Vadose Zone–Attenuated Artificial Recharge for Input to a Ground Water Model

Nichols, William; Wurstner, S.K.; Eslinger, Paul W.

doi:10.1111/j.1745-6584.2007.00317.x

Cited by 3 publications

(2 citation statements)

References 18 publications

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“…The time required will depend on the thickness and hydraulic properties of the vadose zone and the deep drainage rate itself. Changes in the deep drainage rate, such as would result from changes in surface vegetative conditions that increase or decrease the evapotranspiration rate, can take many years to be reflected in the recharge rate for a thick vadose zone in arid conditions such as at the Hanford Site and can be an important consideration in characterizing recharge as well (Nichols et al 2007). …”

Section: Parameterization Of Rechargementioning

confidence: 99%

Compendium of Data for the Hanford Site (Fiscal Years 2004 to 2008) Applicable to Estimation of Recharge Rates

Nichols¹,

Rockhold²,

Downs³

2008

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Section: Parameterization Of Rechargementioning

confidence: 99%

Compendium of Data for the Hanford Site (Fiscal Years 2004 to 2008) Applicable to Estimation of Recharge Rates

Nichols¹,

Rockhold²,

Downs³

2008

Self Cite

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“…Rao and Sreenivasulu (2004) studied the planning of groundwater development in coastal aquifers where seawater intrusion was controlled through a series of barrier extraction wells as a non-linear, nonconvex combinatorial model and was solved using a coupled simulation-optimisation approach. Nichols et al (2007) developed an improved technique for partitioning artificial recharge from simulated total recharge for inclusion in a groundwater model, thereby contributing to improvement in the calibration of a site-wide groundwater model. Mahesha (1996) carried out an analytical study on the transient effect of a battery of injection wells on seawater intrusion into coastal confined aquifers, analysed using a quasi-three-dimensional (3D) areal finite-element model derived based on the sharp interface approach.…”

Section: Introductionmentioning

confidence: 99%

A coastal groundwater management model with Indian case study

Basack¹,

Bhattacharya²,

Maity³

2014

Proceedings of the Institution of Civil Engineers - Water Manag

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Maity, P. (2014). A coastal groundwater management model with Indian case study. Proceedings of the Institution of Civil Engineers: Water Management, 167 (3), 126-140. A coastal groundwater management model with Indian case study AbstractThe complexity of the hydrogeological setup in coastal areas calls for the adoption of scientific groundwater management techniques. Excessive withdrawal of groundwater in coastal zones will lead to depression of the water table, with associated hazards such as putting the well out of use, rendering abstraction uneconomic with increased lift. A sustained regional groundwater drawdown below sea level runs the risk of saline water intrusion, even for confined coastal aquifers. Uncontrolled groundwater development may lead to reversal of the freshwater gradient, thereby resulting in saline water ingress into coastal aquifers. There are, however, several established methodologies to control and minimise the problems associated with groundwater extraction followed by saline water intrusion. This study developed a convenient and easily implementable analytical model for coastal groundwater management aimed at the control of saltwater intrusion. The technique includes withdrawal of coastal freshwater by means of qanat-well structures associated with artificial recharge through rainwater harvesting aided by percolation ponds and recharge wells. The proposed methodology is suitable specifically for not highly urbanised coastal areas with significant annual precipitation, good hydraulic conductivity of the aquifer and a low depth of fresh groundwater. As a case study, the model is applied to a coastal zone of the Purba Medinipur district of West Bengal, India. Adequate quantifications of the efficiency of the methodology are incorporated and relevant conclusions are drawn. The complexity of the hydrogeological setup in coastal areas calls for the adoption of scientific groundwater management techniques. Excessive withdrawal of groundwater in coastal zones will lead to depression of the water table, with associated hazards such as putting the well out of use, rendering abstraction uneconomic with increased lift. A sustained regional groundwater drawdown below sea level runs the risk of saline water intrusion, even for confined coastal aquifers. Uncontrolled groundwater development may lead to reversal of the freshwater gradient, thereby resulting in saline water ingress into coastal aquifers. There are, however, several established methodologies to control and minimise the problems associated with groundwater extraction followed by saline water intrusion.This study developed a convenient and easily implementable analytical model for coastal groundwater management aimed at the control of saltwater intrusion. The technique includes withdrawal of coastal freshwater by means of qanat-well structures associated with artificial recharge through rainwater harvesting aided by percolation ponds and recharge wells. The proposed methodology is suitable specifically for not highly urbanised coast...

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Soil Water Balance and Recharge Monitoring at the Hanford Site ? FY 2010 Status Report

Fayer¹,

Saunders²,

Herrington³

et al. 2010

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SummaryThis report summarizes the recharge data collected in FY 2010 at five locations on the Hanford Site in southeastern Washington State. From late fall to early spring of FY 2010, precipitation and temperature conditions did not present an opportunity for increased recharge. The recharge monitoring data confirmed these conditions, showing normal behavior in water content, matric head, and recharge rates. Also provided in this report is a strategy for recharge estimation for the next 5 years.v

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Vadose Zone–Attenuated Artificial Recharge for Input to a Ground Water Model

Cited by 3 publications

References 18 publications

Compendium of Data for the Hanford Site (Fiscal Years 2004 to 2008) Applicable to Estimation of Recharge Rates

Compendium of Data for the Hanford Site (Fiscal Years 2004 to 2008) Applicable to Estimation of Recharge Rates

A coastal groundwater management model with Indian case study

Soil Water Balance and Recharge Monitoring at the Hanford Site ? FY 2010 Status Report

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