Groundwater dynamics due to general stream fluctuations in an unconfined single or dual-porosity aquifer subjected to general areal recharge

•Residue theorem and convolutional integral are used to obtain solutions.•The solution is applicable to many river-aquifer systems.•Effects of stream stage hydrograph on the head in a river basin aquifer are explored.•Effects of recharge in a fractured reservoir on its boundary depletion rate are in...

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Published inJournal of hydrology (Amsterdam) Vol. 574; pp. 436 - 449
Main Authors Sedghi, Mohammad M., Zhan, Hongbin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2019
Subjects
algorithms
alluvial aquifer
Analytical solution
Anticline reservoir
cropland
groundwater
groundwater flow
irrigation
rain
Recharge
River basin aquifer
River level fluctuations
snowmelt
streams
water shortages
watersheds
Recharge
River level fluctuations
Analytical solution
Anticline reservoir
River basin aquifer
Online AccessGet full text
ISSN0022-1694
1879-2707
DOI10.1016/j.jhydrol.2019.04.052

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Abstract •Residue theorem and convolutional integral are used to obtain solutions.•The solution is applicable to many river-aquifer systems.•Effects of stream stage hydrograph on the head in a river basin aquifer are explored.•Effects of recharge in a fractured reservoir on its boundary depletion rate are investigated.•Guidelines for aquifer parameter estimation are presented. Analytical solutions of groundwater dynamics in an elongated aquifer subjected to general time-dependent recharge are presented. The lateral boundaries are specified heads with the head variations governed by general time-dependent functions. General recharge function was not considered in previous works of this kind. Both single and double-porosity aquifers are considered. The solution is obtained using Fourier sine and Laplace transformations, followed by an inverse Fourier-Laplace transform involving residue theorem and convolutional integral. For the unconfined single-porosity aquifer case, the exact time-domain solution is obtained using the residue theorem; for the unconfined double-porosity aquifer case, the time-domain head is calculated using the de Hoog inverse Laplace algorithm. The presented solution can be used to estimate the hydraulic parameters of 1) groundwater head variation of a river basin aquifer subjected to general lateral head variation and recharge; 2) groundwater head variation in a double-porosity elongated fractured anticline; 3) groundwater depletion of an elongated fractured anticline subjected to recharge due to rainfall or snowmelt to its adjacent alluvial aquifer. In addition, the presented solution can be utilized to optimize the irrigation pattern in a cropland between two trench drains to control the groundwater mound.
AbstractList •Residue theorem and convolutional integral are used to obtain solutions.•The solution is applicable to many river-aquifer systems.•Effects of stream stage hydrograph on the head in a river basin aquifer are explored.•Effects of recharge in a fractured reservoir on its boundary depletion rate are investigated.•Guidelines for aquifer parameter estimation are presented. Analytical solutions of groundwater dynamics in an elongated aquifer subjected to general time-dependent recharge are presented. The lateral boundaries are specified heads with the head variations governed by general time-dependent functions. General recharge function was not considered in previous works of this kind. Both single and double-porosity aquifers are considered. The solution is obtained using Fourier sine and Laplace transformations, followed by an inverse Fourier-Laplace transform involving residue theorem and convolutional integral. For the unconfined single-porosity aquifer case, the exact time-domain solution is obtained using the residue theorem; for the unconfined double-porosity aquifer case, the time-domain head is calculated using the de Hoog inverse Laplace algorithm. The presented solution can be used to estimate the hydraulic parameters of 1) groundwater head variation of a river basin aquifer subjected to general lateral head variation and recharge; 2) groundwater head variation in a double-porosity elongated fractured anticline; 3) groundwater depletion of an elongated fractured anticline subjected to recharge due to rainfall or snowmelt to its adjacent alluvial aquifer. In addition, the presented solution can be utilized to optimize the irrigation pattern in a cropland between two trench drains to control the groundwater mound.
Analytical solutions of groundwater dynamics in an elongated aquifer subjected to general time-dependent recharge are presented. The lateral boundaries are specified heads with the head variations governed by general time-dependent functions. General recharge function was not considered in previous works of this kind. Both single and double-porosity aquifers are considered. The solution is obtained using Fourier sine and Laplace transformations, followed by an inverse Fourier-Laplace transform involving residue theorem and convolutional integral. For the unconfined single-porosity aquifer case, the exact time-domain solution is obtained using the residue theorem; for the unconfined double-porosity aquifer case, the time-domain head is calculated using the de Hoog inverse Laplace algorithm. The presented solution can be used to estimate the hydraulic parameters of 1) groundwater head variation of a river basin aquifer subjected to general lateral head variation and recharge; 2) groundwater head variation in a double-porosity elongated fractured anticline; 3) groundwater depletion of an elongated fractured anticline subjected to recharge due to rainfall or snowmelt to its adjacent alluvial aquifer. In addition, the presented solution can be utilized to optimize the irrigation pattern in a cropland between two trench drains to control the groundwater mound.
Author Sedghi, Mohammad M.
Zhan, Hongbin
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Keywords Recharge
River level fluctuations
Analytical solution
Anticline reservoir
River basin aquifer
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SSID ssj0000334
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Snippet •Residue theorem and convolutional integral are used to obtain solutions.•The solution is applicable to many river-aquifer systems.•Effects of stream stage...
Analytical solutions of groundwater dynamics in an elongated aquifer subjected to general time-dependent recharge are presented. The lateral boundaries are...
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crossref
elsevier
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Enrichment Source
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Publisher
StartPage 436
SubjectTerms algorithms
alluvial aquifer
Analytical solution
Anticline reservoir
cropland
groundwater
groundwater flow
irrigation
rain
Recharge
River basin aquifer
River level fluctuations
snowmelt
streams
water shortages
watersheds
Title Groundwater dynamics due to general stream fluctuations in an unconfined single or dual-porosity aquifer subjected to general areal recharge
URI https://dx.doi.org/10.1016/j.jhydrol.2019.04.052
https://www.proquest.com/docview/2237514020
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