人工智能辅助复杂碳酸盐岩储层地质相分类

Klemens Katterbauer, A. Marsala, Yanhui Zhang, I. Hoteit
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引用次数: 0

摘要

复杂储层相分类是表征储层非均质性、确定储层物性和流体流动模式的重要步骤。因此,通过测井和相关的储层测量自动、可靠地预测岩石相,对于及时获得准确的储层特征,为油田开发提供必要条件。在这项研究中,我们提出了一种基于测井测量的人工智能(AI)辅助的复杂储层岩相分类框架。我们将人工智能辅助分类工作流程概括为五个主要步骤,包括数据收集、预处理、特征工程、模型学习周期和模型预测。特别是,我们专注于使用深度学习技术卷积神经网络自动化相分类过程,该技术在许多涉及模式识别和分类的科学应用中表现出色。对于性能分析,我们还将开发的模型与支持向量机方法进行了比较。我们对从阿尔伯塔省一个真实复杂油藏获得的大型开放数据集进行了人工智能辅助工作流程的研究。该数据集包含了数千口井的测井数据。实验结果表明,所开发的相自动分类框架具有较高的效率和可扩展性,具有合理的分类精度。当需要快速预测相以支持实时决策时,这尤其有用。ai辅助框架易于实施,并可扩展到其他油藏应用中。
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Artificial Intelligence Aided Geologic Facies Classification in Complex Carbonate Reservoirs
Facies classification for complex reservoirs is an important step in characterizing reservoir heterogeneity and determining reservoir properties and fluid flow patterns. Predicting rock facies automatically and reliably from well log and associated reservoir measurements is therefore essential to obtain accurate reservoir characterization for field development in a timely manner. In this study, we present an artificial intelligence (AI) aided rock facies classification framework for complex reservoirs based on well log measurements. We generalize the AI-aided classification workflow into five major steps including data collection, preprocessing, feature engineering, model learning cycle, and model prediction. In particular, we automate the process of facies classification focusing on the use of a deep learning technique, convolutional neural network, which has shown outstanding performance in many scientific applications involving pattern recognition and classification. For performance analysis, we also compare the developed model with a support vector machine approach. We examine the AI-aided workflow on a large open dataset acquired from a real complex reservoir in Alberta. The dataset contains a collection of well-log measurements over a couple of thousands of wells. The experimental results demonstrate the high efficiency and scalability of the developed framework for automatic facies classification with reasonable accuracy. This is particularly useful when quick facies prediction is necessary to support real-time decision making. The AI-aided framework is easily implementable and expandable to other reservoir applications.
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