Improved porosity estimation in complex carbonate reservoirs using hybrid CRNN deep learning model

IF 2.7 4区地球科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Earth Science Informatics Pub Date : 2024-07-27 DOI:10.1007/s12145-024-01419-y

Amirreza Mehrabi, Majid Bagheri, Majid Nabi Bidhendi, Ebrahim Biniaz Delijani, Mohammad Behnoud

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Abstract

This paper aims to improve porosity estimation in complex carbonate reservoirs by proposing a hybrid CRNN deep learning model. The objectives include addressing the challenges associated with porosity estimation in heterogeneous carbonate reservoirs and evaluating the performance of the CRNN model in accurately predicting porosity based on well-log data. The overall approach involves integrating CNN and RNN architectures within the CRNN model to effectively extract and combine relevant information from well logs. The model is trained using a dataset consisting of well-log and core analysis data from an Iranian carbonate oil field. Well-log data is used as the input including GR, DT, RHOB, LLD, and NPHI for model training, while core data is utilized for model validation. The model's performance is compared with the traditional MLP model in terms of accuracy and generalization. The proposed hybrid CRNN model demonstrates superior performance in predicting porosity values at new locations where only well-log data are available. It outperforms conventional neural network models, as evidenced by the significant improvement in the correlation coefficient between the model predictions and core data (from 0.67 for the MLP model to 0.98 for the CRNN model). The CRNN model's ability to capture complex spatial dependencies within heterogeneous carbonate reservoirs leads to more accurate porosity estimations and valuable insights into reservoir characterization. This paper presents novel and additive information to the existing body of literature in the petroleum industry. The hybrid CRNN model, combining CNN and RNN architectures, offers a unique approach to porosity estimation in complex carbonate reservoirs. By effectively integrating spatial and temporal patterns from well-log data, the model demonstrates higher accuracy rates and improved generalization capabilities. The findings contribute to the state of knowledge by providing a robust and efficient tool for accurate porosity prediction, which can assist in reservoir characterization and enhance decision-making in the petroleum industry.

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利用混合 CRNN 深度学习模型改进复杂碳酸盐岩储层的孔隙度估算

本文旨在通过提出一种混合 CRNN 深度学习模型来改进复杂碳酸盐岩储层的孔隙度估算。目标包括应对与异质碳酸盐岩储层孔隙度估算相关的挑战，以及评估 CRNN 模型在基于井记录数据准确预测孔隙度方面的性能。整体方法包括在 CRNN 模型中集成 CNN 和 RNN 架构，以有效提取和组合测井记录中的相关信息。该模型使用伊朗碳酸盐岩油田的井记录和岩心分析数据集进行训练。井记录数据作为输入，包括 GR、DT、RHOB、LLD 和 NPHI，用于模型训练，而岩心数据则用于模型验证。该模型在准确性和泛化方面与传统的 MLP 模型进行了性能比较。所提出的混合 CRNN 模型在预测仅有井记录数据的新地点的孔隙度值方面表现出色。模型预测值与岩心数据之间的相关系数显著提高（从 MLP 模型的 0.67 提高到 CRNN 模型的 0.98），这证明 CRNN 模型优于传统的神经网络模型。CRNN 模型能够捕捉异质碳酸盐岩储层中复杂的空间依赖关系，从而能够更准确地估算孔隙度，并为储层特征描述提供有价值的见解。本文为石油行业的现有文献提供了新颖的补充信息。混合 CRNN 模型结合了 CNN 和 RNN 架构，为复杂碳酸盐岩储层的孔隙度估算提供了一种独特的方法。通过有效整合井记录数据的空间和时间模式，该模型显示出更高的准确率和更强的泛化能力。这些研究结果为准确预测孔隙度提供了一个强大而高效的工具，有助于油藏特征描述和石油行业的决策制定。

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来源期刊

Earth Science Informatics COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-GEOSCIENCES, MULTIDISCIPLINARY

CiteScore

4.60

自引率

3.60%

发文量

157

审稿时长

4.3 months

期刊介绍： The Earth Science Informatics [ESIN] journal aims at rapid publication of high-quality, current, cutting-edge, and provocative scientific work in the area of Earth Science Informatics as it relates to Earth systems science and space science. This includes articles on the application of formal and computational methods, computational Earth science, spatial and temporal analyses, and all aspects of computer applications to the acquisition, storage, processing, interchange, and visualization of data and information about the materials, properties, processes, features, and phenomena that occur at all scales and locations in the Earth system’s five components (atmosphere, hydrosphere, geosphere, biosphere, cryosphere) and in space (see "About this journal" for more detail). The quarterly journal publishes research, methodology, and software articles, as well as editorials, comments, and book and software reviews. Review articles of relevant findings, topics, and methodologies are also considered.