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Author Asadi, Mohamad ♦ Rezaei, Ziba ♦ Khodabakshi, Mohammad Javad ♦ Kaviani, Davood
Source Directory of Open Access Journals (DOAJ)
Content type Text
Publisher Qom University of Medical Sciences
File Format HTM / HTML
Date Created 2016-06-01
Copyright Year ©2016
Language English
Subject Domain (in LCC) R5-920
Subject Keyword UV/H2O2 ♦ Malachite green ♦ Advanced treatment ♦ Iran ♦ Medicine ♦ Nanophotocatalyst ♦ Aqueous solution
Abstract Background & Aims of the Study: Malachite Green (MG) is the most commonly used substance for dying cotton, food & pharmacy industries, paper, leather and silk. On inhalation it can cause difficult breathing, while on the direct contact it may cause permanent injury of the eyes of human and animals, burning sensations, nausea, vomiting, profuse sweating, mental confusion and methemoglobinemia; also it can causes cancer in livers. The aim of this study is the removal of Malachite Green (MG) dye from aqueous solutions, using MnFe2O4/Al2O3 nanophotocatalyst by UV/H2O2 process which was used as a low cost method. Materials & Methods: In this research, photocatalytic decomposition of malachite green in water was done by nanocatalyst MnFe2O4/Al2O3 in discontinuous photoreactor under UV light and the injection of H2O2. In order to identify and analyze the provided catalyst, SEM image and XRD diffraction pattern were used. The effect of operational factors in the photocatalytic decomposition of the desired pollutant such as pH, the initial thickness of the dye, the thickness of H2O2 and the quantity of the catalyst were investigated. Results: The finding showed that the right conditions for the elimination of the pollutant included pH equals 4, the initial thickness of the dye being 10 ppm, the thickness of H2O2 being 250ppm, the amount of catalyst being 50mg, the Correlation Coefficient being 0.998 and the dye removal was 94 percent at the end of the experiment. the reaction of Malachite green decomposition was in terms of kinetics investigated through integral method as well; also it showed the kinetic reaction is the first type and the constant speed rate is K=0.047 min-1. Conclusions: According to the results, because of the complexity of dye structure, biological system was not able to remove the dye as efficient as hybrid system of advanced oxidation processes UV/H2O2 with nanophotocatalyst as an efficient way to remove the Malachite green dye from water solution is obtained that increases the decomposability of organic materials. This way has proved to be able to decompose the hard compounds that are resistant to decomposition.
ISSN 22519203
Age Range 18 to 22 years ♦ above 22 year
Educational Use Research
Education Level UG and PG ♦ Career/Technical Study
Learning Resource Type Article
Publisher Date 2016-04-01
e-ISSN 22519203
Journal Archives of Hygiene Sciences
Volume Number 5
Issue Number 2
Page Count 10
Starting Page 75
Ending Page 84

Source: Directory of Open Access Journals (DOAJ)