Kinetic study of an immobilized iron oxide for catalytic degradation of azo dye reactive black B with catalytic decomposition of hydrogen peroxide

Ch-Hpin Huang; Y. F. Huang; H. P. Cheng; Y. H. Huang

doi:10.1016/j.catcom.2008.10.033

Kinetic study of an immobilized iron oxide for catalytic degradation of azo dye reactive black B with catalytic decomposition of hydrogen peroxide

Ch-Hpin Huang
, Y. F. Huang
, H. P. Cheng
, Y. H. Huang^*

^*Corresponding author for this work

Institute of Environmental Engineering

Research output: Contribution to journal › Article › peer-review

60 Scopus citations

Abstract

A new immobilized iron oxide (SiG2) was used for the catalytic decomposition of H₂O₂ and further oxidation of azo dye reactive black B (RBB). The effect of temperature on the catalysis was studied. The decomposition of H₂O₂ followed pseudo first-order kinetics in the presence of SiG2. The rate constants and activation energy (∼60 kJ mol^-1) of H₂O₂ decomposition were calculated from the experimental data. The combination of H₂O₂ and SiG2 were found to be efficient for the degradation of RBB. A two-stage reaction rate law (initiation stage and radical reaction stage) was proposed to simulate the degradation of RBB. The activation energy for RBB degradation at initiation and at radical reaction periods were 20.8 and 83.7 kJ mol^-1, respectively. Crown

Original language	English
Pages (from-to)	561-566
Number of pages	6
Journal	Catalysis Communications
Volume	10
Issue number	5
DOIs	https://doi.org/10.1016/j.catcom.2008.10.033
State	Published - 25 Jan 2009

Keywords

Azo dye
Degradation
Hydrogen peroxide
Iron oxide
Kinetic

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10.1016/j.catcom.2008.10.033

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title = "Kinetic study of an immobilized iron oxide for catalytic degradation of azo dye reactive black B with catalytic decomposition of hydrogen peroxide",

abstract = "A new immobilized iron oxide (SiG2) was used for the catalytic decomposition of H2O2 and further oxidation of azo dye reactive black B (RBB). The effect of temperature on the catalysis was studied. The decomposition of H2O2 followed pseudo first-order kinetics in the presence of SiG2. The rate constants and activation energy (∼60 kJ mol-1) of H2O2 decomposition were calculated from the experimental data. The combination of H2O2 and SiG2 were found to be efficient for the degradation of RBB. A two-stage reaction rate law (initiation stage and radical reaction stage) was proposed to simulate the degradation of RBB. The activation energy for RBB degradation at initiation and at radical reaction periods were 20.8 and 83.7 kJ mol-1, respectively. Crown",

keywords = "Azo dye, Degradation, Hydrogen peroxide, Iron oxide, Kinetic",

author = "Ch-Hpin Huang and Huang, \{Y. F.\} and Cheng, \{H. P.\} and Huang, \{Y. H.\}",

year = "2009",

month = jan,

day = "25",

doi = "10.1016/j.catcom.2008.10.033",

language = "English",

volume = "10",

pages = "561--566",

journal = "Catalysis Communications",

issn = "1566-7367",

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number = "5",

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TY - JOUR

T1 - Kinetic study of an immobilized iron oxide for catalytic degradation of azo dye reactive black B with catalytic decomposition of hydrogen peroxide

AU - Huang, Ch-Hpin

AU - Huang, Y. F.

AU - Cheng, H. P.

AU - Huang, Y. H.

PY - 2009/1/25

Y1 - 2009/1/25

N2 - A new immobilized iron oxide (SiG2) was used for the catalytic decomposition of H2O2 and further oxidation of azo dye reactive black B (RBB). The effect of temperature on the catalysis was studied. The decomposition of H2O2 followed pseudo first-order kinetics in the presence of SiG2. The rate constants and activation energy (∼60 kJ mol-1) of H2O2 decomposition were calculated from the experimental data. The combination of H2O2 and SiG2 were found to be efficient for the degradation of RBB. A two-stage reaction rate law (initiation stage and radical reaction stage) was proposed to simulate the degradation of RBB. The activation energy for RBB degradation at initiation and at radical reaction periods were 20.8 and 83.7 kJ mol-1, respectively. Crown

AB - A new immobilized iron oxide (SiG2) was used for the catalytic decomposition of H2O2 and further oxidation of azo dye reactive black B (RBB). The effect of temperature on the catalysis was studied. The decomposition of H2O2 followed pseudo first-order kinetics in the presence of SiG2. The rate constants and activation energy (∼60 kJ mol-1) of H2O2 decomposition were calculated from the experimental data. The combination of H2O2 and SiG2 were found to be efficient for the degradation of RBB. A two-stage reaction rate law (initiation stage and radical reaction stage) was proposed to simulate the degradation of RBB. The activation energy for RBB degradation at initiation and at radical reaction periods were 20.8 and 83.7 kJ mol-1, respectively. Crown

KW - Azo dye

KW - Degradation

KW - Hydrogen peroxide

KW - Iron oxide

KW - Kinetic

UR - https://www.scopus.com/pages/publications/58149328427

U2 - 10.1016/j.catcom.2008.10.033

DO - 10.1016/j.catcom.2008.10.033

M3 - Article

AN - SCOPUS:58149328427

SN - 1566-7367

VL - 10

SP - 561

EP - 566

JO - Catalysis Communications

JF - Catalysis Communications

IS - 5

ER -

Kinetic study of an immobilized iron oxide for catalytic degradation of azo dye reactive black B with catalytic decomposition of hydrogen peroxide

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Keywords

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