Sequential-based process modelling of VOCs photodegradation in fluidized beds

Asadi Saghandi, H and Sotudeh Gharebagh, R and Dashliborun, A.M and Kakooei, H and Hajaghazadeh, M (2014) Sequential-based process modelling of VOCs photodegradation in fluidized beds. Canadian Journal of Chemical Engineering, 92 (11). pp. 1865-1874.

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Abstract

Sequential modular simulation (SMS), as a new modelling approach, was developed to simulate the photocatalytic oxidation (PCO) of gaseous
pollutants in fluidized bed reactors. In the experimental part, the PCO of gaseous acetone was studied in a fluidized bed photo‐reactor (FBPR) and the
influence of operating conditions (inlet concentration, relative humidity (RH) and superficial gas velocity) on both acetone conversion and
mineralization was investigated. It was found that the RH, as a key factor in PCO reactions, had a contradictory effect on the conversion and
mineralization of acetone. In the modelling part, the bed was divided into several sections in which the bubble and emulsion phases were considered
as a plug flow and a completely mixed flow reactor, respectively. Dynamic two‐phase model was adopted as the hydrodynamic sub‐model and the
Langmuir–Hinshelwood (LH) mechanismas the kinetic sub‐model. Kinetic constants of the latter sub‐model were estimated using experimental data
from the literature. A new dimensionless number (HA number) was introduced to determine the optimum number of sections, as the most important
factor in model predictions. The performance of the proposed model was compared with the experimental data obtained in this study and several sets
of experimental data from the literature. The results showed that the simple and easy‐to‐achieve approach, which has the capability of integrating into
the industrial process simulators such as Aspen Plus© and Aspen HYSYS©, can be used to simulate the behaviour of non‐ideal FBPRs in PCO processes

Item Type: Article
Additional Information: cited By 2
Uncontrolled Keywords: volatile organic compound (VOC), photodegradation, fluidized bed reactor, TiO2, sequential modular simulation
Subjects: R Medicine > R Medicine (General)
Depositing User: Unnamed user with email gholipour.s@umsu.ac.ir
Date Deposited: 26 Jul 2017 09:24
Last Modified: 25 Feb 2019 10:05
URI: https://eprints.umsu.ac.ir/id/eprint/679

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