Acid-activated α-MnO 2 for photothermal co-catalytic oxidative degradation of propane: Activity and reaction mechanism

Acid-activated α-MnO 2 for photothermal co-catalytic oxidative degradation of propane: Activity and reaction mechanism

In order to further reduce the energy consumption of the conventional thermal catalytic oxidation system and improve the degradation efficiency of pollutants, photothermal synergistic catalytic oxidation (PTSCO) system was constructed in this paper with propane as simulated pollutant representing VO...

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Veröffentlicht in:Journal of hazardous materials 2024-10, Vol.478, p.135447
Hauptverfasser: Wang, Yadi, Bi, Yuxi, Ji, Guoyang, Jing, Yuekun, Zhao, Jingang, Sun, Encheng, Wang, Yongqiang, Chang, Huazhen, Liu, Fang
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container_issue
container_start_page 135447
container_title Journal of hazardous materials
container_volume 478
creator Wang, Yadi
Bi, Yuxi
Ji, Guoyang
Jing, Yuekun
Zhao, Jingang
Sun, Encheng
Wang, Yongqiang
Chang, Huazhen
Liu, Fang
description In order to further reduce the energy consumption of the conventional thermal catalytic oxidation system and improve the degradation efficiency of pollutants, photothermal synergistic catalytic oxidation (PTSCO) system was constructed in this paper with propane as simulated pollutant representing VOCs, and then the modified α-MnO catalysts were prepared by using the acid activation method, which were used for the catalytic oxidation of propane in PTSCO. The α-MnO with appropriate acid concentration possessed excellent low-temperature reducibility, abundant active oxygen species, fast oxygen migration rate and a large number of acid sites. The optimal catalyst, H -MnO , had a T of 204 °C in the PTSCO system, which reduced by more than 30 °C relative to the α-MnO (T of 235 °C). Moreover, H -MnO demonstrated excellent water resistance and long-term stability (T = 45 h). It was shown that the combination of photocatalysis and thermocatalysis can improve propane degradation by examining the kinetics of propane degradation in the PTSCO system and the conformational relationship of propane degradation by catalysts. Furthermore, a multi-pathway synergistic mechanism between photocatalysis and thermocatalysis in the PTSCO system was proposed. This work provided a theoretical basis for the preparation of high-performance catalysts and the catalytic degradation of propane.
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The α-MnO with appropriate acid concentration possessed excellent low-temperature reducibility, abundant active oxygen species, fast oxygen migration rate and a large number of acid sites. The optimal catalyst, H -MnO , had a T of 204 °C in the PTSCO system, which reduced by more than 30 °C relative to the α-MnO (T of 235 °C). Moreover, H -MnO demonstrated excellent water resistance and long-term stability (T = 45 h). It was shown that the combination of photocatalysis and thermocatalysis can improve propane degradation by examining the kinetics of propane degradation in the PTSCO system and the conformational relationship of propane degradation by catalysts. Furthermore, a multi-pathway synergistic mechanism between photocatalysis and thermocatalysis in the PTSCO system was proposed. 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title Acid-activated α-MnO 2 for photothermal co-catalytic oxidative degradation of propane: Activity and reaction mechanism
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