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理想和无气泡流态化(英文版)(Idealized and Bubbleless Fluidization)


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理想和无气泡流态化(英文版)(Idealized and Bubbleless Fluidization)
  • 书号:9787030224422
    作者:Mooson Kwauk Youchu Li
  • 外文书名:Idealized and Bubbleless Fluidization
  • 丛书名:
  • 装帧:平脊精装
    开本:16
  • 页数:372
    字数:600
    语种:英文
  • 出版社:科学出版社
    出版时间:2009-03-16
  • 所属分类:TQ0 一般性问题
  • 定价: ¥138.00元
    售价: ¥110.40元
  • 图书介质:
    纸质书

  • 购买数量: 件  可供
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  本书总结了作者30多年从事流态化工程技术研究的指导思想和研究成果,从两个出发点来叙述流态化。第一是从液固散式流态化中孔隙率和相对流速的简洁的关系,建构了便于应用的流态化体系的理想化的概念,从一维空间进行分析流态化设备和工艺的简易方法。第二是从习用的鼓泡式流态化的能耗高和颗粒/流体接触差的角度,警告读者不要轻易进入此一度成为国际热点的盲区,而指出了若干避免鼓泡的方法和有关设备和工艺设计和分析。此外,本书还对快速流态化的应用、磁场流态化、和散式/聚式流态化进行了论述.
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目录

  • Chapter 1 THE FLUIDIZED STATE
    1.1 The Fluidized State and How It Is Achieved
    1.2 Nature of Hydrodynamic Suspension
    1.3 Particle-Particle Forces
    1.4 Species of Fluidization
    1.5 Regimization of the Fluidized State
    Chapter 2 IDEALIZATION OF THE FLUIDIZING PROCESS: Empirical Deductions from L/S Systems
    Chapter 3 GENERALIZED FLUIDIZATION
    3.1 Steady-State Motion
    3.2 Moving Bed
    3.3 Accelerative Motion
    3.4 Polydisperse Systems
    3.5 Computer Software
    Chapter 4 FLUIDIZED LEACHING AND WASHI NG
    4.1 Characteristics
    4.2 Uniform Particles
    4.3 Mixed Particles
    4.4 Experimental Findings
    4.5 Staging
    4.6 Rate Measurement for Solids Leaching and Washing
    Chapter 5 SOLIDS MIXING AND SEGREGATION
    5.1 Phase Juxtaposition
    5.2 Operation Shifts
    5.3 Reversal Points
    5.4 Degree of Segregation
    5.5 Mixing-Segregation Equilibrium
    5.6 Generalized Fluidization of Polydisperse Systems
    Chapter 6 CONICAL FLUIDIZED BEDS
    6.1 Phenomenological Description and Physical Modeling
    6.2 The Basic Parameters
    6.3 The Fully Fluidized State
    6.4 With Hyperfluidized Fixed Bed
    6.5 Ranges for Conical Fluidized Bed Operation
    6.6 Charting Conical Fluidized Bed Operation and Experimental Verification
    6.7 Instability
    Chapter 7 APPLICATION OF THE MOVING BED
    7.1 Moving Bed Uptransport with Compressible Media
    7.2 The Pneumatically Controlled Downcomer
    Chapter 8 BUBBLELESS GAS/SOLID CONTACTING
    8.1 Bubbling Fluidization and G/S Contacting Efficiency
    8.2 Species of Bubbleless G/S Contacting
    Chapter 9 SYSTEMS WITH DILUTE RAINING PARTICLES
    9.1 Raining-Particles Heat Exchanger
    9.2 Polydisperse Particles
    9.3 Experimental Verification
    9.4 Baffling and Particles Distribution
    9.5 Countercurrent Staging of Cocurrent Systems
    9.6 Pilot Plant Demonstration
    Chapter 10 VOIDAGE DISTRIBUTION IN FAST FLUIDIZATION
    10.1 Modeling Longitudinal Voidage Distribution
    10.2 Evaluation of Parameters
    10.3 Computing Voidage Distribution
    10.4 Regime Diagram
    10.5 Generalized Fluidization of Nonideal Systems
    10.6 Radial Voidage Distribution
    Chapter 11 SHALLOW FLUIDIZED BED
    11.1 Relevant Work on Distributor
    11.2 Fluid Flow above Distributor
    11.3 Particle Behavior above Distributor
    11.4 Assessment of Distributor Performance
    11.5 Particle-Gas Transfer in Shallow Fluid Bed
    11.6 Activated Solids Shallow Fluid Bed Heat Exchanger
    11.7 Cocurrent Multi-Stage Shallow Fluid Bed
    11.8 The co-MSFB as a Chemical Reactor
    Chapter 12 FLUIDIZATION WITH NO NET FLUID FLOW
    12.1 Levitation of Discrete Particles
    12.2 Semi-Fluidization through Oscillatory Flow
    12.3 Application to Pseudo Solid-Solid Reaction
    Chapter 13 A COHERENT ANALYSIS FOR L/S AND G/S SYSTEMS
    13.1 From Phenomena through Hypothesis to Modeling
    13.2 The Multi-Scale Energy-Minimization Model
    13.3 Charting Status Parameters
    13.4 Reconciling L/S and G/S Systems
    13.5 Regimes of Fluidization
    Chapter 14 POWDER ASSESSMENT
    14.1 Geldart's Classification
    14.2 Powder Characterization by Bed Collapsing
    14.3 Modeling the Three-Stage Bed Collapsing Process
    14.4 Instrument for Automatic Surface Tracking and Data Processing
    14.5 Qualitative Designation for Bed Collapsing
    14.6 Quantifying Fluidizing Characteristics of Powders
    14.7 Improving Fluidization by Particle Size Adjustment
    14.8 Fluidizing Quality and Particle-Particle Interaction
    14.9 Measure of Synergism for Binary Particle Mixtures
    Chapter 15 FUTURE PROSPECTS
    15.1 Basic Mechanism
    15.2 Further Reconciliation between G/S and L/S Systems
    15.3 Polydisperse Systems and Powder Design
    15.4 Intensification of L/S Operations
    15.5 Staged Operation
    15.6 Existing and New L/S Processes
    15.7 Examples of Opportunities for Bubbleless G/S Contacting
    NOTATIONS
    References
    SUBJECT INDEX
    ADDENDA
    Chapter 16 FAST FLUIDIZATION AND ITS APPLICATIONS
    16.1 Types of Fast Fluidized Bed
    16.2 Gas-solid Flow in Riser
    16.3 Gas-solid Flow in Downcomer
    16.4 Applications of Fast Fluidization
    References
    Chapter 17 MAGNETOFLUIDIZATION
    17.1 Types of Magnetofluidized Bed
    17.2 Structure of Magnetofluidized Bed
    17.3 Hydrodynamics of Magnetofluidization
    17.4 Mixing Behaviors
    17.5 Mass and Heat Transfer
    17.6 Applications of Magnetofluidization
    References
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