Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor

Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor

Increased production in the textile industry has the potential to result in high dye waste water. Various conventional methods to handle with textile waste treatment have been done, but still considered not yet or less effective. The AOP technology (Advanced Oxidation Processes) applied in this rese...

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Main Authors: Sekar Nadisti Meidina, Annisa Nur, Fathul Karamah Eva, Saksono Nelson, Bismo Setijo
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20186704017
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spelling doaj-55010e147e994dd1a41bcee59ff43e692021-02-02T00:22:27ZengEDP SciencesE3S Web of Conferences2267-12422018-01-01670401710.1051/e3sconf/20186704017e3sconf_i-trec2018_04017Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactorSekar Nadisti MeidinaAnnisa NurFathul Karamah EvaSaksono NelsonBismo SetijoIncreased production in the textile industry has the potential to result in high dye waste water. Various conventional methods to handle with textile waste treatment have been done, but still considered not yet or less effective. The AOP technology (Advanced Oxidation Processes) applied in this research is a rapid degradation technology in textile wastes with advanced oxidation process through the formation of hydroxyl radical (OH) which is considered to optimize the degradation process of textile dye waste. This study aims to evaluate the performance of ozonation methods and AOP (O3/UV/H2O2) in dye degradation of textile wastewater containing remazol blue compounds. Both configuration methods used are optimized in several parameters such as waste flow rate, ozone voltage and pH to obtain maximum remazol blue degradation. From this study, the higher percentage to remazol blue degradation is 99.99%, which is achieved by AOP method, with double air injection air flow rate of 10 L/min and 0.25 L/min liquid flow rate.https://doi.org/10.1051/e3sconf/20186704017
collection DOAJ
language English
format Article
sources DOAJ
author Sekar Nadisti Meidina
Annisa Nur
Fathul Karamah Eva
Saksono Nelson
Bismo Setijo
spellingShingle Sekar Nadisti Meidina
Annisa Nur
Fathul Karamah Eva
Saksono Nelson
Bismo Setijo
Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
E3S Web of Conferences
author_facet Sekar Nadisti Meidina
Annisa Nur
Fathul Karamah Eva
Saksono Nelson
Bismo Setijo
author_sort Sekar Nadisti Meidina
title Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
title_short Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
title_full Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
title_fullStr Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
title_full_unstemmed Waste treatment of remazol blue compounds based on ozonation/AOP in a bubble column reactor
title_sort waste treatment of remazol blue compounds based on ozonation/aop in a bubble column reactor
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2018-01-01
description Increased production in the textile industry has the potential to result in high dye waste water. Various conventional methods to handle with textile waste treatment have been done, but still considered not yet or less effective. The AOP technology (Advanced Oxidation Processes) applied in this research is a rapid degradation technology in textile wastes with advanced oxidation process through the formation of hydroxyl radical (OH) which is considered to optimize the degradation process of textile dye waste. This study aims to evaluate the performance of ozonation methods and AOP (O3/UV/H2O2) in dye degradation of textile wastewater containing remazol blue compounds. Both configuration methods used are optimized in several parameters such as waste flow rate, ozone voltage and pH to obtain maximum remazol blue degradation. From this study, the higher percentage to remazol blue degradation is 99.99%, which is achieved by AOP method, with double air injection air flow rate of 10 L/min and 0.25 L/min liquid flow rate.
url https://doi.org/10.1051/e3sconf/20186704017
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AT annisanur wastetreatmentofremazolbluecompoundsbasedonozonationaopinabubblecolumnreactor
AT fathulkaramaheva wastetreatmentofremazolbluecompoundsbasedonozonationaopinabubblecolumnreactor
AT saksononelson wastetreatmentofremazolbluecompoundsbasedonozonationaopinabubblecolumnreactor
AT bismosetijo wastetreatmentofremazolbluecompoundsbasedonozonationaopinabubblecolumnreactor
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