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Abstract
This article presents experimental results for spouted bed drying of sawdust, carried out in a full-scale as well as in a laboratory-scale dryer using air as well as steam as drying media. The aim is to present design parameters for a spouted-bed sawdust dryer that can be used by the industry in designing full-scale dryers. A hydrodynamically stable spouted jet spouted bed was obtained. The heat transfer characteristics of the bed were represented in terms of a volumetric heat transfer coefficient (VHC). When sawdust is dried in a spouted bed, the mean VHC is increasing up to fiber saturation level (20–25% wb) from 40 to 110 W/m3 K. The VHC decreases with the residence time and with an increased static bed height. Gas temperature profiles are also presented for the bottom part of the drying chamber.
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ACKNOWLEDGMENTS
I thank Prof. Bengt Månsson and Dr. Lars Nilsson, Karlstad University, Sweden, for valuable comments. I also thank Lars Pettersson and Jan Ljunglöf for help with the experiments and Dr. Tadeusz Kudra for constructive comments.