利用机械耦合的地球化学和地球物理模拟方法研究溶质输运和反应

IF 4 2区环境科学与生态学 Q1 WATER RESOURCES

Advances in Water Resources Pub Date : 2025-02-01 DOI:10.1016/j.advwatres.2024.104879

Flore Rembert , Nicole M. Fernandez , Linda Luquot , Roger Guérin , Damien Jougnot

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引用次数: 0

摘要

利用地电监测地下水水质和污染是一个日益发展和有前途的课题。目前，地电法多被用作定性探测工具。本研究旨在通过建立耦合机制模型，更好地利用地电信号作为定量表征多孔基质中化学物质输运和反应的补充工具。我们检查方解石的溶解作为一个有效的概念证明。我们的研究重点是在不同的进口条件下，反应带的位置、范围和强度对地电信号的影响。我们对装有地电监测装置的贯通柱进行了五次实验。本研究提出了一个独特的数据集，使用将反应输运数值模拟与地电学和结构特性数值模拟相结合的工作流程进行分析。预测信号与实验数据的比较清楚地显示了反应速率的时空分布特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Investigating solute transport and reaction using a mechanistically coupled geochemical and geophysical modeling approach

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Investigating solute transport and reaction using a mechanistically coupled geochemical and geophysical modeling approach

The use of geoelectrical monitoring of groundwater quality and contamination is a growing and promising topic. Nowadays, geoelectrical methods are mostly used as qualitative detection tools. This study aims to better use geoelectrical signals as a complementary tool for the quantitative characterization of chemical species transport and reaction in the porous matrix by developing a coupled mechanistic model. We examine the dissolution of calcite as an effective proof-of-concept. Our investigation focuses on the impact of the reactive zone’s position, extent, and intensity of geoelectrical signals under various inlet conditions. We conducted five experiments on flow-through columns equipped with geoelectrical monitoring. This study presents a unique dataset that is analyzed using a workflow that combines reactive transport numerical simulation with numerical modeling of geoelectrical and structural properties. The comparison of the predicted signals with the experimental data clearly shows the characterization of the spatial and temporal distributions of the reaction rates.

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来源期刊

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