渗透带先进监测系统的开发:评估地下水脆弱性的工具

IF 2.5 3区 地球科学 Q3 ENVIRONMENTAL SCIENCES
D. Linneman, C. Strickland, D. Appriou, M. Rockhold, J. Thomle, J. Szecsody, P. F. Martin, V. Vermeul, R. Mackley, V. Freedman
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引用次数: 0

摘要

在长时间尺度上进行重复孔隙流体采样可以提供有关非饱和带污染物及其对地下水的潜在通量的宝贵信息。这些信息可用于管理地下水补救措施,并确定需要在渗透区隔离的污染物,以尽量减少对地下水的通量。孔隙水样品通常用于获得渗透区内的污染物浓度,但现有的方法是有限的,因为它们只能在一个地点和时间提供单个样品。VZAMS旨在将多种技术集成到一个井下系统中,该系统允许对孔隙流体(液体和气体)进行采样,以提供套管井内多个深度(~ 0.3 m间隔)的污染和水力条件信息。实验室规模的测试已经完成,以验证VZAMS的采样元素,包括对位于华盛顿州东南部的汉福德场址已知存在的代表性污染物进行地球化学测试。物理测试侧重于采样器在非饱和条件下提取流体的能力。最初的地球化学测试表明,在非常干燥的条件下,与多孔袖带一起使用的不锈钢材料可能会影响氧化还原敏感污染物的采样浓度。额外的实验室测试表明,VZAMS组件能够在预期的现场条件下收集感兴趣物质的代表性样品。在本文中,展示了一种新型仪器的设计和功能,以支持后续的现场测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a vadose zone advanced monitoring system: Tools to assess groundwater vulnerability
Performing repeat pore‐fluid sampling over long time‐scales can provide valuable information on unsaturated zone contaminants and their potential flux to ground water. This information can be used to manage groundwater remedies and identify contaminants that need to be sequestered in the vadose zone to minimize flux to ground water. Pore‐water samples are commonly used to obtain contaminant concentrations within the vadose zone, but existing methods are limited as they only provide a single sample at one location and time. The vadose zone advanced monitoring system (VZAMS) has been designed to integrate multiple technologies into a single down‐borehole system that allows for sampling of pore fluids (liquid and gas) to provide information about contamination and hydraulic conditions at multiple depths (∼0.3‐m intervals) within a cased borehole. Testing has been completed at the laboratory scale to verify the sampling elements of VZAMS, including geochemical testing for representative contaminants known to exist at the Hanford Site, located in southeastern Washington State. Physical tests focused on the ability of the sampler to draw fluid under unsaturated conditions. Initial geochemical testing showed that the stainless steel material used with the porous cuff may affect the sampled concentrations of redox‐sensitive contaminants under very dry conditions. Additional laboratory testing demonstrated that the VZAMS components are able to collect representative samples for substances of interest under expected field conditions. In this paper, the design and functionality of a novel instrument are demonstrated in support of subsequent testing in the field.
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来源期刊
Vadose Zone Journal
Vadose Zone Journal 环境科学-环境科学
CiteScore
5.60
自引率
7.10%
发文量
61
审稿时长
3.8 months
期刊介绍: Vadose Zone Journal is a unique publication outlet for interdisciplinary research and assessment of the vadose zone, the portion of the Critical Zone that comprises the Earth’s critical living surface down to groundwater. It is a peer-reviewed, international journal publishing reviews, original research, and special sections across a wide range of disciplines. Vadose Zone Journal reports fundamental and applied research from disciplinary and multidisciplinary investigations, including assessment and policy analyses, of the mostly unsaturated zone between the soil surface and the groundwater table. The goal is to disseminate information to facilitate science-based decision-making and sustainable management of the vadose zone. Examples of topic areas suitable for VZJ are variably saturated fluid flow, heat and solute transport in granular and fractured media, flow processes in the capillary fringe at or near the water table, water table management, regional and global climate change impacts on the vadose zone, carbon sequestration, design and performance of waste disposal facilities, long-term stewardship of contaminated sites in the vadose zone, biogeochemical transformation processes, microbial processes in shallow and deep formations, bioremediation, and the fate and transport of radionuclides, inorganic and organic chemicals, colloids, viruses, and microorganisms. Articles in VZJ also address yet-to-be-resolved issues, such as how to quantify heterogeneity of subsurface processes and properties, and how to couple physical, chemical, and biological processes across a range of spatial scales from the molecular to the global.
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