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Title Multiphase reactor engineering for clean and low-carbon energy applications / edited by Yi Cheng, Yong Jin.
Imprint Hoboken, New Jersey : John Wiley & Sons, Inc., [2017]


 Internet  Electronic Book    AVAILABLE
Description 1 online resource
Bibliog. Includes bibliographical references and index.
Note Available only to authorized UTEP users.
Print version record.
Subject Synthetic fuels.
Clean coal technologies.
Chemical reactors.
Clean energy.
Contents Title Page ; Copyright Page; Contents; Preface; List of Contributors; Chapter 1 Novel Fluid Catalytic Cracking Processes ; 1.1 FCC Process Description ; 1.2 Reaction Process Regulation for the Heavy Oil FCC ; 1.2.1 Technology Background; 1.2.2 Principle of the Technology; 1.2.3 Key Fundamental Research; 1.2.4 Industrial Validation; 1.3 Advanced Riser Termination Devices for the FCC Processes ; 1.3.1 Introduction; 1.3.2 General Idea of the Advanced RTD System; 1.3.3 Development of the External-Riser FCC RTD Systems; 1.3.4 Development of the Internal-Riser FCC RTDs.
1.3.5 Conclusions and Perspectives1.4 An MZCC FCC Process; 1.4.1 Technology Background; 1.4.2 Reaction Principle for MZCC; 1.4.3 Design Principle of MZCC Reactor; 1.4.4 Key Basic Study; 1.4.5 The Industry Application of MZCC; 1.4.6 Prospectives; 1.5 Two-Stage Riser Fluid Catalytic Cracking Process ; 1.5.1 Preface; 1.5.2 Reaction Mechanism of Heavy Oil in the Riser Reactor; 1.5.3 The Proposed TSR FCC Process; 1.5.4 The Industrial Application of the TSR FCC Technology; 1.5.5 The Development of the TSR FCC Process; 1.6 FCC Gasoline Upgrading by Reducing Olefins Content Using SRFCC Process.
1.6.1 Research Background1.6.2 Reaction Principle of Gasoline Upgrading; 1.6.3 Design and Optimization on the Subsidiary Riser; 1.6.4 Key Fundamental Researches; 1.6.5 Industrial Applications of the SRFCC Process; 1.6.6 Outlook; 1.7 FCC Process Perspectives ; References; Chapter 2 Coal Combustion ; 2.1 Fuel and Combustion Products; 2.1.1 Composition and Properties of Fuel; 2.1.2 Analysis of Compositions in the Fuel; 2.1.3 Calorific Value of Fuel; 2.1.4 Classifications of Coal; 2.1.5 Combustion Products and Enthalpy of Flue Gas; 2.2 Device and Combustion Theory of Gaseous Fuels.
2.2.1 Ignition of the Gaseous Fuels2.2.2 Diffusion Gas Burner; 2.2.3 Fully Premixed-Type Gas Burner; 2.3 CCombustion Theory of Solid Fuel; 2.3.1 The Chemical Reaction Mechanism of Carbon Combustion; 2.3.2 Carbon Combustion Reaction Process; 2.4 Grate Firing of Coal; 2.4.1 Coal Grate Firing Facilities; 2.5 Coal Combustion in CFB Boiler; 2.5.1 The Characteristic of Fluidized Bed; 2.5.2 Combustion Characteristic of CFB Boiler; 2.5.3 Development of Circulating Fluidized Bed Combustion Technology; 2.5.4 Comparison Between Bubbling Fluidized bed and Circulating Fluidized Bed.
2.6 Pulverized Coal Combustion2.6.1 Furnace Type of Pulverized Coal Combustion; 2.6.2 Circulation Mode of Water Wall; 2.6.3 Modern Large-Scale Pulverized Coal Combustion Technology ; 2.6.4 The International Development of the Supercritical Pressure Boiler; References; Chapter 3 Coal Gasification ; 3.1 Coal Water Slurry; 3.1.1 The Advantage of CWS; 3.1.2 The Production of CWS; 3.1.3 The Atomization of CWS; 3.2 The Theory of Coal Gasification; 3.2.1 Overview of Coal Gasification; 3.2.2 The Main Reaction Processes of Coal Gasification; 3.2.3 Kinetics of Coal Gasification Reaction.
Summary Provides a comprehensive review on the brand-new development of several multiphase reactor techniques applied in energy-related processes.
Other Author Cheng, Yi, 1970- editor.
Jin, Yong, 1935- editor.
Other Title Print version: Multiphase reactor engineering for clean and low-carbon energy applications. Hoboken, New Jersey : John Wiley & Sons, Inc., [2017] 9781118454695