Model Based Raw Water Quality Management - Manganese Mobilization Induced by Bank Filtration

In many countries bank filtration is used as the first step of drinking water treatment. River water percolates the riverbed and aquifer sediments which serve as a natural filter removing substances like nitrate, particular and dissolved organic matter and trace elements. Raw water quality, therefor...

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Bibliographic Details
Published in:Clean (Weinheim. Print) 2009-12, Vol.37 (12), p.945-954
Main Authors: Kübeck, Christine, Hansen, Carsten, Bergmann, Axel, Kamphausen, Stefan, König, Christoph, van Berk, Wolfgang
Format: Article
Language:English
Subjects:
DOC (dissolved organic carbon)
Earth sciences
Earth, ocean, space
Exact sciences and technology
Freshwater
Hydrogeochemical modeling
Hydrology
Hydrology. Hydrogeology
Riverbank filtration
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Summary:In many countries bank filtration is used as the first step of drinking water treatment. River water percolates the riverbed and aquifer sediments which serve as a natural filter removing substances like nitrate, particular and dissolved organic matter and trace elements. Raw water quality, therefore, depends on both river water quality as well as hydrogeochemical processes within the sediment. Exemplified by the case study of Auf dem Grind, Well II (Düsseldorf, Germany), the geohydraulic and hydrogeochemical processes of a catchment area that is strongly influenced by bank filtration were investigated. Raw water extracted from Well II showed significantly elevated manganese concentrations compared to river water and to raw water from other wells in the catchment area. A reactive transport model was developed for retracing the measured raw water quality. Retrospective modeling revealed the principles of long and midterm changes in raw water quality, especially fluctuations in manganese concentrations. Based on the model‐scenario, the effects of varying river water qualities and/or agricultural fertilization practices can be predicted. The quantitative understanding of coupled hydrogeochemical and hydraulic processes enables the development of sustainable strategies optimizing raw water quality, e. g. with regard to a cost effective water treatment. Research Articles: When bank filtration is used in water treatment, raw water quality depends on both river water quality and hydrogeochemical processes. In a case study, the geohydraulic and hydrogeochemical processes of a catchment area that is strongly influenced by bank filtration were investigated. Understanding these processes enables the development of sustainable strategies optimizing raw water quality.
ISSN:1863-0650
1863-0669
DOI:10.1002/clen.200900119