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Benzoic Acid Degradation by Highly Active Heterogeneous Fenton-like Process using Fe<sup>3+</sup>-Al<sub>2</sub>O<sub>3</sub> Catalyst

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Title Benzoic Acid Degradation by Highly Active Heterogeneous Fenton-like Process using Fe3+-Al2O3 Catalyst
 
Creator Mohapatra, Titikshya
Ghime, Damodhar
Rohit, M
Ghosh, Prabir
 
Subject Advanced oxidation technologies (AOTs)
Catalyst characterization
Environmental remediation
Heterogeneous supported catalyst
Hydroxyl radicals
 
Description 262-268
This work examines oxidative degradation of benzoic acid in an aqueous solution using an eco-friendly advanced
oxidation (heterogeneous Fenton) process. The degradation of benzoic acid (1,000 mgL−1) with H2O2 was performed using
Fe3+ immobilized within an Al2O3 matrix as a heterogeneous Fenton catalyst and the efficiency of the system was compared
to that of the homogeneous Fe3+/H2O2 system. The influence of various operational conditions like catalyst dosage, H2O2
concentration, Fe3+ concentration, pH of the solution and initial substrate concentration on % degradation for both the
processes has been studied to find out the best operating conditions for these processes. The experimental results show
that the optimum conditions for homogeneous Fe3+/H2O2 process are [Fe3+] = 1,250 mgL−1, [H2O2] = 2,000 mgL−1, initial
pH = 3 and 87.5 % degradation was obtained within 35 min. In the case of heterogeneous catalyst, degradation improved
to 91.7% using 12.5 gL−1 catalyst for the same duration keeping other operating conditions the same. The use of
iron immobilized in alumina matrix as heterogeneous Fenton catalyst is an alternative approach for degrading
organic contaminants.
 
Date 2022-03-08T06:37:14Z
2022-03-08T06:37:14Z
2022-03
 
Type Article
 
Identifier 0975-1084 (Online); 0022-4456 (Print)
http://nopr.niscair.res.in/handle/123456789/59312
 
Language en
 
Publisher NIScPR-CSIR, India
 
Source JSIR Vol.81(03) [March 2022]