Document Type
Article
Publication Date
3-25-2019
Abstract
A new heterogeneous Fenton catalyst, Fe-impregnated biochar catalyst (Fe-BC) was synthesized and evaluated in detail for its catalytic activity with sulfate radical under various conditions. The optimum conditions for the removal of Eriochrome Black T (EBT) by Fe-BC were determined as 0.27 g/L K2S2O8 (PS) and 0.5 g/L Fe-BC for 0.1 g/L EBT, and which resulted 85–88% removal efficiency within 2 h. The effective oxidation of EBT was observed over a pH range of 2–4 and temperature of 25–45 °C and maintained EBT removal efficiency of 77.6–92.7%. Under optimum conditions, the catalytic activity was faster in the order of PS > PS + HP > H2O2 (HP) >>Fe-BC (without oxidants). The catalytic activity of Fe-BC for EBT can be identified in two stages, which occur rapidly within 30 min (1st stage) and followed by slow oxidation until 120 min (2nd stage). Catalytic activity by sulfate radical was also dominantly influenced by other pollutant such as iodide, phosphate and humic acid. Overall, the sulfate radical generated from Fe-BC/PS was found more economical with strong oxidation efficiency for use in Fenton-like reaction for treating organic pollutants compared with conventional Fenton reaction with H2O2.
Publication Source (Journal or Book title)
Journal of Industrial and Engineering Chemistry
First Page
201
Last Page
209
Recommended Citation
Park, J., Wang, J., Tafti, N., & Delaune, R. (2019). Removal of Eriochrome Black T by sulfate radical generated from Fe-impregnated biochar/persulfate in Fenton-like reaction. Journal of Industrial and Engineering Chemistry, 71, 201-209. https://doi.org/10.1016/j.jiec.2018.11.026