A numerical investigation to assess changes to displacement front and by-passed zones employing kinetic interface-sensitive tracer

IF 3.5 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Journal of contaminant hydrology Pub Date : 2024-09-13 DOI:10.1016/j.jconhyd.2024.104435
H. Abdullah , H. Gao , M. Sauter , A. Tatomir
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Abstract

An important aspect in groundwater remediation is to understand changes of multiphase fluid front morphology and stagnant regions on macro scale. However, the prediction of those changes during two-phase flow remains a challenging task due to the interplay of various physical factors. Recent laboratory experiments have demonstrated tracers' ability to predict deformation in the front of a two-phase flow system by utilizing a new reactive tracer known as, the kinetic interface sensitive tracer (KIS). This research employs a reactive transport model coupled with a macro-scale two-phase flow model to numerically analyse how viscosity ratio, capillary number, and heterogeneities on the tracer's signal and its impact the frontal deformation. One homogeneous and two heterogeneous types of porous media are considered. The background porous medium is a fine-grained, low-permeability medium, with a coarser, high-permeability lenses, generating heterogeneous material properties. The high-permeability lenses account for 25 % of the total model area and are arranged in either periodic or random patterns. The findings are evaluated using four parameters (effective front length, swept area, front roughness, and transition zone length). The flow patterns dominating the shape of the front are characterized by the viscous and capillary forces i.e. capillary number and the viscosity ratio between the two fluids. The results show that changes in flow regimes can be quantified using effective front length, thus employing the effective front length the viscous fingering regions can be quantified. Furthermore, front roughness and transition zone length are extracted and their relevance to the by-passed zones is presented. The slope of the reactive KIS tracer breakthrough curve, plotted on a phase diagram, can also be used to predict the existence of the by-passed zones for a low viscosity ratio. Finally, changes in front roughness and transition zone length induced by the inclusions are correlated to the slope of the KIS tracer BTC. The findings of this study can contribute to a better understanding of the impact of different flow regimes on the KIS tracer breakthrough signals and the linkages between the tracer signals and the front sizes.

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利用动力学界面敏感示踪剂评估位移前沿和旁通区变化的数值研究
地下水修复的一个重要方面是了解多相流体前沿形态和停滞区域在宏观尺度上的变化。然而,由于各种物理因素的相互作用,预测两相流动过程中的这些变化仍然是一项具有挑战性的任务。最近的实验室实验证明了示踪剂预测两相流系统前沿变形的能力,该示踪剂是一种新型的反应性示踪剂,被称为动力学界面敏感示踪剂(KIS)。这项研究利用反应性传输模型与宏观尺度两相流模型相结合,对粘度比、毛细管数和异质性如何影响示踪剂信号及其对前端变形的影响进行了数值分析。研究考虑了一种均质和两种异质多孔介质。背景多孔介质是一种细粒度、低渗透性介质,具有较粗粒度、高渗透性透镜体,产生异质材料特性。高渗透透镜占模型总面积的 25%,以周期或随机模式排列。研究结果通过四个参数(有效前沿长度、横扫面积、前沿粗糙度和过渡区长度)进行评估。主导前沿形状的流动模式由粘滞力和毛细力(即毛细管数和两种流体之间的粘度比)决定。结果表明,流态的变化可以用有效前沿长度来量化,因此可以用有效前沿长度来量化粘性指状区域。此外,还提取了前沿粗糙度和过渡区长度,并介绍了它们与旁通区的相关性。绘制在相图上的反应性 KIS 示踪剂突破曲线的斜率也可用于预测低粘度比时旁通区的存在。最后,夹杂物引起的前端粗糙度和过渡区长度的变化与 KIS 示踪剂突破曲线的斜率相关。这项研究的结果有助于更好地理解不同流动状态对 KIS 示踪剂突破信号的影响,以及示踪剂信号与前沿尺寸之间的联系。
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来源期刊
Journal of contaminant hydrology
Journal of contaminant hydrology 环境科学-地球科学综合
CiteScore
6.80
自引率
2.80%
发文量
129
审稿时长
68 days
期刊介绍: The Journal of Contaminant Hydrology is an international journal publishing scientific articles pertaining to the contamination of subsurface water resources. Emphasis is placed on investigations of the physical, chemical, and biological processes influencing the behavior and fate of organic and inorganic contaminants in the unsaturated (vadose) and saturated (groundwater) zones, as well as at groundwater-surface water interfaces. The ecological impacts of contaminants transported both from and to aquifers are of interest. Articles on contamination of surface water only, without a link to groundwater, are out of the scope. Broad latitude is allowed in identifying contaminants of interest, and include legacy and emerging pollutants, nutrients, nanoparticles, pathogenic microorganisms (e.g., bacteria, viruses, protozoa), microplastics, and various constituents associated with energy production (e.g., methane, carbon dioxide, hydrogen sulfide). The journal''s scope embraces a wide range of topics including: experimental investigations of contaminant sorption, diffusion, transformation, volatilization and transport in the surface and subsurface; characterization of soil and aquifer properties only as they influence contaminant behavior; development and testing of mathematical models of contaminant behaviour; innovative techniques for restoration of contaminated sites; development of new tools or techniques for monitoring the extent of soil and groundwater contamination; transformation of contaminants in the hyporheic zone; effects of contaminants traversing the hyporheic zone on surface water and groundwater ecosystems; subsurface carbon sequestration and/or turnover; and migration of fluids associated with energy production into groundwater.
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