The dependence of stream depletion by seasonal pumping on various hydraulic characteristics and engineering factors |
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| Authors: | Elena A Filimonova Rostislav S Shtengelov |
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| Institution: | 1. Faculty of Geology, Lomonosov Moscow State University, Novo-Mytishchinskiy Ave., Building 47, Block 1, Apt. 17, Mytishchi, Russia, 141018
2. Faculty of Geology, Lomonosov Moscow State University, Sumskoy Secondary Road, Building 12, Block 2, Apt. 471, Moscow, Russia, 117208
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| Abstract: | Compensation pumping is used to alleviate deficiencies in streamflow discharge during dry seasons. Short-term groundwater pumping can use aquifer storage instead of catchment-zone water until the drawdown reaches the edge of the stream. The capacitance is a complex, dimensionless parameter of an aquifer system that defines the delayed effect on streamflow when there is groundwater pumping. This parameter is a function of aquifer hydraulic characteristics, pumping time, and distance between the well and stream edge; the latter can involve stream leakance and vertical leakance of an associated aquitard. Three typical hydraulic cases of combined water systems (major catchment-zone wells close to the stream and compensation pumping wells) were classified depending on their capacitance structure (i.e. the relationship between surface water and groundwater): (1) perfect hydraulic connection between the stream and aquifer; (2) imperfect hydraulic connection between the stream and aquifer; and (3) essentially imperfect hydraulic connection between the stream and the underlying confined aquifer. The impact of various hydraulic characteristics and engineering factors on stream depletion was examined by conceptual and numerical modeling. To predict the suitability and efficiency of a combined water system application, regression tests were undertaken on unit stream depletion and capacitance, and power dependencies were defined. |
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