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Minimum fluidization velocity and reduction behavior of combusted iron powder in a fluidized bed

C.J.M. Hessels, D.W.J. Lelivelt, N.C. Stevens, Yali Tang, N.G. Deen, Giulia Finotello

2023Fuel28 citationsDOIOpen Access PDF

Abstract

The fluidization and reduction behavior of micron-sized iron oxide powder, produced by iron combustion, is studied in a lab-scale cylindrical fluidized bed. The minimum fluidization velocity umf is found to stabilize above normalized static bed heights of 0.5 H/D (static bed height divided by the bed diameter). umf is measured as a function of temperature between 280 and 860 K for both H2 and N2 as fluidizing gas. The experimental results start to deviate from the Ergun correlation at temperatures above 560 K, both for N2 and H2. A new correlation, taking the cohesive inter-particle solid bridge force into account, is proposed in this work to predict the minimum fluidization velocity at high temperature. Reduction experiments are carried out for a total time of 5 h at constant excess velocity with 50, 75 and 100 vol% of H2 and temperatures between 623 and 823 K. Gradual defluidization occurs when the operating temperature exceeds 800 K. A maximum reduction degree of 61% is obtained at 807 K and 100 vol% H2.

Topics & Concepts

FluidizationFluidized bedMaterials scienceWork (physics)MechanicsThermodynamicsIron powderFluidized bed combustionReduction (mathematics)Superficial velocityComposite materialFlow (mathematics)GeometryMathematicsPhysicsIron and Steelmaking ProcessesMineral Processing and GrindingMetallurgical Processes and Thermodynamics
Minimum fluidization velocity and reduction behavior of combusted iron powder in a fluidized bed | Litcius