Assessment of small-diameter shallow wells for managed aquifer recharge at a site in southern Styria,Austria |
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Authors: | Falk Händel Gaisheng Liu Johann Fank Franz Friedl Rudolf Liedl Peter Dietrich |
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Affiliation: | 1.Institute for Groundwater Management,Technische Universit?t Dresden,Dresden,Germany;2.Department Monitoring and Exploration Technologies,UFZ-Helmholtz Centre for Environmental Research,Leipzig,Germany;3.Kansas Geological Survey,University of Kansas,Lawrence,USA;4.JOANNEUM RESEARCH - RESOURCES,Graz,Austria;5.Wasserverband Wasserversorgung Grenzland Südost,Fehring,Austria;6.Center of Applied Geoscience,University of Tübingen,Tübingen,Germany |
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Abstract: | An approach to establish the recharge component of managed aquifer recharge (MAR) has recently been proposed that uses small-diameter shallow wells installed using relatively inexpensive drilling methods such as direct push. As part of further development of that approach, a generalized procedure is presented for a technical and economic assessment of the approach’s potential in comparison to other systems. Following this procedure, the use of small-diameter wells was evaluated both experimentally and numerically for a site located in southern Styria, Austria. MAR is currently done at the site using a horizontal pipe infiltration system, and system expansion has been proposed with a target rate of 12 l/s using small-diameter wells as one possible option. A short-duration single-well field recharge experiment (recharge rate 1.3–3.5 l/s) was performed (recharge by gravity only). Numerical modeling of the injection test was used to estimate hydraulic conductivity (K). Quasi-steady-state, single-well recharge simulations for different locations, as well as a long-term transient simulation, were performed using the K value calibrated from the field injection test. Results indicate that a recharge capacity of 4.1 l/s was achievable with a maximum head rise of 0.2 m at the injection well. Finally, simulations were performed for three different well fields (4, 6 and 8 wells, respectively) designed to infiltrate a target rate of 12 l/s. The experimental and numerical assessments, supported by a cost analysis of the small-diameter wells, indicate that the small-diameter wells are a viable, cost-effective recharge approach at this and other similar sites. |
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