Efficient degradation of 2-methoxyphenol using heterogeneous-homogeneous synergistic activated persulfate with modified clinoptilolite + heat

[Display omitted] •An effective activator of persulfate was obtained based on natural clinoptilolite.•Modified zeolite + heat synergistic activation can achieve rapid degradation.•The synergistic mechanism of degradation based on radicals has been revealed.•The activator showed good performance in t...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 400; p. 125863
Main Authors Huang, Zhi-Hui, Ji, Zhi-Yong, Zhao, Ying-Ying, Liu, Jie, Li, Fei, Wang, Shi-Zhao, Yuan, Jun-Sheng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2020
Subjects
2-Methoxyphenol
Advanced oxidation processes
Modified clinoptilolite
Sodium persulfate
Sulfate radical
Superoxide radical
Advanced oxidation processes
Sulfate radical
Superoxide radical
2-Methoxyphenol
Sodium persulfate
Modified clinoptilolite
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Abstract [Display omitted] •An effective activator of persulfate was obtained based on natural clinoptilolite.•Modified zeolite + heat synergistic activation can achieve rapid degradation.•The synergistic mechanism of degradation based on radicals has been revealed.•The activator showed good performance in three consecutive cycles. An easily obtainable and cheap activator was obtained with natural clinoptilolite, which was easy to be modified with a ferrous sulfate solution. The modification can greatly improve the Fe/C ratio of the zeolite surface without changing the typical porous structure of natural clinoptilolite. The modified zeolite can activate sodium persulfate to degrade 2-methoxyphenol (MOP, a typical organic contaminant in salty wastewater), and has a heterogeneous-homogeneous synergistic effect accompanying heat. The mechanism investigation shows the activation of single modified zeolite is more complex at normal temperature (25 °C), and many types of free radicals are involved in the degradation through multiple pathways. Rapid degradation of MOP can be achieved with the synergistic effect of the modified clinoptilolite + heat, and the degradation ratio reaches 95.0% in 10 min caused by the generation of more sulfate- and superoxide radicals. Comparing with the effect of the directly activated persulfate process by ferrous sulfate, a better degradation effect could be obtained with active substance slowly released by the modified zeolite. And adding thermal activation can further increase the activation rate and utilization of oxidants. Finally, better mineralization efficiency achieves, and the total organic carbon (TOC) removal ratio with synergistic activation is about 5 times that of a single activation by modified zeolite within 20 min. In addition, the activator shows good activated performance in three consecutive cycles. The MOP degradation ratio using M80-zeolite, reducing by 21.8% at 10 min in the third use, could be recovered to 95.0% with the original modified method.
AbstractList [Display omitted] •An effective activator of persulfate was obtained based on natural clinoptilolite.•Modified zeolite + heat synergistic activation can achieve rapid degradation.•The synergistic mechanism of degradation based on radicals has been revealed.•The activator showed good performance in three consecutive cycles. An easily obtainable and cheap activator was obtained with natural clinoptilolite, which was easy to be modified with a ferrous sulfate solution. The modification can greatly improve the Fe/C ratio of the zeolite surface without changing the typical porous structure of natural clinoptilolite. The modified zeolite can activate sodium persulfate to degrade 2-methoxyphenol (MOP, a typical organic contaminant in salty wastewater), and has a heterogeneous-homogeneous synergistic effect accompanying heat. The mechanism investigation shows the activation of single modified zeolite is more complex at normal temperature (25 °C), and many types of free radicals are involved in the degradation through multiple pathways. Rapid degradation of MOP can be achieved with the synergistic effect of the modified clinoptilolite + heat, and the degradation ratio reaches 95.0% in 10 min caused by the generation of more sulfate- and superoxide radicals. Comparing with the effect of the directly activated persulfate process by ferrous sulfate, a better degradation effect could be obtained with active substance slowly released by the modified zeolite. And adding thermal activation can further increase the activation rate and utilization of oxidants. Finally, better mineralization efficiency achieves, and the total organic carbon (TOC) removal ratio with synergistic activation is about 5 times that of a single activation by modified zeolite within 20 min. In addition, the activator shows good activated performance in three consecutive cycles. The MOP degradation ratio using M80-zeolite, reducing by 21.8% at 10 min in the third use, could be recovered to 95.0% with the original modified method.
ArticleNumber 125863
Author Liu, Jie
Ji, Zhi-Yong
Wang, Shi-Zhao
Yuan, Jun-Sheng
Huang, Zhi-Hui
Li, Fei
Zhao, Ying-Ying
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Keywords Advanced oxidation processes
Sulfate radical
Superoxide radical
2-Methoxyphenol
Sodium persulfate
Modified clinoptilolite
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Snippet [Display omitted] •An effective activator of persulfate was obtained based on natural clinoptilolite.•Modified zeolite + heat synergistic activation can...
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StartPage 125863
SubjectTerms 2-Methoxyphenol
Advanced oxidation processes
Modified clinoptilolite
Sodium persulfate
Sulfate radical
Superoxide radical
Title Efficient degradation of 2-methoxyphenol using heterogeneous-homogeneous synergistic activated persulfate with modified clinoptilolite + heat
URI https://dx.doi.org/10.1016/j.cej.2020.125863
Volume 400
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