Time Net for Ground-Water Flow in Idealized Coastal Wedge

H. L. Vacher; T. A. Farkas; J. L. Robinson

Time Net for Ground-Water Flow in Idealized Coastal Wedge

H. L. Vacher, T. A. Farkas, J. L. Robinson

University of South Florida

Research output: Contribution to journal › Article › peer-review

Abstract

The classic Glover model for head and stream function in an indealized coastal wedge of fresh ground water in a homogeneous and isotropic aquifer is extended to estimate the length of time for fresh ground water to flow to the outflow face ("exit time"). An analytical solution is given for the exit time (t) for water that travels the streamline that lies at sea level, and t's for water traveling deeper streamlines are found numerically by summing incremental travel times as water is tracked incrementally along a streamline. Results are given by dimensionless "time nets," which show streamlines and contours of dimensionless exit time, and thereby allow estimation of exit time for many combinations of hydraulic conductivity, porosity and fresh-water discharge. The model ignores the presence of an underlying transition zone and, therefore, applies only to the part of the wedge that lies shoreward of the effects of the lower boundary on the configuration of the interface and other isochlors.

Original language	American English
Journal	Journal of Coastal Research
Volume	7
State	Published - Jan 1 1991

Keywords

Aquifers
Sea water
Groundwater
Travel time
Shorelines
Stream functions
Fresh water
Hydrological modeling
Transition zones

Disciplines

Earth Sciences

Access to Document

https://www.jstor.org/stable/4297803

Cite this

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title = "Time Net for Ground-Water Flow in Idealized Coastal Wedge",

abstract = " The classic Glover model for head and stream function in an indealized coastal wedge of fresh ground water in a homogeneous and isotropic aquifer is extended to estimate the length of time for fresh ground water to flow to the outflow face ({"}exit time{"}). An analytical solution is given for the exit time (t) for water that travels the streamline that lies at sea level, and t's for water traveling deeper streamlines are found numerically by summing incremental travel times as water is tracked incrementally along a streamline. Results are given by dimensionless {"}time nets,{"} which show streamlines and contours of dimensionless exit time, and thereby allow estimation of exit time for many combinations of hydraulic conductivity, porosity and fresh-water discharge. The model ignores the presence of an underlying transition zone and, therefore, applies only to the part of the wedge that lies shoreward of the effects of the lower boundary on the configuration of the interface and other isochlors.",

keywords = "Aquifers, Sea water, Groundwater, Travel time, Shorelines, Stream functions, Fresh water, Hydrological modeling, Transition zones",

author = "Vacher, {H. L.} and Farkas, {T. A.} and Robinson, {J. L.}",

year = "1991",

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language = "American English",

volume = "7",

journal = "Journal of Coastal Research",

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TY - JOUR

T1 - Time Net for Ground-Water Flow in Idealized Coastal Wedge

AU - Vacher, H. L.

AU - Farkas, T. A.

AU - Robinson, J. L.

PY - 1991/1/1

Y1 - 1991/1/1

N2 - The classic Glover model for head and stream function in an indealized coastal wedge of fresh ground water in a homogeneous and isotropic aquifer is extended to estimate the length of time for fresh ground water to flow to the outflow face ("exit time"). An analytical solution is given for the exit time (t) for water that travels the streamline that lies at sea level, and t's for water traveling deeper streamlines are found numerically by summing incremental travel times as water is tracked incrementally along a streamline. Results are given by dimensionless "time nets," which show streamlines and contours of dimensionless exit time, and thereby allow estimation of exit time for many combinations of hydraulic conductivity, porosity and fresh-water discharge. The model ignores the presence of an underlying transition zone and, therefore, applies only to the part of the wedge that lies shoreward of the effects of the lower boundary on the configuration of the interface and other isochlors.

AB - The classic Glover model for head and stream function in an indealized coastal wedge of fresh ground water in a homogeneous and isotropic aquifer is extended to estimate the length of time for fresh ground water to flow to the outflow face ("exit time"). An analytical solution is given for the exit time (t) for water that travels the streamline that lies at sea level, and t's for water traveling deeper streamlines are found numerically by summing incremental travel times as water is tracked incrementally along a streamline. Results are given by dimensionless "time nets," which show streamlines and contours of dimensionless exit time, and thereby allow estimation of exit time for many combinations of hydraulic conductivity, porosity and fresh-water discharge. The model ignores the presence of an underlying transition zone and, therefore, applies only to the part of the wedge that lies shoreward of the effects of the lower boundary on the configuration of the interface and other isochlors.

KW - Aquifers

KW - Sea water

KW - Groundwater

KW - Travel time

KW - Shorelines

KW - Stream functions

KW - Fresh water

KW - Hydrological modeling

KW - Transition zones

UR - https://digitalcommons.usf.edu/geo_facpub/1859

UR - https://www.jstor.org/stable/4297803

M3 - Article

VL - 7

JO - Journal of Coastal Research

JF - Journal of Coastal Research

ER -

Time Net for Ground-Water Flow in Idealized Coastal Wedge

Abstract

Keywords

Disciplines

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