Evaluation of Hydraulic Conductivity Estimates from Various Approaches with Groundwater Flow Models

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Groundwater Pub Date : 2023-08-21 DOI:10.1111/gwat.13348
Dongwei Sun, Ning Luo, Aaron Vandenhoff, Wesley McCall, Zhanfeng Zhao, Chenxi Wang, David L. Rudolph, Walter A. Illman
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Abstract

Significant efforts have been expended for improved characterization of hydraulic conductivity (K) and specific storage (Ss) to better understand groundwater flow and contaminant transport processes. Conventional methods including grain size analyses (GSA), permeameter, slug, and pumping tests have been utilized extensively, while Direct Push-based Hydraulic Profiling Tool (HPT) surveys have been developed to obtain high-resolution K estimates. Moreover, inverse modeling approaches based on geology-based zonations, and highly parameterized Hydraulic Tomography (HT) have also been advanced to map spatial variations of K and Ss between and beyond boreholes. While different methods are available, it is unclear which one yields K estimates that are most useful for high resolution predictions of groundwater flow. Therefore, the main objective of this study is to evaluate various K estimates at a highly heterogeneous field site obtained with three categories of characterization techniques including: (1) conventional methods (GSA, permeameter, and slug tests); (2) HPT surveys; and (3) inverse modeling based on geology-based zonations and highly parameterized approaches. The performance of each approach is first qualitatively analyzed by comparing K estimates to site geology. Then, steady-state and transient groundwater flow models are employed to quantitatively assess various K estimates by simulating pumping tests not used for parameter estimation. Results reveal that inverse modeling approaches yield the best drawdown predictions under both steady and transient conditions. In contrast, conventional methods and HPT surveys yield biased predictions. Based on our research, it appears that inverse modeling and data fusion are necessary steps in predicting accurate groundwater flow behavior.

Abstract Image

利用地下水流模型评估各种方法得出的水力传导性估算值
为了更好地了解地下水流动和污染物迁移过程,人们一直在努力改进水力传导性(K)和比储量(S)的特征。传统的方法包括粒度分析 (GSA)、渗透仪、弹头和抽水试验已得到广泛应用,同时还开发了基于直接推动的水力剖面工具 (HPT) 勘测,以获得高分辨率的 K 估算值。此外,基于地质分区的反建模方法和高度参数化的水力层析成像法(HT)也得到了发展,以绘制钻孔之间和钻孔之外的 K 和 S 空间变化图。虽然有各种不同的方法,但目前还不清楚哪种方法得出的 K 值对高分辨率预测地下水流最有用。因此,本研究的主要目的是评估在一个高度异质的现场,通过三类特征描述技术获得的各种 K 估计值,包括:(1) 传统方法(GSA、渗透仪和弹头测试);(2) HPT 勘测;(3) 基于地质分区和高度参数化方法的反演模型。首先通过将 K 值估算与现场地质进行比较,对每种方法的性能进行定性分析。然后,通过模拟未用于参数估计的抽水试验,采用稳态和瞬态地下水流模型对各种 K 估算值进行定量评估。结果表明,在稳定和瞬态条件下,反演建模方法都能得出最佳的缩减预测结果。相比之下,传统方法和 HPT 勘测得出的预测结果存在偏差。根据我们的研究,反演建模和数据融合似乎是准确预测地下水流行为的必要步骤。
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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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