Machine Learning Application to CO2 Foam Rheology

J. Iskandarov, G. Fanourgakis, W. Alameri, G. Froudakis, G. Karanikolos
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引用次数: 0

Abstract

Conventional foam modelling techniques require tuning of too many parameters and long computational time in order to provide accurate predictions. Therefore, there is a need for alternative methodologies for the efficient and reliable prediction of the foams’ performance. Foams are susceptible to various operational conditions and reservoir parameters. This research aims to apply machine learning (ML) algorithms to experimental data in order to correlate important affecting parameters to foam rheology. In this way, optimum operational conditions for CO2 foam enhanced oil recovery (EOR) can be determined. In order to achieve that, five different ML algorithms were applied to experimental rheology data from various experimental studies. It was concluded that the Gradient Boosting (GB) algorithm could successfully fit the training data and give the most accurate predictions for unknown cases.
机器学习在CO2泡沫流变学中的应用
传统的泡沫建模技术需要调整太多的参数和较长的计算时间,以提供准确的预测。因此,需要一种替代的方法来有效和可靠地预测泡沫的性能。泡沫易受各种操作条件和储层参数的影响。本研究旨在将机器学习(ML)算法应用于实验数据,以便将重要的影响参数与泡沫流变学相关联。通过这种方法,可以确定CO2泡沫提高采收率(EOR)的最佳操作条件。为了实现这一目标,我们将五种不同的ML算法应用于来自各种实验研究的实验流变学数据。结果表明,梯度增强(Gradient Boosting, GB)算法能够成功拟合训练数据,并对未知情况给出最准确的预测。
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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