Recycling application of modified waste electrolytic manganese anode slag as efficient catalyst for PMS activation

Electrolytic manganese anode slag (EMAS) is the waste residue produced by electrolytic manganese metal industry. At present, no mature recycling system has been established, which causes a waste of resources and threatens the environment. Therefore, the resource utilization of EMAS has attracted inc...

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Bibliographic Details
Published in:The Science of the total environment 2021-03, Vol.762, p.143120-143120, Article 143120
Main Authors: Zhou, Xinquan, Luo, Chunguang, Wang, Jia, Wang, Huabin, Chen, Zhulei, Wang, Songlin, Chen, Zhuqi
Format: Article
Language:English
Subjects:
Catalytic capacity
PEMAS
PMS
Resource utilization
Stability
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Summary:Electrolytic manganese anode slag (EMAS) is the waste residue produced by electrolytic manganese metal industry. At present, no mature recycling system has been established, which causes a waste of resources and threatens the environment. Therefore, the resource utilization of EMAS has attracted increased attention. In this paper, the in-situ resource utilization of EMAS can be realized by pickling treatment was reported. Specifically, EMAS after pickling treatment (PEMAS) was first used as catalyst to activate PMS to degrade tetrachlorophenol (4-CP). Pickling could remove the inert inorganic components on EMAS and increase the specific surface area, pore volume and Mn distribution of the catalyst, thus improving the catalytic performance of the catalyst. Under the conditions of 4-CP of 40 ppm, PMS of 1 mM and PEMAS of 0.3 g L−1, 85% of 4-CP could be degraded within 50 min. Mechanism studies proved that the main active species were O2− and 1O2. Some O2− contributed to the generation of 1O2 and some O2− directly contributed to the degradation of 4-CP. During the reaction, the valence state of Mn transformed between Mn(III)/Mn(IV) and Mn(II)/Mn(III) and kept the cycle. Moreover, PEMAS/PMS system exhibited excellent independence of the solution pH, resistance to the versatile inorganic ions and background organic matters, and stability of recycling. In a word, this study has achieved the resource utilization of EMAS and the goal of treating waste with waste, which is a win-win strategy of economic and environmental benefits. [Display omitted] •Pickling enhanced the catalytic activity and inhibited metal leaching of EMAS.•Pickling improved the morphology and Mn dispersion of EMAS.•PEMAS/PMS exhibited excellent stability, reusability, environmental adaptability.•The whole process conformed to the concept of green recycling.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2020.143120