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Persulfate activated by non-thermal plasma for organic pollutants degradation: A review

Journal

CHEMICAL ENGINEERING JOURNAL
Volume 470, Issue -, Pages -

Publisher

ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2023.144094

Keywords

Plasma; Persulfate; Organic pollutants; Sulfate radical; Hydroxyl radicals

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Organic pollutants in water pose severe threats to human health and the ecological environment. Non-thermal plasma technology, as an advanced oxidation technology, has gained extensive attention for its ability to efficiently remove refractory organic pollutants in water. The low energy utilization has hindered its development, but plasma coupling catalysis has emerged as a solution.
Organic pollutants in water bring serious harm to human health and ecological environment. As one of the advanced oxidation technologies, non-thermal plasma technology has attracted extensive research and attention because it can quickly and efficiently treat refractory organic pollutants in the water environment. However, low energy utilization has been the bottleneck of the development of this technology. Plasma coupling catalysis has become the main way to solve this problem. Traditional plasma-catalysis technology was used to produce more & BULL;OH, but it has an extremely short half-time (2 x 10-8 s) and unable to completely oxidize organic pollutants. Compared to & BULL;OH, & BULL;SO4- has a longer half-time (3-4 x 10-5 s), which has sufficient reaction time with pollutants. The physical and chemical properties such as ultraviolet light, electrons and free radicals in plasma can be used to activate persulfate for producing double oxidized free radicals (& BULL;SO4- and & BULL;OH), thus improving the energy utilization efficiency of plasma and removal efficiency of organic pollutants. Hence, this review aims to sum-marize the development of non-thermal plasma for persulfate activation regards to organic pollutants degra-dation. Factors influencing pollutants degradation by plasma/persulfate were elaborated in detail. Effect of additives and microbubbles on activation of PS by plasma was summarized. The catalytic effect of persulfate and other additives in plasma system was compared. The mechanism, pathway and toxicity variation of organic compounds degradation by plasma/persulfate were cleared. The in-depth evaluation index includes energy ef-ficiency, TOC, COD and persulfate utilization were recounted. Finally, the conclusion and future prospects were put forward. Although the study of plasma activated persulfate has been very extensive, its mechanism has not been thoroughly studied. For example, the specific activation of persulfate by plasma has not been reported, and the specific dominant pathway of the generated free radicals on pollutants is still unclear. In addition, the impact of sulfate ions generated by activating persulfate on subsequent tail water has always been a problem that needs to be addressed.

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