The Coupled Heat and Mass Transfers in the Endothermic Chemical Reaction Packed Beds

Ming Chun Li; Yu Sheng Wu; Ying Tao Song

doi:10.4028/www.scientific.net/AMR.402.436

Paper Titles

Formation of Protective Cr₂O₃ Scale at High Temperature and the Effect of Mass Transport in the Presence of Water Vapor
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Experimental Study of Sintering Flue Gas Desulphurization with Ferromanganese Ore Slurry
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Experimental Study on the Impact of Oxygen Lances on Bath Mixing in EAF
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Turbulent Flow of Molten Steel in Thin Slab Continuous Casting Mold
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The Coupled Heat and Mass Transfers in the Endothermic Chemical Reaction Packed Beds
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Generation and Emission Characteristics of Polycyclic Aromatic Hydrocarbons in Single Coal Coking Process
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Effect of Lance Nozzle Angle and Mixing Gas Blowing on BOF Process
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Study on Mechanism of Desulfurization by Spent Zn-MnO₂ Batteries
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Road Performance of Concrete Incorporating Manganese Slag
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 402The Coupled Heat and Mass Transfers in the...

The Coupled Heat and Mass Transfers in the Endothermic Chemical Reaction Packed Beds

Abstract:

According to the assumption of local thermal non-equilibrium and the heat transfer controlled regime, a mathematical model describing the coupling between the heat and mass transfer processes in a porous packed bed with endothermic chemical reactions was established and solved by the alternate dimension implicit method. The calculated results showed that, the profiles of the temperature distributions of the two phases and the solid conversion ratio all decay near the radial boundary wall corresponding to the momentum boundary layer. However, the concentration of the product gas increases near the wall owing to the slower speed layer. The temperatures difference between the gas flow and solid pellets can not be ignored during the study of ore decomposition in the porous packed bed. The reaction features of the packed bed with endothermic reactions under different conditions can be analyzed by the established model.