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The effects of filter coating approaches on photocatalytic abatement of formaldehyde in indoor environment using a TiO2-based air purifier system

Authors
Younis, Sherif A.Shin, HyejinAhmadi, YounesKim, Ki-HyunLee, Jechan
Issue Date
Feb-2025
Publisher
Academic Press
Keywords
Photocatalytic ceramic filters; Air purifier; Indoor formaldehyde; TiO2 thermal engineering; Ultrasonic dip-coating synthesis; Performance analysis
Citation
Environmental Research, v.267, pp 1 - 16
Pages
16
Indexed
SCIE
SCOPUS
Journal Title
Environmental Research
Volume
267
Start Page
1
End Page
16
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210444
DOI
10.1016/j.envres.2024.120713
ISSN
0013-9351
1096-0953
Abstract
Titanium dioxide (TiO2) is the most commonly used catalytic medium in the filter system of commercial photocatalytic air purifier (AP). The AP performance can be affected sensitively by the coating conditions of such medium on the filters and its physicochemical properties (e.g., crystallinity, surface reactivity, morphology, and particle size). In this research, such an intricate relationship is first investigated through a combination of ultrasonic dip-coating of TiO2 onto 3D honeycomb ceramic (HC) filters and their subsequent calcination under various operational conditions. The photocatalytic oxidation (PCO) performance of the prepared AP is then tested against formaldehyde (FA: at 1 ppm) under ultraviolet LED light irradiation (1 W). Its PCO efficacy is greatly enhanced by the uniform distribution of TiO2 nanoparticles (relative to the catalyst dose) to enhance light-harvesting and mass-transfer rates. The best-performing HC filter with a uniform distribution (e.g., reduced TiO2 film clustering) is attained by adjusting the TiO2 solution concentration (≤3 g/L) and increasing the number of dipping cycles (up to 4) while minimizing the sonication time (<15 min). Post-annealing of TiO2-coated HC filter at 450 °C for 5 h significantly improves the optoelectronic characteristics by 35.4% (compared with commercial TiO2) due to surface defects and anatase/rutile phase transition. At these conditions, the AP meets the World Health Organization threshold (i.e., t0.08 value) for indoor FA after 385 seconds (quantum yield = 3.2E-03 molecules/photon, clean air delivery rate = 35.72 L/min, and kinetic rate = 317.22 μmol/h/g). As such, the PCO efficacy of the AP (TiO2-HC) filtering system can be improved by tuning the surface reactivity and the photon-harvesting potential through the control on the crystalline characteristics of TiO2 and its uniform coating on the HC support based on an ultrasonic dip-coating technique.
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Kim, Ki Hyun
COLLEGE OF ENGINEERING (DEPARTMENT OF CIVIL AND ENVIRONMENTAL ENGINEERING)
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