Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method

Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method

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碩士 === 國立成功大學 === 化學工程學系碩博士班 === 92 ===   The investigation used H2O2/Fe2+, one of the chemical oxidation methods called Fenton, to treat reactive dye-Black B. And added UV light or electric field to improve removal efficiencies. Experimental results showed that when dye degraded by Fenton, would pr...

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Main Authors: Po-Hsun Chang, 張博荀
Other Authors: Yao-Hui Huang
Format: Others
Language:zh-TW
Published: 2004
Online Access:http://ndltd.ncl.edu.tw/handle/80700934721591415502
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spelling ndltd-TW-092NCKU50630452015-10-13T16:27:00Z http://ndltd.ncl.edu.tw/handle/80700934721591415502 Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method H2O2/Fe2+化學氧化法處理反應性染料-BlackB之研究 Po-Hsun Chang 張博荀 碩士 國立成功大學 化學工程學系碩博士班 92   The investigation used H2O2/Fe2+, one of the chemical oxidation methods called Fenton, to treat reactive dye-Black B. And added UV light or electric field to improve removal efficiencies. Experimental results showed that when dye degraded by Fenton, would product formic acid and oxalic acid, which’s COD were ca half of actual measured, were major intermediates. The COD removal efficiencies was Photo-Fenton>Fered-Fenton>Fenton. Fered-Fenton process applied H2O2 and electrogenerated Fe2+ produced via the reduction of ferric ion. When Fered-Fenton was operated under nice current efficiency, have well removal efficiencies for formic acid, but not for oxalic acid. In contrast, Photo-Fenton have well removal efficiencies for formic acid and oxalic acid. Through my investigation verified that, the reaction mechanism of Photo-Fenton was UV light reacted with ferrioxalate, proceeded reduced Fe2+ and degraded oxalic acid. Yao-Hui Huang 黃耀輝 2004 學位論文 ; thesis 158 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立成功大學 === 化學工程學系碩博士班 === 92 ===   The investigation used H2O2/Fe2+, one of the chemical oxidation methods called Fenton, to treat reactive dye-Black B. And added UV light or electric field to improve removal efficiencies. Experimental results showed that when dye degraded by Fenton, would product formic acid and oxalic acid, which’s COD were ca half of actual measured, were major intermediates. The COD removal efficiencies was Photo-Fenton>Fered-Fenton>Fenton. Fered-Fenton process applied H2O2 and electrogenerated Fe2+ produced via the reduction of ferric ion. When Fered-Fenton was operated under nice current efficiency, have well removal efficiencies for formic acid, but not for oxalic acid. In contrast, Photo-Fenton have well removal efficiencies for formic acid and oxalic acid. Through my investigation verified that, the reaction mechanism of Photo-Fenton was UV light reacted with ferrioxalate, proceeded reduced Fe2+ and degraded oxalic acid.
author2 Yao-Hui Huang
author_facet Yao-Hui Huang
Po-Hsun Chang
張博荀
author Po-Hsun Chang
張博荀
spellingShingle Po-Hsun Chang
張博荀
Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
author_sort Po-Hsun Chang
title Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
title_short Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
title_full Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
title_fullStr Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
title_full_unstemmed Study on the treatment of reactive dye-Black B by H2O2/Fe2+ chemical oxidation method
title_sort study on the treatment of reactive dye-black b by h2o2/fe2+ chemical oxidation method
publishDate 2004
url http://ndltd.ncl.edu.tw/handle/80700934721591415502
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AT zhāngbóxún studyonthetreatmentofreactivedyeblackbbyh2o2fe2chemicaloxidationmethod
AT pohsunchang h2o2fe2huàxuéyǎnghuàfǎchùlǐfǎnyīngxìngrǎnliàoblackbzhīyánjiū
AT zhāngbóxún h2o2fe2huàxuéyǎnghuàfǎchùlǐfǎnyīngxìngrǎnliàoblackbzhīyánjiū
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