Artificial Neural Network as a Method for Pore Pressure Prediction throughout the Field

D. Mylnikov, Viktor Nazdrachev, E. Korelskiy, Y. Petrakov, Alexey Sobolev
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Abstract

Geomechanical model construction is an essential part of field development processes planning. Building a correct pore pressure model is one of the key tasks within the process of geomechanical model construction. The traditional approach to pore pressure modeling in oil and gas industry is based on the empirical analytical models usage. This approach has a number of disadvantages, which often lead to the constructed pore pressure model to be incorrect. The authors highlight two most significant disadvantages of the traditional approach: 1) a priori discrepancy between the empirical model and fundamental physical laws; 2) the impossibility of selecting such a combination of parameters of the standard analytical model, for which the resulting pressure corresponds to the entire set of actual field data (pore pressure measurements). This paper proposes a methodology for assessing the pore pressure distribution across the field, based on the usage of neural network technology. This approach potentially eliminates both of the above disadvantages from the pore pressure model building.
人工神经网络在全油田孔隙压力预测中的应用
地质力学模型的建立是油田开发过程规划的重要组成部分。建立正确的孔隙压力模型是地质力学模型构建过程中的关键任务之一。传统的油气工业孔隙压力建模方法是基于经验分析模型的使用。这种方法有许多缺点,往往导致所构建的孔隙压力模型不正确。作者强调了传统方法的两个最显著的缺点:1)经验模型与基本物理定律之间的先验差异;2)不可能选择这样的标准分析模型的参数组合,其结果压力对应于整个现场实际数据(孔隙压力测量)。本文提出了一种基于神经网络技术的方法来评估整个油田的孔隙压力分布。这种方法潜在地消除了孔隙压力模型建立的上述两个缺点。
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