4.7 Article

Fabrication of engineered biochar-iron oxide from date palm frond for the effective removal of cationic dye from wastewater

Journal

JOURNAL OF WATER PROCESS ENGINEERING
Volume 54, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.jwpe.2023.104046

Keywords

Adsorption; Modified biochar; Iron oxide particles; Methylene blue dye

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Wastewater containing dye can be effectively treated by using modified biochar (Biochar-FexOy) with a high adsorption capacity of 85.1 mg/g for methylene blue (MB) dye at pH 8. The enhanced adsorption performance of Biochar-FexOy can be attributed to its increased surface area, porosity, and deposition of metal ions. The adsorption mechanism involves electrostatic attraction, hydrogen bonding, & pi;-& pi; interactions, and possible cationic exchange. The adsorption capacity of Biochar-FexOy remains high even after 4 regeneration cycles, indicating its potential for practical dye wastewater treatment.
Wastewater containing dye is harmful to the environment. Methylene blue (MB) dye can be removed from wastewater using low-cost, renewable adsorbents. In this study, modified biochar (Biochar-FexOy), pristine biochar and FexOy were fabricated, characterized, and investigated for their performance to remove MB dye from wastewater. The Biochar-FexOy (85.1 mg/g) showed increased adsorption capacity in comparison to biochar (60.1 mg/g) and FexOy (50 mg/g) at an optimum pH of 8 due to the increase in surface area, porosity, and deposition of metal ions on its surface for adsorption. The enhanced MB adsorption by the Biochar-FexOy can be attributed to electrostatic attraction, hydrogen bonding, & pi;-& pi; interactions, and possible cationic exchange as evidenced by the result of the FTIR, EDX, and XRD analysis. Moreover, the adsorption of MB dye by the BiocharFexOy showed an antagonistic effect in the presence of NaHCO3  and NaCl salt but showed a synergistic effect in the presence of Cu (II) ions. The Langmuir and pseudo-second-order isotherm model best describe the adsorption process of MB dye over the Biochar-FexOy. The adsorption capacity was still high after 4 regeneration cycles for the Biochar-FexOy which concludes that modified biochar can be effectively utilized for dye wastewater treatment. Finally, the fixed-bed column adsorption performance demonstrated that Biochar-FexOy could be used to polish real secondary textile industry effluents prior to treatment.

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