Optimization of iron removal in water by nanobubbles using response surface methodology

Document Type

Article

Publication Date

6-1-2021

Abstract

Iron contamination, causing staining, discoloration and bad taste, is a worldwide water problem. It is necessary to focus on iron oxidation from the water. This work aims to develop nanobubbles (NBs) technology to remove iron (Fe) from aqueous solutions. In batch experiments, the effects of initial Fe concentration, pH, and aeration pressure on the Fe oxidation efficiency were carried out. The results showed that initial concentrations, pH and aeration pressure are significant parameters influencing Fe oxidation. On the basis of single factor experiments, the Box–Behnken design was used to optimize the Fe oxidation conditions with NBs using three parameters (Fe concentration, pH, and aeration pressure) under the response surface methodology. The optimal Fe oxidation was achieved when the initial concentration was 13.7 mg·L-1, pH ¼ 9, and the aeration pressure was 290 kPa. The regression model of Fe oxidation rate under optimized test conditions is accurate and effective. The results showed that the combination of single factor test and response surface optimization can be used to optimize the Fe oxidation process with NBs. It is concluded that NBs technology is promising for Fe oxidation from water.

Identifier

85109114369 (Scopus)

Publication Title

Water Science and Technology Water Supply

External Full Text Location

https://doi.org/10.2166/WS.2021.042

e-ISSN

16070798

ISSN

16069749

First Page

1608

Last Page

1617

Issue

4

Volume

21

Grant

UDC201703151

Fund Ref

Ministry of Housing and Urban-Rural Development

This document is currently not available here.

Share

COinS