Relative permeability hysteresis and residual trapping in rough-walled fractures: An experimental investigation of the effects of flow rate and saturation history using the steady-state approach

IF 4 2区 环境科学与生态学 Q1 WATER RESOURCES
Mohammed Eliebid, Abdelhalim Mohamed, Maziar Arshadi, Yanbin Gong, Mohammad Piri
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引用次数: 0

Abstract

In this work, we use the steady-state measurement technique to characterize two-phase brine-mineral oil relative permeabilities and residual trapping in water-wet rough-walled fractures induced in Eagle Ford shale rock samples. Furthermore, we systematically probe the effects of flow rate and saturation history on these properties. The influences of capillary, gravity, and viscous forces on fracture flow stability and two-phase relative permeabilities are also investigated under different flow conditions represented by varying capillary and Bond numbers. The results demonstrated significant phase interference for the oil–brine flow in rough-walled fractures, which renders the commonly used x-curve and Corey models inadequate to represent the steady-state oil–brine relative permeabilities measured in this study. The saturation history influenced the relative permeabilities of both the wetting (brine) and non-wetting (mineral oil) fluid phases and the residual saturations during waterflooding. Generally, the residual oil saturation and oil relative permeability decreased with the decline in the initial oil saturation. Furthermore, at similar brine saturations, the oil relative permeability during waterflooding improved as the total flow rate increased. This increase was attributed to the high mobility of the connected oil phase within the fracture and the water-wet characteristics of the fracture walls. The brine relative permeability trend followed that of its counterpart measured under the capillary-dominated regime and only exceeded that at very high brine saturations. At higher flow rates, the residual oil trapping was significantly reduced due to the higher efficiency of the viscous-dominated displacement process. The results suggest that a high total flow rate in water-wet fractures maintains a high non-wetting phase relative permeability over a wide range of water-cut values and reduces the residual non-wetting phase saturation in the fracture at the end of waterflooding. Finally, improved correlation models were devised based on a subset of experimental results generated for fractures with various conductivities. They provide a more accurate description of fractures’ relative permeabilities compared to commonly used models. These correlations were successfully tested against relative permeability data measured for a fracture excluded during the fitting process.

粗糙壁裂缝中的相对渗透滞后和残留捕集:使用稳态方法对流速和饱和历史影响的实验研究
在这项工作中,我们使用稳态测量技术来描述伊格尔福特页岩样本中诱发的水湿粗糙壁裂缝中的两相盐水-矿物油相对渗透率和残留捕集。此外,我们还系统地探究了流速和饱和历史对这些特性的影响。在毛细管数和邦德数不同的流动条件下,我们还研究了毛细管力、重力和粘性力对裂缝流动稳定性和两相相对渗透率的影响。研究结果表明,粗糙壁断裂中的油-碱流动存在明显的相位干扰,这使得常用的 x 曲线和科里模型不足以代表本研究中测得的稳态油-碱相对渗透率。饱和历史影响了润湿(盐水)和非润湿(矿物油)流体相的相对渗透率以及注水过程中的残余饱和度。一般来说,剩余油饱和度和油相对渗透率随着初始油饱和度的下降而降低。此外,在盐水饱和度相似的情况下,随着总流量的增加,注水过程中的石油相对渗透率也有所提高。这种增加归因于连通油相在裂缝内的高流动性以及裂缝壁的水湿特性。盐水相对渗透率的变化趋势与毛细管主导机制下测得的相对渗透率变化趋势一致,只有在盐水饱和度非常高时才会超过毛细管主导机制下测得的相对渗透率。在流速较高的情况下,由于粘性主导的置换过程效率较高,残余油截留明显减少。结果表明,水湿断裂中的高总流速可在较大的水切割值范围内保持较高的非湿相相对渗透率,并在注水结束时降低断裂中残留的非湿相饱和度。最后,根据不同导电率裂缝的实验结果子集设计了改进的相关模型。与常用模型相比,这些模型能更准确地描述裂缝的相对渗透率。在拟合过程中,这些相关模型成功地与为排除的裂缝测量的相对渗透率数据进行了测试。
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来源期刊
Advances in Water Resources
Advances in Water Resources 环境科学-水资源
CiteScore
9.40
自引率
6.40%
发文量
171
审稿时长
36 days
期刊介绍: Advances in Water Resources provides a forum for the presentation of fundamental scientific advances in the understanding of water resources systems. The scope of Advances in Water Resources includes any combination of theoretical, computational, and experimental approaches used to advance fundamental understanding of surface or subsurface water resources systems or the interaction of these systems with the atmosphere, geosphere, biosphere, and human societies. Manuscripts involving case studies that do not attempt to reach broader conclusions, research on engineering design, applied hydraulics, or water quality and treatment, as well as applications of existing knowledge that do not advance fundamental understanding of hydrological processes, are not appropriate for Advances in Water Resources. Examples of appropriate topical areas that will be considered include the following: • Surface and subsurface hydrology • Hydrometeorology • Environmental fluid dynamics • Ecohydrology and ecohydrodynamics • Multiphase transport phenomena in porous media • Fluid flow and species transport and reaction processes
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