PublicationWater Advanced Treatment & Environmental Research Laboratory

Ozone/membrane hybrid process for arsenic removal in iron-containing water
Year
2011
First author
Yeojoon Yoon
Co-author
Yunyoung Hwang, Minkyu Ji, Byong-Hun Jeon
Corresponding author
Joon-Wun Kang
Journal
Desalination and Water Treatment
Vol
31(1-3)
Page
138-143
Status
[Published in Ozone & AOP Lab]
Abstract
In this study, the efficiency of arsenic removal by UF and NF membrane after ozonation was investigated. Furthermore, the role of iron in the removal of arsenic was studied. We found that more than 99% of As(III) was oxidized into As(V) with a 1.0 mg/L dose of ozone. The oxidized As(V) was partially removed (20% removal) by UF, and completely removed using NF. The effect of pH on As(V) removal by NF was evaluated. The As(V) was completely removed by NF at pH 9, but the removal rate decreased to 80% at an acidic pH (pH 4). A variation of pH affected the predomination of arsenic species, altering the overall removal rate of NF. The effect of co-existing iron species on arsenic removal was investigated under the condition of pH 7 by adding 5.0 mg/L FeCl₃ to the initial concentration of 100 μg/L arsenic. More than 40% of As(V) could be eliminated simply through coprecipitation with the iron precipitate. After UF membrane filtration, up to 99% of As(V) could be removed. The enhanced removal efficiency of As(V) was due to the precipitate As(V) with Fe(III) hydroxide being effectively filtrated onto the UF membrane, which was not observed in the case of the iron-free water.