不同孔隙结构类型的数字岩石模型建模和岩石物理性质:改进的工作流程

IF 6.9 1区 工程技术 Q2 ENERGY & FUELS
Xiaobin Li, Wei Wei, Yuxuan Xia, Lei Wang, Jianchao Cai
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引用次数: 0

摘要

孔隙结构是影响多孔材料物性的重要因素,了解其作用机理和规律在地球科学和石油工程领域具有重要意义。然而,准确理解和量化孔隙结构与有效性质之间的关系仍然是一个挑战。本文改进了工作流程,重点研究孔隙结构对物性的影响。首先,提出了一种基于过程和形态的混合建模方法,以重建具有不同孔隙结构类型的三维模型。然后,比较了这些模型的孔隙结构特征和差异。最后,在重建模型的基础上,探讨了孔隙结构对物性(渗透率和弹性)影响的变化规律和孔隙尺度机制。建立了颗粒充填模型中孔隙结构参数与渗透/弹性参数的关系模型。在三种基于形态的重建模型中,探讨了孔隙结构演化对渗透率/弹性的影响及其微观机制。孔隙结构对弹性参数(体模量、剪切模量、纵波速度和横波速度)的影响程度进行了量化,分别达到29.54%、51.40%、18.94%和23.18%。本工作形成了在微观尺度上探索孔隙结构与岩石物性关系的工作流程,为理解多孔介质中复杂的物性提供了更多思路和参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Modeling and petrophysical properties of digital rock models with various pore structure types: An improved workflow

Modeling and petrophysical properties of digital rock models with various pore structure types: An improved workflow
Abstract Pore structure is a crucial factor affecting the physical properties of porous materials, and understanding the mechanisms and laws of these effects is of great significance in the fields of geosciences and petroleum engineering. However, it remains a challenge to accurately understand and quantify the relationship between pore structures and effective properties. This paper improves a workflow to focus on investigating the effect of pore structure on physical properties. First, a hybrid modeling approach combining process-based and morphology-based methods is proposed to reconstruct 3D models with diverse pore structure types. Then, the characteristics and differences in pore structure in these models are compared. Finally, the variation laws and pore-scale mechanisms of the influence of pore structure on physical properties (permeability and elasticity) are discussed based on the reconstructed models. The relationship models between pore structure parameters and permeability/elastic parameters in the grain packing model are established. The effect of pore structure evolution on permeability/elasticity and the microscopic mechanism in three types of morphology-based reconstruction models are explored. The influence degree of pore structure on elastic parameters (bulk modulus, shear modulus, P-wave velocity, and S-wave velocity) is quantified, reaching 29.54%, 51.40%, 18.94%, and 23.18%, respectively. This work forms a workflow for exploring the relationship between pore structures and petrophysical properties at the microscopic scale, providing more ideas and references for understanding the complex physical properties in porous media.
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来源期刊
CiteScore
11.40
自引率
8.40%
发文量
678
审稿时长
12 weeks
期刊介绍: The International Journal of Coal Science & Technology is a peer-reviewed open access journal that focuses on key topics of coal scientific research and mining development. It serves as a forum for scientists to present research findings and discuss challenging issues in the field. The journal covers a range of topics including coal geology, geochemistry, geophysics, mineralogy, and petrology. It also covers coal mining theory, technology, and engineering, as well as coal processing, utilization, and conversion. Additionally, the journal explores coal mining environment and reclamation, along with related aspects. The International Journal of Coal Science & Technology is published with China Coal Society, who also cover the publication costs. This means that authors do not need to pay an article-processing charge.
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