估在页岩储层中注入二氧化碳的潜力。近年来,机器学习应用因其在处理复杂数据和高效解决实际问题方面的高速性能而备受关注。因此,本研究提出了一种解决方案,即开发一种基于监督机器学习(ML)的模型,以初步评估二氧化碳-EGR 的效率。这项工作使用的数据来自广泛的模拟灵敏度研究和实验调查。在这项工作中,考虑采用线性回归和人工神经网络 (ANN) 来预测增量增强的甲烷排放量。根据模型在训练集和验证集中的表现,我们的准确性比较显示,与线性回归模型相比,人工神经网络算法预测增强型 CH4 的准确性高出 15%。为了确保模型具有更强的泛化能力,我们调整了(ANNs)隐层的大小,以提高(ANNs)模型的泛化能力。与线性回归模型 0.68 的判定系数(R2)相比,100 个隐层大小的 ANNs 模型具有最佳的预测性能,判定系数(R2)为 0.78。我们开发的基于 ML 的模型是一种功能强大、可靠且经济高效的工具,可以准确预测页岩气藏注入 CO2 所增强的 CH4 增量。
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来源期刊
Petroleum
Petroleum Earth and Planetary Sciences-Geology
CiteScore
9.20
自引率
0.00%
发文量
76
审稿时长
124 days
期刊介绍: Examples of appropriate topical areas that will be considered include the following: 1.comprehensive research on oil and gas reservoir (reservoir geology): -geological basis of oil and gas reservoirs -reservoir geochemistry -reservoir formation mechanism -reservoir identification methods and techniques 2.kinetics of oil and gas basins and analyses of potential oil and gas resources: -fine description factors of hydrocarbon accumulation -mechanism analysis on recovery and dynamic accumulation process -relationship between accumulation factors and the accumulation process -analysis of oil and gas potential resource 3.theories and methods for complex reservoir geophysical prospecting: -geophysical basis of deep geologic structures and background of hydrocarbon occurrence -geophysical prediction of deep and complex reservoirs -physical test analyses and numerical simulations of reservoir rocks -anisotropic medium seismic imaging theory and new technology for multiwave seismic exploration -o theories and methods for reservoir fluid geophysical identification and prediction 4.theories, methods, technology, and design for complex reservoir development: -reservoir percolation theory and application technology -field development theories and methods -theory and technology for enhancing recovery efficiency 5.working liquid for oil and gas wells and reservoir protection technology: -working chemicals and mechanics for oil and gas wells -reservoir protection technology 6.new techniques and technologies for oil and gas drilling and production: -under-balanced drilling/gas drilling -special-track well drilling -cementing and completion of oil and gas wells -engineering safety applications for oil and gas wells -new technology of fracture acidizing
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