Effects of process variables for NO conversion by double-layered photocatalytic mortar with TiO2 nanoparticles

[Display omitted] •A double-layered photocatalytic mortar was fabricated with TiO2 nanoparticles.•The effects of environmental variables on NO conversion were investigated.•NO conversion efficiencies were analyzed in transient environmental conditions. In this study, we prepared the double-layered p...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 117; pp. 461 - 472
Main Authors Jin, Hyeon, Lee, Tae Min, Choi, Hajin, Kim, Kyo-Seon
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.01.2023
한국공업화학회
Subjects
Air purification
Atmospheric reaction
Cement mortar
NO conversion
Photocatalysis
화학공학
NO conversion
Cement mortar
Air purification
Atmospheric reaction
Photocatalysis
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2022.10.034

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Abstract [Display omitted] •A double-layered photocatalytic mortar was fabricated with TiO2 nanoparticles.•The effects of environmental variables on NO conversion were investigated.•NO conversion efficiencies were analyzed in transient environmental conditions. In this study, we prepared the double-layered photocatalytic mortar, where the top-layer has the minimum thickness of 2 mm. We investigated systematically the effects of various process variables (initial NOX concentration, TiO2 addition amount, UV-A radiation, gas flow rate and relative humidity) on photocatalytic conversion of NOX and also the transient NOX conversions for changing ambient conditions of process variables with time. The higher the nano-TiO2 concentration in the mortar or UV-A radiation intensity is, or the lower the NOX gas flow rate or relative humidity is, the higher the NOX conversion efficiency is. As the initial concentration of NOX increases, NOX conversion efficiency decreases, but the amount of NOX conversion increases. It is confirmed that the prepared photocatalytic mortar could convert NOX in the air efficiently for various conditions of process variables. NOX conversion efficiencies in transient environmental conditions were equivalent to those in fixed conditions for the same process variables. This study provides strong basic data to apply the photocatalytic mortar to convert NOX efficiently using solar energy without the use of extra energy and can be easily extended to future applications to infrastructures such as buildings, tunnels, or roads.
AbstractList In this study, we prepared the double-layered photocatalytic mortar, where the top-layer has the minimumthickness of 2 mm. We investigated systematically the effects of various process variables (initialNOX concentration, TiO2 addition amount, UV-A radiation, gas flow rate and relative humidity) on photocatalyticconversion of NOX and also the transient NOX conversions for changing ambient conditionsof process variables with time. The higher the nano-TiO2 concentration in the mortar or UV-A radiationintensity is, or the lower the NOX gas flow rate or relative humidity is, the higher the NOX conversion efficiencyis. As the initial concentration of NOX increases, NOX conversion efficiency decreases, but theamount of NOX conversion increases. It is confirmed that the prepared photocatalytic mortar could convertNOX in the air efficiently for various conditions of process variables. NOX conversion efficiencies intransient environmental conditions were equivalent to those in fixed conditions for the same processvariables. This study provides strong basic data to apply the photocatalytic mortar to convert NOX efficientlyusing solar energy without the use of extra energy and can be easily extended to future applicationsto infrastructures such as buildings, tunnels, or roads. KCI Citation Count: 1
[Display omitted] •A double-layered photocatalytic mortar was fabricated with TiO2 nanoparticles.•The effects of environmental variables on NO conversion were investigated.•NO conversion efficiencies were analyzed in transient environmental conditions. In this study, we prepared the double-layered photocatalytic mortar, where the top-layer has the minimum thickness of 2 mm. We investigated systematically the effects of various process variables (initial NOX concentration, TiO2 addition amount, UV-A radiation, gas flow rate and relative humidity) on photocatalytic conversion of NOX and also the transient NOX conversions for changing ambient conditions of process variables with time. The higher the nano-TiO2 concentration in the mortar or UV-A radiation intensity is, or the lower the NOX gas flow rate or relative humidity is, the higher the NOX conversion efficiency is. As the initial concentration of NOX increases, NOX conversion efficiency decreases, but the amount of NOX conversion increases. It is confirmed that the prepared photocatalytic mortar could convert NOX in the air efficiently for various conditions of process variables. NOX conversion efficiencies in transient environmental conditions were equivalent to those in fixed conditions for the same process variables. This study provides strong basic data to apply the photocatalytic mortar to convert NOX efficiently using solar energy without the use of extra energy and can be easily extended to future applications to infrastructures such as buildings, tunnels, or roads.
Author Lee, Tae Min
Jin, Hyeon
Kim, Kyo-Seon
Choi, Hajin
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Keywords NO conversion
Cement mortar
Air purification
Atmospheric reaction
Photocatalysis
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Snippet [Display omitted] •A double-layered photocatalytic mortar was fabricated with TiO2 nanoparticles.•The effects of environmental variables on NO conversion were...
In this study, we prepared the double-layered photocatalytic mortar, where the top-layer has the minimumthickness of 2 mm. We investigated systematically the...
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SubjectTerms Air purification
Atmospheric reaction
Cement mortar
NO conversion
Photocatalysis
화학공학
Title Effects of process variables for NO conversion by double-layered photocatalytic mortar with TiO2 nanoparticles
URI https://dx.doi.org/10.1016/j.jiec.2022.10.034
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