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Base flow response from nonpoint source contamination: Simulated spatial variability in source, structure, and initial condition
Christopher J. Duffy, Do‐Hun ‐H Lee
Civil and Environmental Engineering
Institute for Computational and Data Sciences (ICDS)
Institute of Energy and the Environment (IEE)
Research output
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Article
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peer-review
24
Scopus citations
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Dive into the research topics of 'Base flow response from nonpoint source contamination: Simulated spatial variability in source, structure, and initial condition'. Together they form a unique fingerprint.
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Keyphrases
Spatial Variability
100%
Flow Response
100%
Baseflow
100%
Source Structure
100%
Aquifer
50%
Dispersive Mixing
50%
Flow Concentration
50%
Balance Model
50%
Water Quality
25%
Hydraulic Conductivity
25%
Input-output
25%
Concentration Field
25%
Groundwater Contamination
25%
Aspect Ratio
25%
Numerical Experiments
25%
Spatially Distributed
25%
Effective Field
25%
Nonpoint
25%
Simulated Conditions
25%
Non-point Source
25%
Distributed Source
25%
Random Parameters
25%
Equilibrium Sorption
25%
Field Parameters
25%
Engineering
Initial Condition
100%
Base Flow
100%
Hydraulics
25%
Concentration Field
25%
Effective Field
25%
Numerical Experiment
25%
Earth and Planetary Sciences
Base Flow
100%
Nonpoint Source
100%
Flow Distribution
25%
Groundwater Contamination
25%
Hydraulic Conductivity
25%