Photocatalytic degradation of gaseous toluene using self-assembled air filter based on chitosan/activated carbon/TiO2

Photocatalytic degradation of gaseous toluene using self-assembled air filter based on chitosan/activated carbon/TiO2

[Display omitted] •Layer-by-layer self-assembly of TiO2 NPs/AC on non-woven fabric using chitosan.•CSAT-PET showed 1.5 times higher toluene removal efficiency than pure TiO2-PET.•Intact morphology and chemical composition after 5 reaction cycles.•UV-induced regeneration helps to release adsorbed int...

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Bibliographic Details
Published in:Journal of environmental chemical engineering Vol. 7; no. 6; p. 103455
Main Authors: Mohan V, Lekshmi, S.M., Shiva Nagendra, M.P., Maiya
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2019
Subjects:
Activated carbon
Air filter
Photocatalytic oxidation
Self-assembly
Titanium dioxide
Volatile organic compounds
DRS
BBD
L-H
XRD
HVAC
ANOVA
FTIR
Activated carbon
EDX
XPS
DOE
Titanium dioxide
CSAT-PET
UV
VOCs
AC
Air filter
PID
RSM
Photocatalytic oxidation
TGA
BET
CS
Volatile organic compounds
Self-assembly
RE
LbL
SEM
IPA
PCO
ASHRAE
PET
TiO2
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Summary:[Display omitted] •Layer-by-layer self-assembly of TiO2 NPs/AC on non-woven fabric using chitosan.•CSAT-PET showed 1.5 times higher toluene removal efficiency than pure TiO2-PET.•Intact morphology and chemical composition after 5 reaction cycles.•UV-induced regeneration helps to release adsorbed intermediates.•RSM applied to optimize TiO2/AC/CS loading for maximum efficiency. Photocatalytic filters are integrated with air purifiers and ventilation systems to remove volatile organic compounds (VOCs) from indoor air. However, the filters, generally prepared by dip or spray coating, are less stable as the deposited TiO2 NPs are prone to be blown off by treated air. In the present study, we propose a novel filter preparation method based on self-assembly of activated carbon (AC) and TiO2 on non-woven polyethylene terephthalate (PET) fabric using chitosan (CS). The prepared filter (CSAT-PET) was characterized for morphological and chemical properties which revealed the homogeneity and chemical bonding of deposited TiO2. Photocatalytic activity of the prepared filter was evaluated for toluene degradation (200–600 ppb) under dark and UV illumination. Toluene removal efficiency reached 91% over CSAT-PET, while it was only 62% over pure TiO2 filter. About 40% of toluene removal was achieved by adsorption on CSAT-PET. Furthermore, CSAT-PET showed robust performance for selected face velocity ranging from 0.5 to 1.5 m/s and, the reaction rate followed Langmuir-Hinshelwood model. FTIR study identified benzaldehyde and benzoic acid as adsorbed intermediates. A UV-induced filter regeneration partially released the adsorbed species. CSAT-PET showed consistent toluene removal and intact morphology over five degradation cycles. The Box-Behnken design (BBD) in RSM was applied to optimize the filter preparation method. The optimum values of TiO2, AC and CS loading were 38.3 g/m2, 52.6 g/m2 and 2.06% (w/v), respectively which exhibited highest removal efficiency for toluene (93%). The proposed methodology can be adapted to fabricate low-cost, stable, and reusable photocatalytic filter for air purification applications.
ISSN:2213-3437
2213-3437
DOI:10.1016/j.jece.2019.103455