Yu‐Li Wang scite author profile

Yu‐Li Wang

3Publications

30Citation Statements Received

150Citation Statements Given

How they've been cited

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163

150

Affiliations

National Taiwan University, University of Arizona

Publications

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Equivalence of Discrete Fracture Network and Porous Media Models by Hydraulic Tomography

Dong

Yeh

et al. 2019

Water Resources Research

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Hydraulic tomography (HT) has emerged as a potentially viable method for mapping fractures in geologic media as demonstrated by recent studies. However, most of the studies adopted equivalent porous media (EPM) models to generate and invert hydraulic interference test data for HT. While these models assign significant different hydraulic properties to fractures and matrix, they may not fully capture the discrete nature of the fractures in the rocks. As a result, HT performance may have been overrated. To explore this issue, this study employed a discrete fracture network (DFN) model to simulate hydraulic interference tests. HT with the EPM model was then applied to estimate the distributions of hydraulic conductivity (K) and specific storage (Ss) of the DFN. Afterward, the estimated fields were used to predict the observed heads from DFN models, not used in the HT analysis (i.e., validation). Additionally, this study defined the spatial representative elementary volume (REV) of the fracture connectivity probability for the entire DFN dominant. The study showed that if this spatial REV exists, the DFN is deemed equivalent to EPM and vice versa. The hydraulic properties estimated by HT with an EPM model can then predict head fields satisfactorily over the entire DFN domain with limited monitoring wells. For a sparse DFN without this spatial REV, a dense observation network is needed. Nevertheless, HT is able to capture the dominant fractures.

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Characterize Basin‐Scale Subsurface Using Rocket‐Triggered Lightning

Wang

Yeh

Liu

et al. 2022

Geophysical Research Letters

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Knowledge of detailed spatial distributions of geological structures is imperative to understanding the Earth's subsurface processes and exploring natural resources. Over the past decades, electrical magnetic (EM) surveys have been developed based on airborne, controlled-source, or natural-source methods (e.g., Magnetotellurics (MT) and Audio-frequency MT (AMT)). They have been valuable tools for studying hydrogeological features such as wetlands (

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Characterizing basin-scale subsurface hydraulic heterogeneity with multiscale geological and hydrological measurements

Lin

Wen

Zhang

et al. 2023

Journal of Hydrology

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Yu‐Li Wang

Equivalence of Discrete Fracture Network and Porous Media Models by Hydraulic Tomography

Characterize Basin‐Scale Subsurface Using Rocket‐Triggered Lightning

Characterizing basin-scale subsurface hydraulic heterogeneity with multiscale geological and hydrological measurements

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