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AsFeP0 - A model concept for in situ investigation or arsenic and phosphate adsorption to predefined iron minerals and to characterize transformation processes of iron minerals

Description: Das Projekt "AsFeP0 - A model concept for in situ investigation or arsenic and phosphate adsorption to predefined iron minerals and to characterize transformation processes of iron minerals" wird vom Umweltbundesamt gefördert und von Eidgenössische Anstalt für Wasserversorgung, Abwasserreinigung und Gewässerschutz, Abteilung Wasserressourcen und Trinkwasser durchgeführt. Shallow groundwater of the huge deltaic systems of Asia like the Red River Delta in Vietnam is often enriched in inorganic arsenic (As), threatening the health of millions of residents. The massive abstraction of groundwater in these areas locally causes an irreversible mixing of arsenic-free groundwater resources with arsenic-rich groundwater. Increased concentrations of competitive anions, especially phosphate (PO43-), decrease the immobilization capacity of the sediments. During transport, the mobility of dissolved As in local aquifers is strongly influenced by adsorption to sedimentary and ubiquitously occurring iron(oxyhydr)oxides. Additionally, arsenic-rich groundwater is often enriched in reduced iron (Fe2+) as well, which is capable to react with iron(oxyhydr)oxides, thereby inducing mineral transformations. Such transformations permanently affect the arsenic adsorption and immobilization capacity of the sediments.Within the scope of this research project, the underlying mechanisms related to As transport and the resulting threat to arsenic-free groundwater resources will be characterized in cooperation with the Swiss Federal Institute of Aquatic Science and Technology (Eawag). The research concept aims at assessing the complex interactions within the arsenic-iron-phosphate-system under field conditions at a study site next to the Red River. First, filtration experiments using local groundwater enriched in As and PO43- will be used to determine the As adsorption capacity of different and previously geochemically characterized iron(oxyhydr)oxides. In a second step, sample carrier containing As loaded iron(oxyhydr)oxides will be introduced into surface near aquifer parts of the study site (via existing groundwater monitoring wells). These samples will be exposed to local groundwater characterized by increased As, Fe2+ and PO43- concentrations for the following nine months. Using the in situ exposition of predefined iron(oxyhydr)oxides, it will be possible to distinguish potential mineral transformations and their influences on the As immobilization capacity of the respective iron(oxyhydr)oxides. By combining the results and outcomes of the field experiments, new and important conclusions regarding the mobility of As can be drawn. The data can be used to create a hydrochemical transport model describing reactive As transport within the investigation area. In addition, the results of the in situ exposition experiments will allow to draw conclusions in respective to the long term As immobilization capacity of different iron(oxyhydr)oxides, which is an essential information regarding in situ decontamination techniques.

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SupportProgram

Origin: /Bund/UBA/UFORDAT

Tags: Eisenphosphat ? Eisenoxid ? Gesundheitsgefährdung ? Phosphat ? Eisen ? Fluss ? Biogeochemie ? Grundwassermonitoring ? Abwasserreinigung ? Arsen ? Geochemie ? Skigebiet ? Brunnen ? Schweiz ? Vietnam ? Adsorption ? Anionen ? Entgiftung ? Grundwasservorkommen ? Hydrogeologie ? Kristallographie ? Grundwasserprobe ? Exposition ? Verkehrsmodell ? Ackerland ? Daten ? Rechtsverfahren ? Gesteinskunde ? Grundwasserleiter ? Hydrochemie ? Limnologie ? Mineralogie ? Monitoring ? Siedlungswasserwirtschaft ? Studie ? Technik ? Trinkwasser ? Wasserversorgung ? Gewässerschutz ? Sediment ? Grundwasser ? Asien ? Forschungsprojekt ? Bevölkerung ? Forschung ? Freilandversuch ? Hydrologie ? in situ ? Mineral ? Verkehrstechnik ? Wasserressourcen ? Zusammenarbeit ? Verkehr ? PROJEKT ? AUSGEWAEHLT ? Spediteur ? Konzentrat ? BESTEHEND ? BEWERTEN ? DELTAMUENDUNG ? TEIL ? LEISTUNGSFAEHIGKEIT ? UNTER ? Lagerstättenkunde ? DEMOBILISIERUNG ? ERGEBNIS ? EXPERIMENT ? ABNAHME ? VERFRACHTUNG ? STARK ? FAEHIG ? VERWANDT ? Vermehrung ? MECHANISMEN ? MISCHEN ? FREI ? OBERFLAECHE ? WISSENSCHAFT ? PERMANENT ? GELOEST ? POTENZIAL ? PROBE ? ANGEREICHERT ? Wechselwirkung ? SEDIMENTAER ? GEMISCHT ? VERHAELTNIS ?

License: cc-by-nc-nd/4.0

Language: Deutsch

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Time ranges: 2013-01-01 - 2024-11-29

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