Understanding the Facies Architecture of a Fluvial-Aeolian of Tensleep Formation Using a Machine Learning Approach

L. Hardanto
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Abstract

Many aeolian dune reservoirs are built from various dune types, and many may remain unrecognized in subsurface work. The challenge is to tackle the complex geological architecture of dune types within the Teapot Dome dataset caused by wind and water erosion. Machine Learning (ML) helps predict facies architecture away from boreholes using seismic attributes and facies logs. It provides a detailed understanding of the facies architecture analysis of the relationship between the fluvial–aeolian environment in Tensleep Formation based on seismic and well data. It allows operators to wisely assess their hydrocarbon reservoir, improve safety, and maximize oil and gas production investment. The data from the Teapot Dome field (Naval Petroleum Reserve No.3 - NPR-3) provides a good testing ground for Machine Learning, as it is easy to validate and prove its value. This study will show how the ML supervised learning method incorporating Neural Network Seismic Inversion (NNSI) can successfully create porosity log and facies volumes. Moreover, unsupervised learning using Multi-Resolution Graph-based clustering (MRGC) can be used to classify the facies logs. NNSI has 0.963 for the cross-correlation coefficients for all wells. The ML approach was used to help recognize the type of aeolian dune reservoirs in the subsurface and correlate the well log and facies volumes. In addition, ML allowed the distinct sequences and reconstruction of their depositional history in the Tensleep Formation. This study also refers briefly to other examples of fluvial-aeolian facies architecture worldwide. It successfully found the ancient model in an existing modern fluvial-aeolian environment, revealing hidden information about facies architecture based on the geometrical shape of geobodies in the oil-producing reservoir in the Tensleep Formation.
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利用机器学习方法了解Tensleep地层河流风成物的相结构
许多风成沙丘水库是由各种类型的沙丘建成的,其中许多可能在地下工作中仍未被识别。挑战在于解决由风和水侵蚀引起的茶壶丘数据集中沙丘类型的复杂地质结构。机器学习(ML)可以利用地震属性和相测井来预测井眼以外的相结构。在地震和井资料的基础上,对十睡相组河流-风成环境关系的相构型分析有了较详细的认识。它允许作业者明智地评估其油气储层,提高安全性,并最大限度地提高油气生产投资。来自Teapot Dome油田(Naval Petroleum Reserve No.3 - NPR-3)的数据为机器学习提供了一个很好的试验场,因为它很容易验证和证明其价值。该研究将展示结合神经网络地震反演(NNSI)的机器学习监督学习方法如何成功创建孔隙度测井和相体积。此外,采用基于多分辨率图聚类(MRGC)的无监督学习方法可以对相测井进行分类。所有井的互相关系数NNSI为0.963。ML方法用于帮助识别地下风成沙丘储层的类型,并将测井曲线和相体积相关联。此外,ML还允许在Tensleep组中划分不同的层序并重建其沉积历史。本研究还简要介绍了世界范围内其他河流-风成相建筑的例子。成功地在现有的现代河流-风成环境中发现了古模式,揭示了基于十睡得组产油层中地质体几何形状的相构型隐藏信息。
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