Advances in chemical engineering Volume 20, Fast fluidization /

Over the last decade, circulating fluidization or fast fluidization has developed rapidly, superseding standard bubbling fluidization in many applications; for example, fast fluidization provides a better means forcontrolling emissions from the combustion of high-sulfur fuels and excels when used in...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Kwuak, Mooson, Wei, James, 1930-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Academic Press, 1994.
Colección:Advances in chemical engineering ; 20.
Temas:
Chemical engineering.
Chemistry.
Engineering.
G�enie chimique.
Chimie.
Ing�enierie.
chemical engineering.
chemistry.
engineering.
Chemical engineering
Chemistry
Engineering
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Fast Fluidization; Copyright Page; Contents; Contributors; Preface; Chapter 1. Origins of the Fast Fluid Bed; I. Kellogg's Development of Fast-Bed Gasoline Synthesis; II. Commercial Outcomes Respecting Ammonia Synthesis; III. Fast-Bed Reactors at Sasolburg; IV. Pioneering Fast-Bed Research at M.I.T.; V. Fast Beds for Combustion (Affording Low Pressure Drop); VI. "Bubbleless" Fluidization Studies in China; VII. Contacting in Turbulent and Fast Fluidization; References; Chapter 2. Application Collocation; I. Characteristics of Fast Fluidized Bed Reactors; II. Catalytic Processes
  • III. Non-catalytic ReactionsIV. Other Applications; V. Computer Software for Application Collocation; VI. Conclusions; References; Chapter 3. Hydrodynamics; I. Scope of Fast Fluidization; II. Experimental Apparatus, Materials and Instrumentation; III. Experimental Findings; Notation; References; Chapter 4. Modeling; I. Basic Concepts; II. Methodology for Modeling Fast Fluidization; III. Pseudo-fluid Models; IV. Two-Phase Model-Energy-Minimization Multi-scale (EMMS) Model; V. Local Hydrodynamics-Phases; VI. Overall Hydrodynamics-Regions; Notation; References; Chapter 5. Heat and Mass Transfer
  • I. IntroductionII. Experimental Studies of Heat Transfer; III. Theoretical Analysis and Models for Heat Transfer; IV. Heat Transfer between Gas and Particles; V. Mass Transfer; Notation; References; Chapter 6. Powder Assessment; I. Geldart's Classification; II. Powder Characterization by Bed Collapsing; III. Modeling the Three-Stage Bed Collapsing Process; IV. Instrument for Automatic Surface Tracking and Data Processing; V. Qualitative Designation for Bed Collapsing; VI. Quantifying Fluidizing Characteristics of Powders; VII. Improving Fluidization by Particle Size Adjustment
  • VIII. Measure of Synergism for Binary Particle MixturesNotation; References; Chapter 7. Hardware Development; I. The V-Valve; II. Nonfluidized Diplegs; III. The Pneumatically Actuated Pulse Feeder; IV. Internals; V. Multi-layer Fast Fluidized Beds; VI. Integral CFB; Notation; References; Chapter 8. Circulating Fluidized Bed Combustion; I. Experimental Studies on Coal Combustion; II. Behavior of CFB Combustor; III. Modelling of CFB Combustor; IV. Process Design for CFBC Boilers; V. Improvement of Desulphurization; Notation; References
  • Chapter 9. Catalyst Regeneration in Fluid Catalytic CrackingI. Basic Requirements and Design Criteria for Catalyst Regeneration in FFB; II. Research and Development on FFB Catalyst Regeneration; III. China's Commercial FFB Regenerators; IV. Commercial Operating Data; V. Analysis of Commercial FFB Regenerator Operation; Notation; References; Index; Contents of Volumes in This Serial

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