Publication: Development of gas flow reactor with on-line monitoring system for nitrogen dioxide removal
Issued Date
2017-11-01
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ISSN
0026265X
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2-s2.0-85031755088
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Mahidol University
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SCOPUS
Bibliographic Citation
Microchemical Journal. Vol.135, (2017), 199-206
Suggested Citation
Korbua Chaisiwamongkhol, Noppadon Manoyen, Komkrit Suttiponparnit, Duangjai Nacapricha, Siwaporn Mejoo Smith, Kanchana Uraisin Development of gas flow reactor with on-line monitoring system for nitrogen dioxide removal. Microchemical Journal. Vol.135, (2017), 199-206. doi:10.1016/j.microc.2017.09.011 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/42184
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Title
Development of gas flow reactor with on-line monitoring system for nitrogen dioxide removal
Abstract
© 2017 Elsevier B.V. In this work, a new flow system was developed for investigating the efficiency of synthesized TiO2photocatalysts for NO2degradation. The system consists of two parts: the gas flow reactor and an on-line NO2monitoring system. The latter is based on the conversion of NO2(g)to NO2−(aq)with subsequent spectrophotometric detection of the nitrite anion by the Griess-Saltzman reaction. Simplex optimization was employed to obtain the required sensitivity for the NO2monitoring. The developed flow system was employed to measure the catalytic efficiency of photodegradation of NO2by various types of TiO2-based synthesized photocatalysts and a commercial TiO2photocatalyst, ‘P25’. The TiO2photocatalysts were synthesized using titanium isopropoxide (TTIP), tetrabutyl orthotitanate (TBOT) and titanium oxysulfate (TiOSO4) as precursors. Glass beads, coated with the TiO2photocatalyst, were packed in a quartz tube reactor. Standard NO2gas mixture (50 ppmv) was continuously flowed through the reactor under UV radiation. Residual NO2from the outlet of the reactor was measured using the on-line NO2monitoring system which employs a gas diffusion unit and an acceptor stream of triethanolamine solution. The NO2(g)was converted into NO2−(aq)which was measured spectrophotometrically at 540 nm using the Griess-Saltzman reaction. The photocatalytic efficiency of the synthesized photocatalysts was compared. The effects of oxygen and humidity were also studied in order to investigate the mechanism of photodegradation of NO2by the TiO2catalyst. We observed that at low humidity (12% RH), the OH•radical generated from moisture plays an important role for photooxidation process of NO2.