An Analytical Relative Permeability Model Considering Flow Path Structural Characteristics for Gas-Liquid Two-Phase Flow in Shale Fracture

IF 3.2 3区 工程技术 Q1 ENGINEERING, PETROLEUM SPE Journal Pub Date : 2024-04-01 DOI:10.2118/219748-pa
Hong Pang, Duo-lin Wang, Tong Wu, Rui Wang, Xu Dai, Meng Lu, Zhejun Pan
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Abstract

Relative permeability models are essential in describing the multiphase fluid flow in reservoir rocks. Literature work has shown that the existing theoretical models of relative permeability cannot perfectly describe the two-phase flow experimental data in fractures because those models are mostly developed for porous media (such as sandstone) or proposed without fully taking the specific characteristics of two-phase flow into consideration. In this paper, we propose a theoretical two-phase flow relative permeability model based on the tortuous flow channels, considering the structural characteristics of two-phase flow in the fractures. This model considers that the gas and liquid flow through different channels of different shapes and sizes at the same time. The formula for two-phase relative permeability was derived from cubic law in fracture and Darcy’s law, with the influence of the slip effect of the gas phase also considered. The results from different models were compared using several series of experimental data. The model proposed in this paper has a better fit than the others for the raw experimental data. This study demonstrates that it is crucial to take the flow paths and distribution of the two phases into consideration to model the two-phase flow in fracture accurately. This work also found that the tortuosity of the gas channel at the irreducible liquid saturation has a negative effect on gas relative permeability but positive to liquid relative permeability. Moreover, the model demonstrates that the decrease in aperture leads to an increase in the gas relative permeability due to gas slippage, while the impact of gas slippage reduces under high pressure.
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考虑页岩裂缝中气液两相流的流道结构特征的相对渗透率分析模型
相对渗透率模型对于描述储层岩石中的多相流体流动至关重要。文献研究表明,现有的相对渗透率理论模型无法完美描述裂缝中的两相流实验数据,因为这些模型大多是针对多孔介质(如砂岩)建立的,或者是在没有充分考虑两相流具体特征的情况下提出的。本文考虑到裂缝中两相流的结构特征,提出了一种基于曲折流道的两相流相对渗透率理论模型。该模型考虑了气体和液体同时流经不同形状和大小的不同通道的情况。两相相对渗透率的计算公式是根据裂缝中的三次方定律和达西定律推导出来的,同时还考虑了气相滑移效应的影响。利用多个系列的实验数据对不同模型的结果进行了比较。本文提出的模型比其他模型更适合原始实验数据。这项研究表明,要对裂缝中的两相流动进行精确建模,必须考虑两相的流动路径和分布情况。这项研究还发现,在不可还原液体饱和度时,气体通道的迂回度对气体相对渗透率有负面影响,但对液体相对渗透率有正面影响。此外,该模型还证明,孔径减小会导致气体滑移导致气体相对渗透率增大,而在高压下气体滑移的影响会减小。
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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来源期刊
SPE Journal
SPE Journal 工程技术-工程:石油
CiteScore
7.20
自引率
11.10%
发文量
229
审稿时长
4.5 months
期刊介绍: Covers theories and emerging concepts spanning all aspects of engineering for oil and gas exploration and production, including reservoir characterization, multiphase flow, drilling dynamics, well architecture, gas well deliverability, numerical simulation, enhanced oil recovery, CO2 sequestration, and benchmarking and performance indicators.
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