Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary

In recent decades, the study of groundwater flow and solute transport has advanced into new territories that are beyond conventional theories, such as Darcy’s law and Fick’s law. The studied media have changed from permeable porous and fractured ones to much less permeable ones, such as clay and sha...

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Asıl Yazarlar: Wen, Zhang, Wang, Quanrong, Zhan, Hongbin
Materyal Türü: Online
Dil:İngilizce
Baskı/Yayın Bilgisi: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online Erişim:42546
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author Wen, Zhang
Wang, Quanrong
Zhan, Hongbin
author_browse Wang, Quanrong
Wen, Zhang
Zhan, Hongbin
author_facet Wen, Zhang
Wang, Quanrong
Zhan, Hongbin
author_sort Wen, Zhang
collection Directory of Open Access Books
description In recent decades, the study of groundwater flow and solute transport has advanced into new territories that are beyond conventional theories, such as Darcy’s law and Fick’s law. The studied media have changed from permeable porous and fractured ones to much less permeable ones, such as clay and shale. The studied pore sizes have also changed from millimetres to micro-meters or even nano-meters. The objective of this Special Issue is to report recent advances in groundwater flow and solute transport that push the knowledge boundary into new territories which include, but are not limited to, flow and transport in sloping aquifer/hillslopes, coupled unsaturated and saturated flow, coupled aquifer-vertical/horizontal/slant well flow, interaction of aquifer with connected and disconnected rivers, non-Darcian flow, anomalous transport beyond the Fickian scheme, and flow and transport in extremely small pore spaces such as shale and tight sandstones. Contributions focusing on innovative experimental, numerical, and analytical methods for understanding unconventional problems, such as the above-listed ones, are encouraged, and contributions addressing flow and transport at interfaces of different media and crossing multiple temporal and spatial scales are of great value
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institution Directory of Open Access Books
language eng
publishDate 2021
publishDateRange 2021
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-402862024-04-11T20:34:22Z Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary Wen, Zhang Wang, Quanrong Zhan, Hongbin TD1-1066 T1-995 Levy stable distribution n/a permeameter test rough single fracture seawater intrusion the Beishan area groundwater flow model slenderness effect SW–GW interaction semi-analytical solution assessment hydraulic conductivity irrigation first-order analytical approach Ulan Buh Desert IUM solute longitudinal dispersion soil formation DSR bimsoils nuclear waste disposal IUV infiltration TOUGH2 sustainable development groundwater ERT non-Darcian non-Fickian GFModel erosion permeability coefficient hydrologic exchange evaporation calculation evolving-scale log-conductivity radioactive contaminant field measurements fractured aquifers desert farmland analytical solution silty clay uncertainty steady-state vertical flux flow modeling non-Darcy flow percolation Monte Carlo solute transport groundwater flow salinity map numerical simulation stochastic Lagrangian framework unsaturated flow fractional derivative water resource utilization efficiency heterogeneity perturbation method Columbia River water flow thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology In recent decades, the study of groundwater flow and solute transport has advanced into new territories that are beyond conventional theories, such as Darcy’s law and Fick’s law. The studied media have changed from permeable porous and fractured ones to much less permeable ones, such as clay and shale. The studied pore sizes have also changed from millimetres to micro-meters or even nano-meters. The objective of this Special Issue is to report recent advances in groundwater flow and solute transport that push the knowledge boundary into new territories which include, but are not limited to, flow and transport in sloping aquifer/hillslopes, coupled unsaturated and saturated flow, coupled aquifer-vertical/horizontal/slant well flow, interaction of aquifer with connected and disconnected rivers, non-Darcian flow, anomalous transport beyond the Fickian scheme, and flow and transport in extremely small pore spaces such as shale and tight sandstones. Contributions focusing on innovative experimental, numerical, and analytical methods for understanding unconventional problems, such as the above-listed ones, are encouraged, and contributions addressing flow and transport at interfaces of different media and crossing multiple temporal and spatial scales are of great value 2021-02-11T07:48:56Z 2021-02-11T07:48:56Z 2019-12-09 11:49:15 2019 book 42546 9783039210749 9783039210756 https://directory.doabooks.org/handle/20.500.12854/40286 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1599 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03921-075-6 10.3390/books978-3-03921-075-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039210749 9783039210756 196 open access
