AI Article Synopsis
- Biochar modified with iron/metal oxides shows great potential for better contaminant adsorption, specifically for anionic dyes.
- Traditional chemical modification methods for biochar can be complex and expensive; however, this study introduced a simpler technique using a one-step co-pyrolysis of red mud and shaddock peel to create effective biochar.
- The biochar synthesized at 800 °C demonstrated optimal performance in removing the anionic azo dye acid orange 7 due to its high surface area, ability to adsorb and degrade the dye, and convenient separation using a magnetic field.
Article Abstract
Biochar modification by metal/metal oxide is promising for improving its adsorption capability for contaminants, especially the anions. However, conventional chemical modifications are complicated and costly. In this study, novel Fe/Fe oxide loaded biochars (RMBCs) were synthesized from a one-step co-pyrolysis of red mud (RM) and shaddock peel (SP), and their potential application for removing anionic azo dye (acid orange 7, AO7) from the aqueous environment was evaluated. Fe from red mud was successfully loaded onto biochars pyrolyzed at 300-800 °C, which presented from oxidation form (FeO) to the reduction forms (FeO and Fe) with increasing pyrolysis temperature. The RMBC produced at 800 °C with RM:SP mass ratio of 1:1 (RMBC800) exhibited the best capability for AO7 removal (∼32 mg/g), attributed to both adsorption and degradation. The higher surface area of RMBC800 and its greater affinity for AO7 led to the higher adsorption. In addition, RMBC800-induced degradation of AO7 was another key mechanism for AO7 removal. The reduction forms of Fe (FeO or Fe) in RMBC800 may provide electrons for breaking down the azo bond in AO7 molecules and result in degradation, which is further enhanced in acid conditions due to the participation of readily release of Fe and the available H in AO7 degradation. Furthermore, RMBC800 can be easily separated from the treated water by using magnetic field, which significantly benefits its separation in wastewater treatment.
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| http://dx.doi.org/10.1016/j.envpol.2022.118893 | DOI Listing |
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