A Low-Cost Programmable Reversing Flow Column Apparatus for Investigating Mixing Zones

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Groundwater Pub Date : 2023-09-30 DOI:10.1111/gwat.13359
Reid E. Buskirk, Peter S. K. Knappett, M. Bayani Cardenas, Saugata Datta, Walter S. Borowski, Itza Mendoza-Sanchez
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Abstract

This note describes the development and testing of a novel, programmable reversing flow 1D (R1D) experimental column apparatus designed to investigate reaction, sorption, and transport of solutes in aquifers within dynamic reversing flow zones where waters with different chemistries mix. The motivation for constructing this apparatus was to understand the roles of mixing and reaction on arsenic discharging through a tidally fluctuating riverbank. The apparatus can simulate complex transient flux schedules similar to natural flow regimes The apparatus uses an Arduino microcontroller to control flux magnitude through two peristaltic pumps. Solenoid valves control flow direction from two separate reservoirs. In-line probes continually measure effluent electrical conductance, pH, oxidation–reduction potential, and temperature. To understand how sensitive physical solute transport is to deviations from the real hydrograph of the tidally fluctuating river, two experiments were performed using: (1) a simpler constant magnitude, reversing flux direction schedule (RCF); and (2) a more environmentally relevant variable magnitude, reversing flux direction schedule (RVF). Wherein, flux magnitude was ramped up and down according to a sine wave. Modeled breakthrough curves of chloride yielded nearly identical dispersivities under both flow regimes. For the RVF experiment, Peclet numbers captured the transition between diffusion and dispersion dominated transport in the intertidal interval. Therefore, the apparatus accurately simulated conservative, environmentally relevant mixing under transient, variable flux flow regimes. Accurately generating variable flux reversing flow regimes is important to simulate the interaction between flow velocity and chemical reactions where Brownian diffusion of solutes to solid-phase reaction sites is kinetically limited.

Abstract Image

一种用于研究混合区的低成本可编程逆流柱装置。
本说明描述了一种新型可编程逆流1D(R1D)实验柱装置的开发和测试,该装置旨在研究具有不同化学成分的水混合的动态逆流区内含水层中溶质的反应、吸附和传输。建造该装置的动机是了解混合和反应对通过潮汐波动河岸排放砷的作用。该设备可以模拟类似于自然流动状态的复杂瞬态流量表。该设备使用Arduino微控制器通过两个蠕动泵控制流量大小。电磁阀控制两个独立储液罐的流向。在线探针连续测量出水电导率、pH、氧化还原电位和温度。为了了解物理溶质输送对潮汐波动河流真实过程线的偏差有多敏感,使用了两个实验:1)一个更简单的恒定大小、反向通量方向计划(RCF);以及2)与环境更相关的可变幅度、反向通量方向时间表(RVF)。其中,通量大小根据正弦波上下倾斜。氯化物的模型穿透曲线在两种流动状态下产生几乎相同的分散性。对于RVF实验,Peclet数捕捉到了潮间带扩散和分散主导的传输之间的转变。因此,该装置准确地模拟了瞬态、可变流量流动状态下保守的、与环境相关的混合。准确生成可变流量反向流动状态对于模拟流速和化学反应之间的相互作用很重要,其中溶质向固相反应位点的布朗扩散在动力学上受到限制。这篇文章受版权保护。保留所有权利。
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
Groundwater
Groundwater 环境科学-地球科学综合
CiteScore
4.80
自引率
3.80%
发文量
0
审稿时长
12-24 weeks
期刊介绍: Ground Water is the leading international journal focused exclusively on ground water. Since 1963, Ground Water has published a dynamic mix of papers on topics related to ground water including ground water flow and well hydraulics, hydrogeochemistry and contaminant hydrogeology, application of geophysics, groundwater management and policy, and history of ground water hydrology. This is the journal you can count on to bring you the practical applications in ground water hydrology.
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