Reconstruction of the Reservoir Fine Structure by Using Scattering Attributes

Day 2 Wed, September 22, 2021 Pub Date : 2021-09-15 DOI:10.2118/206083-ms

V. Cheverda, V. Lisitsa, M. Protasov, G. Reshetova, A. Ledyaev, D. Petrov, V. Shilikov

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Abstract

To develop the optimal strategy for developing a hydrocarbon field, one should know in fine detail its geological structure. More and more attention has been paid to cavernous-fractured reservoirs within the carbonate environment in the last decades. This article presents a technology for three-dimensional computing images of such reservoirs using scattered seismic waves. To verify it, we built a particular synthetic model, a digital twin of one of the licensed objects in the north of Eastern Siberia. One distinctive feature of this digital twin is the representation of faults not as some ideal slip surfaces but as three-dimensional geological bodies filled with tectonic breccias. To simulate such breccias and the geometry of these bodies, we performed a series of numerical experiments based on the discrete elements technique. The purpose of these experiments is the simulation of the geomechanical processes of fault formation. For the digital twin constructed, we performed full-scale 3D seismic modeling, which made it possible to conduct fully controlled numerical experiments on the construction of wave images and, on this basis, to propose an optimal seismic data processing graph.

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利用散射属性重建油藏精细结构

为了制定开发油气田的最佳策略，必须详细了解油气田的地质构造。近几十年来，溶洞-裂缝型碳酸盐岩储层越来越受到人们的关注。本文提出了一种利用散射地震波计算此类储层三维图像的技术。为了验证这一点，我们建立了一个特殊的合成模型，一个东西伯利亚北部授权物体的数字双胞胎。这个数字孪生体的一个显著特征是，它不是将断层表示为某种理想的滑动面，而是将断层表示为充满构造角砾岩的三维地质体。为了模拟这种角砾岩和这些体的几何形状，我们进行了一系列基于离散元技术的数值实验。这些实验的目的是模拟断层形成的地质力学过程。对于构建的数字孪生体，我们进行了全尺寸的三维地震建模，从而可以对波形图像的构建进行完全可控的数值实验，并在此基础上提出最优的地震数据处理图。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 2 Wed, September 22, 2021

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