Orange peel magnetic activated carbon for removal of acid orange 7 dye from water

Magnetic activated carbon resources with a remarkably high specific surface area have been successfully synthesized using orange peels as the precursor and ZnCl 2 as the activating agent. The impregnation ratio was set at 0.5, while the pyrolysis temperature spanned from 700 to 900 °C. This comprehe...

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Bibliographic Details
Published in:Scientific reports 2024-01, Vol.14 (1), p.119-119, Article 119
Main Authors: Khalil, Asmaa, Mangwandi, Chirangano, Salem, Mohamed A., Ragab, Safaa, El Nemr, Ahmed
Format: Article
Language:English
Subjects:
639/638/169/896
704/172/169/896
Activated carbon
Adsorption
Carbon
Dye concentrations
Dyes
Fruits
Humanities and Social Sciences
Isotherms
Magnetic fields
multidisciplinary
Pyrolysis
Science
Science (multidisciplinary)
Surface area
Zinc chloride
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Summary:Magnetic activated carbon resources with a remarkably high specific surface area have been successfully synthesized using orange peels as the precursor and ZnCl 2 as the activating agent. The impregnation ratio was set at 0.5, while the pyrolysis temperature spanned from 700 to 900 °C. This comprehensive study delved into the influence of activation temperatures on the resultant pore morphology and specific surface area. Optimal conditions were discerned, leading to a magnetic activated carbon material exhibiting an impressive specific surface area at 700 °C. The Brunauer–Emmett–Teller surface area reached 155.09 m 2 /g, accompanied by a total pore volume of 0.1768 cm 3 /g, and a mean pore diameter of 4.5604 nm. The material displayed noteworthy properties, with saturation magnetization (Ms) reaching 17.28 emu/g, remanence (Mr) at 0.29 emu/g, and coercivity (Hc) of 13.71 G. Additionally, the composite demonstrated super-paramagnetic behaviour at room temperature, facilitating its rapid collection within 5 s through an external magnetic field. Factors such as absorbent dose, initial concentration of the adsorbate, contact time, and pH were systematically examined. The adsorption behaviour for acid orange 7 (AO7) was found to adhere to the Temkin isotherm models ( R 2  = 0.997). The Langmuir isotherm model suggested a monolayer adsorption, and the calculated maximum monolayer capacity ( Q m ) was 357.14 mg/g, derived from the linear solvation of the Langmuir model using 0.75 g/L as an adsorbent dose and 150–500 mg/L as AO7 dye concentrations. The pseudo-second order model proved to be the best fit for the experimental data of AO7 dye adsorption, with a high coefficient of determination ( R 2 ) ranging from 0.999 to 1.000, outperforming other kinetic models.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-50273-3