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Bromate formation control by enhanced ozonation: A critical review

Ruchi Joshi, Thunyalux Ratpukdi, Kristofer Knutson, Amit Bhatnagar, Eakalak Khan

2020Critical Reviews in Environmental Science and Technology20 citationsDOI

Abstract

In the past two decades, ozone-based advanced oxidation processes, known as enhanced ozonation processes (EOPs), have been extensively investigated for the removal of emerging organic contaminants in water, such as pesticides, endocrine-disrupting compounds, and pharmaceuticals. EOPs offer an advantage by producing highly oxidizing radicals, such as hydroxyl radicals, to oxidize recalcitrant organic compounds. Although the EOPs are able to effectively remove emerging contaminants, several studies reported the formation of bromate, which has drawn significant attention because of its potential carcinogenicity. This issue becomes challenging for the utilization of EOPs on bromide containing water. Therefore, this work critically reviews and summarizes the mechanisms, influencing factors, advantages and disadvantages, and control strategies for bromate formation by four EOPs, i.e., peroxone and e-peroxone, photolytic ozonation, heterogeneous ozonation, and sonolytic ozonation. Various economic and technical characteristics of EOPs were also compared. Mathematical modeling, pilot and full-scale data, and secondary pollutant potential (toxic metals leaching from catalyst) have been identified as knowledge gaps, and future research should seek to address these issues.

Topics & Concepts

BromateChemistryOxidizing agentOzoneEnvironmental chemistryWater treatmentBromideEnvironmental scienceEnvironmental engineeringOrganic chemistryAdvanced oxidation water treatmentAdvanced Photocatalysis TechniquesIndustrial Gas Emission Control
Bromate formation control by enhanced ozonation: A critical review | Litcius