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Optimizing Granular Activated Carbon (Coal and Peat-Base) for Malathion Removal from Agricultural Effluent

Optimizing Granular Activated Carbon (Coal and Peat-Base) for Malathion Removal from Agricultural Effluent

Hajjar Hartini Wan Jusoh1,2, Hafizan Juahir1,2*, Azimah Ismail1, Nurfarahana Mohd Nasir3,5, Setyo Budi Kurniawan1,4 and Ahmad Jusoh5
 
 

1East Coast Environmental Research Institute, Gong Badak Campus, Universiti Sultan Zainal Abidin, Kuala Terengganu 21300, Malaysia; 2Faculty of Bioresource and Food Industry, Besut Campus, Universiti Sultan Zainal Abidin, Kuala Terengganu 22022, Malaysia; 3Faculty of Engineering, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan, Malaysia; 4Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia; 5Faculty of Ocean Engineering, Universiti Malaysia Terengganu, 21300 Kuala Terengganu, Terengganu.


*Correspondence | Hafizan Juahir, Faculty of Bioresource and Food Industry, Besut Campus, Universiti Sultan Zainal Abidin, Kuala Terengganu 21300, Malaysia; Email: [email protected] 

ABSTRACT

The usage of malathion pesticide and a subsequent release into the environment was a major concern worldwide due to detrimental effect and their toxicity to ecosystem. Concerned about the impact of malathion pesticide, this study investigated the effectiveness of granular activated carbon (GAC) in removing malathion from agricultural runoff. The study focused on how particle size and dosage of GAC impact the removal efficiency. Therefore, this study revealed that particle size and dosage of granular activated carbon significantly affect the removal efficiency of malathion from agricultural runoff. As the initial malathion concentration (7 µg L-1) was lowered to approximately 1.14 and 1.5 µg L-1 for CBAC and 2.87 µg L-1 for PBAC at respective diameters of 0.063 and 1.0 mm, the best circumstances for the highest removal efficiency of 90 % were observed. The features of adsorption behavior were described using the Langmuir and Freundlich adsorption isotherms models. The Freundlich and Langmuir models, with a maximum adsorption capacity of 248.1 mg g-1, suit the equilibrium results quite well. Therefore, this study highlights the potential of GAC as an effective absorbent material for the removal of malathion from agricultural runoff, with significant implications for mitigating the damaging consequences of environmental pesticide pollution.

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Sarhad Journal of Agriculture

September

Vol.40, Iss. 3, Pages 680-1101

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