Simulations of catalytic ozone decomposition reaction in fluidized bed

The accuracy in predicting the ozone decompositions is influenced by correctly predicting the solid particle hydrodynamics. In this study, computational fluid dynamics modelling of catalytic ozone decomposition reactions is used to study the performance of a fluidized bed reactor that uses sand sili...

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Bibliographic Details
Main Author: Ikhwan Zaid, Muhamad Nor
Format: Thesis
Language:English
Published: 2013
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Online Access:http://eprints.utm.my/id/eprint/34678/1/MuhamadNorIkhwanBZaidMFKM2013.pdf
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Summary:The accuracy in predicting the ozone decompositions is influenced by correctly predicting the solid particle hydrodynamics. In this study, computational fluid dynamics modelling of catalytic ozone decomposition reactions is used to study the performance of a fluidized bed reactor that uses sand silica particles as catalyst. The Eularian-Eularian method with kinetic theory of granular flow in two-dimensional is used to solve the gas-solids flow in the fluidized bed reactor. Turbulence model is applied in two phase’s reaction while considering the effect of the specularity coefficient and particle wall restitution coefficient wall to predict the hydrodynamic of solid particle distribution inside the chamber. The numerical results under different operating conditions are compared with the similar studies for the solids volume fraction, solids velocity and ozone concentrations in the radial and axial directions to validate the generality of the proposed CFD model. In conclusion, the ozone concentration decreases with the decrease in the superficial gas velocity and vice versa while the particle size also plays a major role on the reaction contributed by the contact surface area between two phases.