An advanced monitoring and control system for optimization of the ozone-AOP (advanced oxidation process) for the treatment of drinking water

Joon Wun Kang; Byung Soo Oh; Sang Yeon Park; Tae Mun Hwang; Hyun Je Oh; Youn Kyoo Choung

doi:10.1007/978-1-4020-6364-0_21

An advanced monitoring and control system for optimization of the ozone-AOP (advanced oxidation process) for the treatment of drinking water

Joon Wun Kang, Byung Soo Oh, Sang Yeon Park, Tae Mun Hwang, Hyun Je Oh, Youn Kyoo Choung

Division of Environmental Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

3 Citations (Scopus)

Abstract

This study was conducted to illustrate an innovative method for the optimization and control of the ozone-AOP (advanced oxidation process) to achieve the target oxidation objective for the removal of hazardous micropollutants, while minimizing the formation of harmful by-products, bromate (BrO₃). The control method was based on a specifically conceived analytical setup with FIA (flow injection analysis), which can accurately isolate and measure an individual oxidant in the presence of other oxidants (ozone, hydrogen peroxide, free chlorine, etc). Three auto-analyzing units (Ozone Kinetic Analyzing Unit, Hydrogen Peroxide Analyzing Unit and Bromate Analyzer) were specially devised for this study, which were successfully tested on both in lab-and demoscales for in-plant operation. Keywords: Bromate, ozone, ozone/hydrogen peroxide, hydroxyl radical (OH•), optimization

Original language	English
Title of host publication	Advanced Environmental Monitoring
Publisher	Springer Netherlands
Pages	271-281
Number of pages	11
ISBN (Print)	9781402063633
DOIs	https://doi.org/10.1007/978-1-4020-6364-0_21
Publication status	Published - 2008

All Science Journal Classification (ASJC) codes

Environmental Science(all)
Earth and Planetary Sciences(all)

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10.1007/978-1-4020-6364-0_21

Cite this

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abstract = "This study was conducted to illustrate an innovative method for the optimization and control of the ozone-AOP (advanced oxidation process) to achieve the target oxidation objective for the removal of hazardous micropollutants, while minimizing the formation of harmful by-products, bromate (BrO3). The control method was based on a specifically conceived analytical setup with FIA (flow injection analysis), which can accurately isolate and measure an individual oxidant in the presence of other oxidants (ozone, hydrogen peroxide, free chlorine, etc). Three auto-analyzing units (Ozone Kinetic Analyzing Unit, Hydrogen Peroxide Analyzing Unit and Bromate Analyzer) were specially devised for this study, which were successfully tested on both in lab-and demoscales for in-plant operation. Keywords: Bromate, ozone, ozone/hydrogen peroxide, hydroxyl radical (OH•), optimization",

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AU - Kang, Joon Wun

AU - Soo Oh, Byung

AU - Park, Sang Yeon

AU - Hwang, Tae Mun

AU - Je Oh, Hyun

AU - Choung, Youn Kyoo

PY - 2008

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AB - This study was conducted to illustrate an innovative method for the optimization and control of the ozone-AOP (advanced oxidation process) to achieve the target oxidation objective for the removal of hazardous micropollutants, while minimizing the formation of harmful by-products, bromate (BrO3). The control method was based on a specifically conceived analytical setup with FIA (flow injection analysis), which can accurately isolate and measure an individual oxidant in the presence of other oxidants (ozone, hydrogen peroxide, free chlorine, etc). Three auto-analyzing units (Ozone Kinetic Analyzing Unit, Hydrogen Peroxide Analyzing Unit and Bromate Analyzer) were specially devised for this study, which were successfully tested on both in lab-and demoscales for in-plant operation. Keywords: Bromate, ozone, ozone/hydrogen peroxide, hydroxyl radical (OH•), optimization

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An advanced monitoring and control system for optimization of the ozone-AOP (advanced oxidation process) for the treatment of drinking water

Abstract

All Science Journal Classification (ASJC) codes

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