Application of SCR reactor for VOC destruction

Name: Napasorn Narod

Organization : Chulalongkorn University. Faculty of Engineering

Email : narod.napasorn@gmail.com

Name: Anuwat Yasadayan

Organization : Chulalongkorn University. Faculty of Engineering

Name: Tharathon Mongkhonsi

Organization : Chulalongkorn University. Faculty of Engineering

keyword: Multi-functional reactor

LCSH: Oxidation

; Molybdenum trioxide

LCSH: Titanium dioxide

Abstract: Elimination of volatile organic compounds (VOCs) is a major problem waited to be solved in several processes. The problems arise because the concentration of VOC is very low, the pressure is also too low to flow through an adsorbent bed without the help of a compressor, and the gas temperature is normally too low to be destroyed by catalytic oxidation reaction without heat addition. An alternative method for solving the above-mentioned problems is mixing the VOCs containing exhausted gas to a flue gas stream flowing to a selective catalytic reduction (SCR) reactor using for the elimination of nitrogen monoxide by ammonia. The present research reveals that MoO3/TiO2 catalysts designed for the elimination of nitrogen monoxide from the flue gas generated from a coal fire power plant can destroy toluene simultaneously with the SCR reaction. The experimental results show that co-oxidation of toluene significantly raises the conversion of nitrogen monoxide, especially in the high reaction temperature region where ammonia oxidation reaction usually dominates. The improvement is likely caused by the reaction between nitrogen monoxide and an intermediate formed from the oxidation of toluene. The experimental results also reveal that treatment with an appropriate concentration of H2SO4 can increase the catalystic activity for both the SCR and toluene oxidation reactions. The research also extends to the evaluation of kinetics parameters for the oxidation of toluene which is important for reactor scale up and design. The activation energy for the toluene oxidation to CO2 reaction is found to be in the range 50-60 kJ/mol

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2020

Modified: 2021-05-07

Issued: 2021-05-07

บทความ/Article

application/pdf

BibliograpyCitation : In Thai Institute of Chemical Engineering and Applied Chemistry. The 29th Thai Institute of Chemical Engineering and Applied Chemistry Conference (TiChE 2020) (pp.408-415). Bangkok : Chulalongkorn University

eng

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