Presenting information usually not available in a single source, Fluid Bed Technology in Materials Processing examines various aspects of fluidization engineering, elaborating on applications in materials processing and bioengineering. Chapters discuss the basics of fluidization; applications in the extraction and processing of minerals, metals, and materials; fluidization in the nuclear fuel cycle; plasma fluid beds and electrothermal fluidized beds; design of fluidized bed reactors; and new techniques, such as magnetically stabilized fluidized beds and compartmented fluidized beds.
Presenting information usually not available in a single source, Fluid Bed Technology in Materials Processing examines various aspects of fluidization engineering, elaborating on applications in materials processing and bioengineering. Chapters discuss the basics of fluidization; applications in the extraction and processing of minerals, metals, and materials; fluidization in the nuclear fuel cycle; plasma fluid beds and electrothermal fluidized beds; design of fluidized bed reactors; and new techniques, such as magnetically stabilized fluidized beds and compartmented fluidized beds.
Introduction Fluidlike Behavior Fluidization State Advantages of Fluidized Bed Disadvantages of Fluidized Bed Properties of Particles and the Granular Bed Particles Granular Bed Grouping of Gas Fluidization Hydrodynamics Based Groups Hydrodynamics and Thermal Properties Based Groups Variables Affecting Fluidization Varieties of Fluidization Hydrodynamics of Two Phase Fluidization Minimum Fluidization Velocity Terminal Velocity Flow Phenomena Particulate and Aggregative Fluidization Regimes of Fluidization Three Phase Fluidization Introduction Classification Hydrodynamics Turbulent Contact Absorber (TCA) Heat Transfer Introduction Groups Models Predictions of Heat Transfer Coefficient Heat Transfer to Immersed Surfaces Effects of Operating Variables Heat Transfer in Liquid Fluidized Beds Heat Transfer in Three Phase Fluidized Beds Mass Transfer Introduction Mass Transfer Steps Mass Transfer in Three Phase Fluidized Beds End Zones Grid Zone Elutriation References
Introduction Fluidlike Behavior Fluidization State Advantages of Fluidized Bed Disadvantages of Fluidized Bed Properties of Particles and the Granular Bed Particles Granular Bed Grouping of Gas Fluidization Hydrodynamics Based Groups Hydrodynamics and Thermal Properties Based Groups Variables Affecting Fluidization Varieties of Fluidization Hydrodynamics of Two Phase Fluidization Minimum Fluidization Velocity Terminal Velocity Flow Phenomena Particulate and Aggregative Fluidization Regimes of Fluidization Three Phase Fluidization Introduction Classification Hydrodynamics Turbulent Contact Absorber (TCA) Heat Transfer Introduction Groups Models Predictions of Heat Transfer Coefficient Heat Transfer to Immersed Surfaces Effects of Operating Variables Heat Transfer in Liquid Fluidized Beds Heat Transfer in Three Phase Fluidized Beds Mass Transfer Introduction Mass Transfer Steps Mass Transfer in Three Phase Fluidized Beds End Zones Grid Zone Elutriation References
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