Ying‐Fan Lin
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View article: On Radial Heat Transport in Porous Aquifers With Nonlinear Velocity‐Dependent Thermal Dispersion
On Radial Heat Transport in Porous Aquifers With Nonlinear Velocity‐Dependent Thermal Dispersion Open
Accurate modeling of heat transport behavior near the test well is essential for the efficient operation and management of aquifer thermal energy storage (ATES) systems. Existing models typically assume a linear relationship between therma…
View article: Improving Water Table Kinematic Conditions With Unsaturated Flow Insights
Improving Water Table Kinematic Conditions With Unsaturated Flow Insights Open
Analytical models interpreting aquifer pumping test data often rely on water table kinematic conditions that assume instantaneous gravity drainage, leading to underestimation of specific yield during the drainage process. This study derive…
View article: Solving Inverse Wave Problems Using Spacetime Radial Basis Functions in Neural Networks
Solving Inverse Wave Problems Using Spacetime Radial Basis Functions in Neural Networks Open
Conventional methods for solving inverse wave problems struggle with ill-posedness, significant computational demands, and discretization errors. In this study, we propose an innovative framework for solving inverse problems in wave equati…
View article: PyTFLUX: An Analytical Framework for Quantifying Transient Vertical Groundwater Fluxes From Temperature
PyTFLUX: An Analytical Framework for Quantifying Transient Vertical Groundwater Fluxes From Temperature Open
Established closed-form analytical solutions for using heat as a tracer of vertical groundwater fluxes typically rely on assumptions of steady hydraulic conditions. We introduce a novel analytical approach and associated tool, PyTFLUX, to …
View article: Semi‐Analytical Modeling of Transient Stream Drawdown and Depletion in Response to Aquifer Pumping
Semi‐Analytical Modeling of Transient Stream Drawdown and Depletion in Response to Aquifer Pumping Open
Analytical and semi‐analytical models for stream depletion with transient stream stage drawdown induced by groundwater pumping are developed to address a deficiency in existing models, namely, the use of a fixed stream stage condition at t…
View article: Analysis of Groundwater Time Series With Limited Pumping Information in Unconfined Aquifer: Response Function Based on Lagging Theory
Analysis of Groundwater Time Series With Limited Pumping Information in Unconfined Aquifer: Response Function Based on Lagging Theory Open
Groundwater extraction from aquifers is a common practice for human use, and variations in groundwater levels can provide valuable information on the hydrogeological properties of the aquifer. However, reliable data on pumping rates and di…
View article: Analytical methodology for determining the extent of pumped freshwater lenses in recharge-limited, circular islands
Analytical methodology for determining the extent of pumped freshwater lenses in recharge-limited, circular islands Open
Island freshwater lenses are often subjected to pumping to support the freshwater needs of isolated communities. Investigations of the lens extent commonly involve the application of analytical solutions, although the effects of pumping fr…
View article: Advanced Analytical Model for Interpreting Oscillatory Pumping Tests With Wellbore Skin and Rate‐Dependent Skin Effects
Advanced Analytical Model for Interpreting Oscillatory Pumping Tests With Wellbore Skin and Rate‐Dependent Skin Effects Open
Oscillatory pumping tests presents a potential advancement in aquifer testing as they minimize hydraulic perturbations and result in no net water abstraction or injection. However, aquifer property estimates can be less accurate if they ar…
View article: Effects of Soil Type and Thermal Boundary on Predicting Temperature Profiles and Groundwater Fluxes
Effects of Soil Type and Thermal Boundary on Predicting Temperature Profiles and Groundwater Fluxes Open
In the last few years, several articles have studied heat as a groundwater tracer and developed analytical geothermal solutions to predict the subsurface temperature and groundwater fluxes. These solutions can be sorted into steady‐state a…
View article: Comment on hess-2022-353
Comment on hess-2022-353 Open
Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and source te…
View article: Reply on AC1
Reply on AC1 Open
Abstract. Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and…
View article: Reply on CC3
Reply on CC3 Open
Abstract. Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and…
View article: Reply on CC2
Reply on CC2 Open
Abstract. Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and…
View article: Reply on RC2
Reply on RC2 Open
Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and source te…
View article: Reply on CC1
Reply on CC1 Open
Abstract. Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and…
View article: Reply on RC2 (Marked manuscript)
Reply on RC2 (Marked manuscript) Open
Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and source te…
View article: Comment on hess-2022-353
Comment on hess-2022-353 Open
Abstract. Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and…
View article: Transient Theory of Pumping Induced Depletion and Drawdown of a Stream with Finite Channel Storage
Transient Theory of Pumping Induced Depletion and Drawdown of a Stream with Finite Channel Storage Open
Mathematical models for stream depletion with stream stage decline or drawdown are developed to overcome the deficiency in existing models that typically use the constant-head (Dirichlet) or general (Robin) boundary condition and source te…