spellingShingle TD1-1066
T1-995
Levy stable distribution
n/a
permeameter test
rough single fracture
seawater intrusion
the Beishan area
groundwater flow model
slenderness effect
SW–GW interaction
semi-analytical solution
assessment
hydraulic conductivity
irrigation
first-order analytical approach
Ulan Buh Desert
IUM
solute longitudinal dispersion
soil formation
DSR
bimsoils
nuclear waste disposal
IUV
infiltration
TOUGH2
sustainable development
groundwater ERT
non-Darcian
non-Fickian
GFModel
erosion
permeability coefficient
hydrologic exchange
evaporation calculation
evolving-scale log-conductivity
radioactive contaminant
field measurements
fractured aquifers
desert farmland
analytical solution
silty clay
uncertainty
steady-state vertical flux
flow modeling
non-Darcy flow
percolation
Monte Carlo
solute transport
groundwater flow
salinity map
numerical simulation
stochastic Lagrangian framework
unsaturated flow
fractional derivative
water resource utilization efficiency
heterogeneity
perturbation method
Columbia River
water flow
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology
Wen, Zhang
Wang, Quanrong
Zhan, Hongbin
Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title_full Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title_fullStr Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title_full_unstemmed Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title_short Advances in Groundwater Flow and Solute Transport: Pushing the Hidden Boundary
title_sort advances in groundwater flow and solute transport pushing the hidden boundary
topic TD1-1066
T1-995
Levy stable distribution
n/a
permeameter test
rough single fracture
seawater intrusion
the Beishan area
groundwater flow model
slenderness effect
SW–GW interaction
semi-analytical solution
assessment
hydraulic conductivity
irrigation
first-order analytical approach
Ulan Buh Desert
IUM
solute longitudinal dispersion
soil formation
DSR
bimsoils
nuclear waste disposal
IUV
infiltration
TOUGH2
sustainable development
groundwater ERT
non-Darcian
non-Fickian
GFModel
erosion
permeability coefficient
hydrologic exchange
evaporation calculation
evolving-scale log-conductivity
radioactive contaminant
field measurements
fractured aquifers
desert farmland
analytical solution
silty clay
uncertainty
steady-state vertical flux
flow modeling
non-Darcy flow
percolation
Monte Carlo
solute transport
groundwater flow
salinity map
numerical simulation
stochastic Lagrangian framework
unsaturated flow
fractional derivative
water resource utilization efficiency
heterogeneity
perturbation method
Columbia River
water flow
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology
topic_facet TD1-1066
T1-995
Levy stable distribution
n/a
permeameter test
rough single fracture
seawater intrusion
the Beishan area
groundwater flow model
slenderness effect
SW–GW interaction
semi-analytical solution
assessment
hydraulic conductivity
irrigation
first-order analytical approach
Ulan Buh Desert
IUM
solute longitudinal dispersion
soil formation
DSR
bimsoils
nuclear waste disposal
IUV
infiltration
TOUGH2
sustainable development
groundwater ERT
non-Darcian
non-Fickian
GFModel
erosion
permeability coefficient
hydrologic exchange
evaporation calculation
evolving-scale log-conductivity
radioactive contaminant
field measurements
fractured aquifers
desert farmland
analytical solution
silty clay
uncertainty
steady-state vertical flux
flow modeling
non-Darcy flow
percolation
Monte Carlo
solute transport
groundwater flow
salinity map
numerical simulation
stochastic Lagrangian framework
unsaturated flow
fractional derivative
water resource utilization efficiency
heterogeneity
perturbation method
Columbia River
water flow
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology
url 42546
work_keys_str_mv AT wenzhang advancesingroundwaterflowandsolutetransportpushingthehiddenboundary
AT wangquanrong advancesingroundwaterflowandsolutetransportpushingthehiddenboundary
AT zhanhongbin advancesingroundwaterflowandsolutetransportpushingthehiddenboundary