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Multiphase reactor engineering for clean and low-carbon energy applications / edited by Yi Cheng, Yong Jin.

Contributor(s): Cheng, Yi, 1970- [editor.] | Jin, Yong, 1935- [editor.].
Material type: materialTypeLabelBookPublisher: Hoboken, New Jersey : John Wiley & Sons, Inc., [2017]Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781119251064; 1119251060; 9781119251101; 1119251109.Subject(s): Synthetic fuels | Clean coal technologies | Chemical reactors | Clean energy | TECHNOLOGY & ENGINEERING -- Chemical & Biochemical | Chemical reactors | Clean coal technologies | Clean energy | Synthetic fuelsGenre/Form: Electronic books.Additional physical formats: Print version:: Multiphase reactor engineering for clean and low-carbon energy applications.DDC classification: 662.6/25 Online resources: Wiley Online Library
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.
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Includes bibliographical references and index.

Print version record.

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.

Provides a comprehensive review on the brand-new development of several multiphase reactor techniques applied in energy-related processes.

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