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Enhanced phenol removal by permanganate with biogas residue biochar: catalytic role of in-situ formation of manganese dioxide and activation of biochar

Dongyang Li, Yi Xiao, Beidou Xi, Tiancheng Gong, Ting Zhang, Nannan Huang, Wenxuan Li, Tianxue Yang

2023Biochar15 citationsDOIOpen Access PDF

Abstract

Abstract Increased biogas residue related to the rapid development of anaerobic fermentation has become an urgent environmental problem. The pyrolysis of biogas residue into biochar is one of the most promising treatments. In this study, biochar derived from biogas residue was prepared, and the degradation efficiency of phenol by permanganate (KMnO 4 ) increased from 25.3% to 73.4% in 60 min in the presence of biogas residue biochar (BRB). KMnO 4 reacted with BRB to produce intermediate manganese dioxide (MnO 2 ), while BRB was activated. The specific surface area increased by 132.25%, and the oxygen-containing functional groups C=O, C−O, and COOH increased after the reaction. The generated MnO 2 complexed with BRB to form MnO 2 @BRB. The newly formed MnO 2 @BRB catalyzed KMnO 4 to remove phenol, which explains the high removal efficiency of phenol. A significant removal rate was also observed for antibiotics and chlorophenols, which suggested that the KMnO 4 /BRB system has a relatively high ability to oxidize organic pollutants. In addition, the co-existing metal ions and the natural environment had little influence on the removal efficiency of the KMnO 4 /BRB system. This work provides a novel technology for the resource utilization of biogas residue and improved organic pollutant removal efficiency of KMnO 4 in the presence of BRB. Graphical abstract

Topics & Concepts

BiocharChemistryBiogasPhenolManganesePermanganatePotassium permanganateEnvironmental chemistryResidue (chemistry)PyrolysisInorganic chemistryWaste managementOrganic chemistryEngineeringAdvanced oxidation water treatmentCatalytic Processes in Materials ScienceMercury impact and mitigation studies
Enhanced phenol removal by permanganate with biogas residue biochar: catalytic role of in-situ formation of manganese dioxide and activation of biochar | Litcius