Atsushi Kawachi scite author profile

The occurrence of freshwater lenses in saline aquifers adjoining gaining rivers has recently been demonstrated as being theoretically possible by way of analytical solution. However, physical evidence for freshwater lenses near gaining rivers is limited largely to airborne geophysical surveys. This paper presents the first direct observations of freshwater lenses adjacent to gaining rivers, albeit at the laboratory‐scale, as validation of their plausibility. The experimental conditions are consistent with the available analytical solution, which is compared with laboratory observations of lens extent and the saltwater flow rate, for various hydraulic gradients. Numerical simulation shows that dispersion can account for the small amount of mismatch between the sharp‐interface analytical solution and laboratory measurements. Calibration and uncertainty analysis demonstrate that accurate mathematical predictions require calibration to laboratory measurements of the lens. The results provide unequivocal proof that freshwater lenses can persist despite gaining river conditions concordant with theoretical lenses predicted by the analytical solution, at least within the constraints of the experimental setup.

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Chemical Characteristics of Surface Water and Groundwater in Coastal Watershed, Mekong Delta, Vietnam

Tran

Tsujimura

et al. 2014

Procedia Environmental Sciences

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Identification of 6-octadecynoic acid from a methanol extract of Marrubium vulgare L. as a peroxisome proliferator-activated receptor γ agonist

Ohtera

Miyamae

Nakai

et al. 2013

Biochemical and Biophysical Research Communications

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Quantification of Groundwater ‐ Saline Surface Water Interaction in a Small Coastal Plain in North‐East Tunisia using Multivariate Statistical Analysis and Geophysical Method

Chekirbane

Tsujimura²,

Lachaal³

et al. 2016

Water Environment Research

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Amultivariate statistical analysis used with geophysical investigation enabled the assessment of interaction between saline surface water and groundwater in the coastal plain of Wadi Al Ayn and Daroufa in CapBon peninsula, north-east Tunisia. The application of the Principal Component Analysis (PCA) identified the end members which contribute to groundwater recharge: the wastewater infiltrated from Wadi Al Ayn, the oilfield brine infiltrated to the aquifer through the sandy bed of Wadi Al Ayn, the intruded seawater near Wadi Daroufa in the downstream region and the fresh groundwater flowing from the upstream region. The contribution of wastewater in groundwater recharge varies from 1.4% in the upstream region of Wadi Al Ayn to 77% near its downstream part. The fraction of oilfield brine mixed with groundwater in the alluvial aquifer under Wadi Al Ayn varies from 1% to 13%; whereas the fraction of intruded seawater into the coastal part of the aquifer near Daroufa region varies from 2% to 21%.

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Development of Sedimentation and Characteristics of Sediment on the Reservoir in Tunisia

Irie

Kawachi

Tarhouni

et al. 2011

J. JSCE

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Atsushi Kawachi

Plausibility of freshwater lenses adjacent to gaining rivers: Validation by laboratory experimentation

Chemical Characteristics of Surface Water and Groundwater in Coastal Watershed, Mekong Delta, Vietnam

Identification of 6-octadecynoic acid from a methanol extract of Marrubium vulgare L. as a peroxisome proliferator-activated receptor γ agonist

Quantification of Groundwater ‐ Saline Surface Water Interaction in a Small Coastal Plain in North‐East Tunisia using Multivariate Statistical Analysis and Geophysical Method

Development of Sedimentation and Characteristics of Sediment on the Reservoir in Tunisia

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