Study of an Annular Photoreactor with Tangential Inlet and Outlet: I. Fluid Dynamics |
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| Authors: | José Carlos G. Peres Uirá de Silvio Antonio Carlos S. C. Teixeira Roberto Guardani Ardson dos S. Vianna Jr. |
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| Affiliation: | Department of Chemical Engineering, Polytechnic School, University of S?o Paulo, S?o Paulo (SP), Brazil. |
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| Abstract: | Photochemical reactors tend to exhibit turbulent flow even with low Reynolds numbers. The k‐? model is not always appropriate in this situation. An annular photoreactor was designed with tangential inlet and outlet tubes to investigate this. The fluid flow was characterized by residence time distribution (RTD) experiments, which were reproduced by computational fluid dynamics considering four relevant turbulence models: the k‐?, the k‐ω, the shear stress transport, and the Reynolds stress models. Inlet effects induced helical flow throughout the reactor, switching to plug flow depending on the flow rate and the turbulence model. The k‐ω model properly deals with viscous effects and reproduces the experimental RTD curves with correlation coefficients greater than 0.9566, against 0.8705 from the k‐? model. |
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| Keywords: | Computational fluid dynamics Helical flow Photochemical reactors Residence time distribution Turbulence |
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