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Photocatalytic potential of a titanium dioxide-supported platinum catalyst against VOCs with complicated composition under varying humidity conditions

Authors
You, Ji-WonVikrant, KumarLim, Dae-HwanVerma, SwatiKukkar, DeepakAnwer, HassanKim, Ki-Hyun
Issue Date
Oct-2022
Publisher
ELSEVIER SCI LTD
Keywords
Air quality management; Environmental pollution; Photocatalysis; TiO2; Volatile organic compounds
Citation
JOURNAL OF CLEANER PRODUCTION, v.371, pp.1 - 13
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF CLEANER PRODUCTION
Volume
371
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/186126
DOI
10.1016/j.jclepro.2022.133487
ISSN
0959-6526
Abstract
It is more important to assess the performance of photocatalysts against volatile organic compounds (VOCs) as a mixture rather than as single-component systems to understand the factors and processes governing photocatalytic (PC) destruction of VOCs under real-world operation condition. It is often critical because VOCs in ambient air generally exist in the form of complicated mixtures. In this context, the PC destruction of 14 VOCs as a mixture was studied using a reduced titanium dioxide (TiO2)-supported platinum (1 wt%) catalyst under varying humidity conditions (room temperature (RT) and ultraviolet irradiation (lambda max: 254 nm)). The removal efficiencies for aromatic hydrocarbons (e.g., benzene, toluene, m-xylene, and styrene), when examined in the relative humidity (RH) range of 0 to 100%, were in four distinctive ranges of 8.93% and 13.3%, 29.1% and 39.4%, 61.9% and 75.6%, and 92.9% and 96.6%, respectively. In contrast, the removal of ketones increased with RH between 0% and 20%, such as 30.7%-73.8% for methyl ethyl ketone and 68.7%-95.9% for methyl isobutyl ketone. Aldehydes were removed efficiently in the dark through a synergy between thermal oxidation and adsorption at RT. Overall, RH had positive and/or negative effects on photocatalysis depending on the VOC type. The overall results of this study are expected to offer a theoretical framework and practical insights into the PC processes occurring toward complex VOC systems.
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