Enhancing arsenic removal from groundwater at household level with naturally occurring iron

  • Anitha Kumari Sharma DTU Environment, Technical University of Denmark, Miljoevej, Building 113, 2800 Kgs., Lyngby, Denmark
  • Sabrina Sorlini Department of Civil, Environmental, Architectural Engineering and Mathematics, University of Brescia
  • Barbara Marianna Crotti A.S.Mare S.r.l., Mortara (Pavia)
  • Maria Cristina Collivignarelli University of Pavia, Pavia, Italy, Department of Civil and Architectural Engineering.
  • Jens Christian Tjell DTU Environment, Technical University of Denmark, Building 113, room 152
  • Alessandro Abbà University of Pavia, Pavia, Italy
Keywords: aluminum, metal removal, oxidation.

Abstract

A supply of drinking water low in Arsenic (As) prevents arsenic poisoning. The presence of high concentrations of iron (Fe) in groundwater under the alluvial plains of the large rivers in Southeast Asia is a prerequisite for the simple removal of As. This study investigated the mechanisms and possibilities for enhancing As removal with naturally occurring Fe in a reliable, low cost and sustainable way. The results of the study show that As removal with Fe is greatly enhanced by the addition of an oxidizing agent (preferably KMnO4) immediately after the pumping of groundwater. Further enhancement of As removal in the presence of Fe can be achieved by adding a small volume of a concentrated basic solution of MnO4- and AlO2-, which has a combined oxidation, coagulation and buffering capacity. Best results were obtained when this solution was mixed with the groundwater immediately after its pumping until a pale pink color appeared. Maximum required reaction time was 10 minutes and subsequent filtration of the water was able to reduce the As concentration to near zero. Concentrations of MnO4- and AlO2- can be varied in the solution to achieve sufficient As removal to suit different Fe/As ratios and the presence of interfering co-occurring anions.

Author Biographies

Anitha Kumari Sharma, DTU Environment, Technical University of Denmark, Miljoevej, Building 113, 2800 Kgs., Lyngby, Denmark
DTU Environment, Technical University of Denmark, Miljoevej, Building 113, 2800 Kgs., Lyngby, Denmark.
Sabrina Sorlini, Department of Civil, Environmental, Architectural Engineering and Mathematics, University of Brescia

drinking water (treatments, distribution, specific contaminants removal, etc.), zootechnical manure treatment and biogas reuse; municipal and industrial waste reuse and recovery, appropriate environmental technologies for developing countries.

Barbara Marianna Crotti, A.S.Mare S.r.l., Mortara (Pavia)

removal of conventional and non conventional pollutants from drinking water; research on AOPs and electrochemical treatment for liquid wastes.

Maria Cristina Collivignarelli, University of Pavia, Pavia, Italy, Department of Civil and Architectural Engineering.

chemical and biological processes for treatment of industrial wastewater/aqueous wastes, appropriate technologies for drinking water in developing countries.

Jens Christian Tjell, DTU Environment, Technical University of Denmark, Building 113, room 152
Technical University of Denmark Building 113, room 152
Alessandro Abbà, University of Pavia, Pavia, Italy

reuse of special wastes for concrete production and management of  municipal solid wastes, chemical and biological process for the treatment of industrial wastewater/aqueous wastes.

Published
23/06/2016
Issue
Vol. 11 No. 3 (2016)
Section
Papers

Authors maintain the copyrights for their work. However, they grant rights of first publication to Ambiente e Agua - An Interdisciplinary Journal of Applied Science. In compensation, the journal can transfer the copyrights, allowing non-commercial use of the article including the right of sending the article to other data bases or publication media. The journal uses the CC BY 4.0 license"