Synthesis of GO-ZnO via impregnation method for fluoride removal in wastewater / Mohamad Hanafi Mohamad Rosli

Fluoride is one of the essential elements for human health, which is beneficial with low concentration. However high concentration of fluoride in wastewater discharge from various industries is threatening the environment due to its hazardous effects and properties. There are various literature stud...

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Bibliographic Details
Main Author: Mohamad Rosli, Mohamad Hanafi
Format: Student Project
Language:English
Published: 2017
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/37478/1/37478.pdf
https://ir.uitm.edu.my/id/eprint/37478/
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Institution: Universiti Teknologi Mara
Language: English
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Summary:Fluoride is one of the essential elements for human health, which is beneficial with low concentration. However high concentration of fluoride in wastewater discharge from various industries is threatening the environment due to its hazardous effects and properties. There are various literature studies that have been carried out for the fluoride removal using different types of adsorbents. This study aims to develop an efficient modified graphene oxide as an adsorbent for fluoride removal in wastewater. The specific objectives of this study are to study the effect of synthesis parameter of GO-ZnO adsorbent via impregnation method for fluoride removal which are temperature, time, and ratio of GO to ZnO. The ratio, temperature, and time that give a highest adsorption capacity and percentage removal are 5:1, 45°C and 60 minutes respectively. The highest value of adsorption capacity obtained from the fluoride removal is 55.5 mg/g. and the highest percentage removal is 37%. The functional group contain in the GO/ZnO are hydroxyl group (O-H), C=O group, aromatics group, carboxyl group (C-O), epoxy group and alkoxy group. This functional group affects the fluoride adsorption due to the bonding of fluoride ion to the functional group. The intensity or the percentage transmittance is change where the reaction was occurred at the peak.