测井资料人工智能分析的井间饱和度预测

D. Kovalev, S. Safonov, Klemens Katterbauer, A. Marsala
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引用次数: 2

摘要

通过部署先进的人工智能(AI)算法,测井分析是井眼地质研究的关键。通过使用现代人工智能工具分析不同的井特征,可以提高精度估计井间饱和度,勾勒出储层井间区域的主要流体通道和饱和度扩展。现代深度学习和人工智能方法的发展使分析人员能够根据近井测井地质层的观测数据预测井间饱和度。这项工作解决了使用深度神经网络架构和张量回归模型来预测井间饱和度的其他井特征,如电阻率和孔隙度,以及局部近井饱和度。从精度和计算效率两方面对几种算法进行了比较。基于井的几何形状、半径和多种采样技术,对模型参数进行了敏感性分析。此外,分析了局部饱和先验知识对模型精度的影响。一个包含井间孔隙度、电阻率和饱和度数据的储层箱模型被用于验证和测试人工智能算法。使用Python 3.6编程语言开发原型。
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Interwell Saturation Prediction by Artificial Intelligence Analysis of Well Logs
Well log analysis, through deploying advanced artificial intelligence (AI) algorithms, is key for wellbore geological studies. By analyzing different well characteristics with modern AI tools it becomes possible to estimate interwell saturation with improved accuracy, outlining primary fluid channels and saturation propagations in the reservoirs interwell region. The development of modern deep learning and artificial intelligence methods allows analysts to predict interwell saturation as a function of observed data in the near wellbore logged geological layers. This work addresses the use of deep neural network architectures as well as tensor regression models for predicting interwell saturation from other well characteristics, such as resistivity and porosity, as well as local near-well saturation. Several algorithms are compared in terms of both accuracy and computational efficiency. Sensitivity analysis for model parameters is carried out, which is based on the wells’ geometry, radius, and multiple sampling techniques. Additionally, the impact of local saturation prior knowledge on the model accuracy is analyzed. A reservoir box model encompassing volumetric interwell porosity, resistivity and saturation data was utilized for the validating and testing of the AI algorithms. A prototype is developed with Python 3.6 programming language.
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