Springer, 2007, 234 pages, 1402054793
This book provides recent advances in research on drying of particulate and porous materials. It is based on a selection of papers presented at the XI the Polish Drying Symposium 2005. The selected contributions cover theoretical, as well as experimental and modeling research on heat and mass transfer processes during drying of porous material, and fluidized beds. The comprehensiveness and in depth treatment of the subject makes this book an excellent pioneering contribution to the science and technology of drying of particulate solids.
An Overview of Innovation in Industrial Drying: Current Status and R&D Needs
Mode Methods of Drying Nanomaterials
Inteal Heating Effect and Enhancement of Drying of Ceramics by Microwave Heating with Dynamic Control
The Vapour–Liquid Interface and Stresses in Dried Bodies
Multiscale Aspects of Heat and Mass Transfer During Drying
Theoretical Models of Vegetable Drying by Convection
Analysis of the Mechanism of Counter-Current Spray Drying
Mode Modelling Methods in Drying
Non-linear Heat and Mass Transfer During Convective Drying of Kaolin Cylinder under Non-steady Conditions
Effects of the Method of Identification of the Diffusion Coefficient on Accuracy of Modeling Bound Water Transfer in Wood
Stresses in Dried Wood. Modelling and Experimental Identification
Kinetics of Atmospheric Freeze-Drying of Apple
Microwave Drying of Various Shape Particles Suspended in an Air Stream
Periodic Fluctuations of Flow and Porosity in Spouted Beds
Modeling of Vacuum Desorption of Multicomponent Moisture in Freeze Drying
Optimization of Fine Solid Drying in Bubble Fluidized Bed
This book provides recent advances in research on drying of particulate and porous materials. It is based on a selection of papers presented at the XI the Polish Drying Symposium 2005. The selected contributions cover theoretical, as well as experimental and modeling research on heat and mass transfer processes during drying of porous material, and fluidized beds. The comprehensiveness and in depth treatment of the subject makes this book an excellent pioneering contribution to the science and technology of drying of particulate solids.
An Overview of Innovation in Industrial Drying: Current Status and R&D Needs
Mode Methods of Drying Nanomaterials
Inteal Heating Effect and Enhancement of Drying of Ceramics by Microwave Heating with Dynamic Control
The Vapour–Liquid Interface and Stresses in Dried Bodies
Multiscale Aspects of Heat and Mass Transfer During Drying
Theoretical Models of Vegetable Drying by Convection
Analysis of the Mechanism of Counter-Current Spray Drying
Mode Modelling Methods in Drying
Non-linear Heat and Mass Transfer During Convective Drying of Kaolin Cylinder under Non-steady Conditions
Effects of the Method of Identification of the Diffusion Coefficient on Accuracy of Modeling Bound Water Transfer in Wood
Stresses in Dried Wood. Modelling and Experimental Identification
Kinetics of Atmospheric Freeze-Drying of Apple
Microwave Drying of Various Shape Particles Suspended in an Air Stream
Periodic Fluctuations of Flow and Porosity in Spouted Beds
Modeling of Vacuum Desorption of Multicomponent Moisture in Freeze Drying
Optimization of Fine Solid Drying in Bubble Fluidized Bed