کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
4577776 | 1630028 | 2011 | 11 صفحه PDF | دانلود رایگان |
SummaryThis research describes a field study and laboratory simulations of the geochemical evolution of groundwater following a recharge of effluent into aquifers. The study was conducted in the soil aquifer treatment (SAT) system of the Shafdan sewage reclamation plant, Israel. The SAT system recharges secondary effluent into the calcareous sandstone sediments of the Israeli Coastal Aquifer as a tertiary treatment. The reclaimed effluent is recovered ca. 500 m off the recharge basin and is used for unlimited irrigation.The laboratory simulations in which effluent was pumped through experimental columns packed with pristine Shafdan sediment showed that the chemical composition of the outflowing water was controlled mainly by cation exchange and CaCO3 dissolution. Na+, K+ and Mg2+ were adsorbed and Ca2+ was desorbed during the initial stage of recharge. The equilibrium distribution of the adsorbed cations was: Ca2+ ∼ 60%, Mg2+ ∼ 20%, and Na+ and K+ ∼ 10% each. The Ca2+ in the Shafdan production wells and in the experimental columns outflow (∼5 meq L−1) was always higher than the Ca2+ in the recharged effluent (∼3.5 meq L−1), indicating continuous CaCO3 dissolution. This study demonstrates that besides mixing, a suite of geochemical processes should be considered when assessing groundwater quality following artificial recharge of aquifers.
Research highlights
► A field study and laboratory simulations of the geochemical evolution of groundwater following artificial recharge of effluent were conducted.
► The cations distribution of effluent recharged into calcareous sandstone aquifer is controlled by cation exchange and CaCO3 dissolution.
► The initial cation exchange included adsorption of Na+, K+ and Mg2+ and desorption of Ca2+.
► Retardation factors of K+ and Mg2+ in the aquifer lower by an order of magnitude than in the experimental columns.
Journal: Journal of Hydrology - Volume 400, Issues 1–2, 30 March 2011, Pages 165–175