Fluidized beds - Mass and heat transfer

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BE8256 V1 Article

Fluidized beds - Mass and heat transfer

Author : Gérard ANTONINI

Publication date: October 10, 2007 | Lire en français

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ABSTRACT

Fluidized beds have high transfer performances and are excellent gas-solid contactors. They thus allow for improving the mass and heat exchanges between a wall and a gas, via notably particle agitation and convection. This article is dedicated to the description of all thermal mass and heat transfers in fluidized bed. It provides access to an estimation of the coefficients of gas-particle transfer, gas-to-particle and wall-to-bed transfer, as well as to the calculation of transfers for a large number of industrial applications, such as the drying of divided solids or the calcination of minerals and , more recently, for the gasification of biomass or waste.

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AUTHOR

  • Gérard ANTONINI : University Professor - Compiègne University of Technology (UTC)

 INTRODUCTION

In a first part of the document [BE 8 255] , the main characteristics of divided solids, their classification, and the different gas-solid fluidization regimes accessible were presented. A set of data was provided concerning the characteristics of dense and circulating fluidized beds, and those of the auxiliary devices required for the proper operation of these technologies. The performance of fluidized beds as gas-solid and solid-solid mixers was also discussed.

The various possible applications of fluidized beds are then described.

Highly efficient mass and heat exchange can be achieved by direct contact between the high-surface-area divided solid and the fluidizing gas, or between the bed and the wall of an immersed exchanger. The fluidized bed is an open, practically isothermal volume, thanks to the high heat capacity of the solids compared with that of the gases, and the particle agitation and hydrodynamic mixing that renew the gas-particle and bed-wall contact surfaces.

This second part is devoted to the description of mass and heat transfer processes in fluidized beds. The main correlations for estimating gas-particle, particle-bed and bed-wall transfer coefficients are provided. These data are applied to the calculation of transfers in a wide range of devices, such as single- or multi-stage open exchangers, dryers or fluidized-bed boilers.

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