Start Over Please hold this item Export MARC Display Return To Browse
 
     
Limit search to available items
Record: Previous Record Next Record
Author Raghavan, Vasudevan.
Title Combustion technology : essentials of flames and burners / Vasudevan Raghavan.
Publication Info Chichester, West Sussex : Wiley Blackwell, 2016.


Click on the following to:
Go to ebook
Persistent link to this item
Click link and copy URL from browser navigation toolbar

Descript 350 pages
Contents Preface v Acknowledgements vii 1. Introduction 1 14 1.1. Combustion Process Basic Definitions 1 1.2. Types of Fuels and Their Characteristics 3 1.2.1. Gaseous Fuels 4 1.2.2. Liquid Fuels 6 1.2.3. Solid Fuels 9 1.3. Modes of Combustion Processes 11 1.4. Emissions and Environment 13 1.5. Suggested Reading 14 Review Questions 14 2. Review of Combustion Thermodynamics 15 48 and Kinetics 2.1. Combustion Stoichiometry 15 2.2. First Law Applied to Combustion 20 2.2.1. Standard Enthalpy 21 2.2.2. Standard Heat of Reaction 23 2.2.3. Adiabatic Flame Temperature 26 2.3. Second Law Applied to Combustion 29 2.3.1. Equilibrium Constant [6, 7, 12] 34 2.3.2. Determination of Equilibrium Composition 35 2.3.3. Equilibrium Flame Temperature 36 2.4. Chemical Kinetics 38 2.4.1. Types of Reactions 38 2.4.2. Reaction Mechanisms [11, 12] 40 2.4.3. Rate Equations 41 Review Questions 48 3. Review of Combustion Phenomena 49 104 3.1. Premixed Flames [1, 2, 5, 7, 11, 12] 49 3.1.1. Laminar Premixed Flames and Flame Speed 51 3.1.2. Basic Characteristics of Turbulent Premixed Flames 62 3.1.3. Stability of Premixed Flames 67 3.1.4. Quenching Distance 70 3.2. Non-premixed Flames 71 3.2.1. Laminar Jet Diffusion Flames 72 3.2.2. Turbulent Diffusion Flames 75 3.2.3. Flame Height Correlations 76 3.3. Flames from Condensed Fuels 83 3.3.1. Evaporation and Burning of Isolated Fuel Droplets 85 3.3.2. Combustion of a Carbon Particle [2, 3, 6, 7, 12] 97 Review Questions 102 4. Burners for Gaseous Fuels 105 138 4.1. Classifications 106 4.2. Co-flow Burners 109 4.3. Swirl Burners 120 4.4. Atmospheric Entrained Air Burners 124 4.5. Stability, Performance and Emission Characteristics 126 4.6. Design Procedure 129 4.7. Several Design Concepts 136 Review Questions 137 5. Burners for Liquid Fuels 139 171 5.1. Types of Liquid Fuel Burners 139 5.2. Basics of Atomization [10, 19] 148 5.2.1. Types of Atomizers [19] 150 5.2.2. Correlations for Droplet Diameters 160 5.3. Introduction to Spray Combustion [9, 10, 19] 163 5.4. General Design Procedure 167 5.5. Operation of Liquid Fuel Burners 169 Review Questions 171 6. Solid Fuel Systems 173 212 6.1. Combustion of Solid Fuels [2, 20] 173 6.1.1. Grate Burners, Fluidized Beds and Pulverized Burners [2, 16, 20] 175 6.1.2. Design, Performance and Emission Characteristics 179 6.2. Gasification of Solid Fuels [16, 20] 205 6.2.1. Types of Gasification Systems 207 6.2.2. Design, Performance and Emission Characteristics 208 Review Questions 211 7. Alternative Fuels 213 219 7.1. Production and Characterization of Alternative Fuels 214 7.2. Performance and Emission Characteristics 216 7.3. Future Scope 218 Review Questions 219 Suggested Reading 221 222 Index 223 225
Note 200 annual accesses. UkHlHU
ISBN 9781119241768 (e-book)
 Click on the terms below to find similar items in the catalogue
Author Raghavan, Vasudevan.
Series Ane/Athena Books
Subject Combustion.
Descript 350 pages
Contents Preface v Acknowledgements vii 1. Introduction 1 14 1.1. Combustion Process Basic Definitions 1 1.2. Types of Fuels and Their Characteristics 3 1.2.1. Gaseous Fuels 4 1.2.2. Liquid Fuels 6 1.2.3. Solid Fuels 9 1.3. Modes of Combustion Processes 11 1.4. Emissions and Environment 13 1.5. Suggested Reading 14 Review Questions 14 2. Review of Combustion Thermodynamics 15 48 and Kinetics 2.1. Combustion Stoichiometry 15 2.2. First Law Applied to Combustion 20 2.2.1. Standard Enthalpy 21 2.2.2. Standard Heat of Reaction 23 2.2.3. Adiabatic Flame Temperature 26 2.3. Second Law Applied to Combustion 29 2.3.1. Equilibrium Constant [6, 7, 12] 34 2.3.2. Determination of Equilibrium Composition 35 2.3.3. Equilibrium Flame Temperature 36 2.4. Chemical Kinetics 38 2.4.1. Types of Reactions 38 2.4.2. Reaction Mechanisms [11, 12] 40 2.4.3. Rate Equations 41 Review Questions 48 3. Review of Combustion Phenomena 49 104 3.1. Premixed Flames [1, 2, 5, 7, 11, 12] 49 3.1.1. Laminar Premixed Flames and Flame Speed 51 3.1.2. Basic Characteristics of Turbulent Premixed Flames 62 3.1.3. Stability of Premixed Flames 67 3.1.4. Quenching Distance 70 3.2. Non-premixed Flames 71 3.2.1. Laminar Jet Diffusion Flames 72 3.2.2. Turbulent Diffusion Flames 75 3.2.3. Flame Height Correlations 76 3.3. Flames from Condensed Fuels 83 3.3.1. Evaporation and Burning of Isolated Fuel Droplets 85 3.3.2. Combustion of a Carbon Particle [2, 3, 6, 7, 12] 97 Review Questions 102 4. Burners for Gaseous Fuels 105 138 4.1. Classifications 106 4.2. Co-flow Burners 109 4.3. Swirl Burners 120 4.4. Atmospheric Entrained Air Burners 124 4.5. Stability, Performance and Emission Characteristics 126 4.6. Design Procedure 129 4.7. Several Design Concepts 136 Review Questions 137 5. Burners for Liquid Fuels 139 171 5.1. Types of Liquid Fuel Burners 139 5.2. Basics of Atomization [10, 19] 148 5.2.1. Types of Atomizers [19] 150 5.2.2. Correlations for Droplet Diameters 160 5.3. Introduction to Spray Combustion [9, 10, 19] 163 5.4. General Design Procedure 167 5.5. Operation of Liquid Fuel Burners 169 Review Questions 171 6. Solid Fuel Systems 173 212 6.1. Combustion of Solid Fuels [2, 20] 173 6.1.1. Grate Burners, Fluidized Beds and Pulverized Burners [2, 16, 20] 175 6.1.2. Design, Performance and Emission Characteristics 179 6.2. Gasification of Solid Fuels [16, 20] 205 6.2.1. Types of Gasification Systems 207 6.2.2. Design, Performance and Emission Characteristics 208 Review Questions 211 7. Alternative Fuels 213 219 7.1. Production and Characterization of Alternative Fuels 214 7.2. Performance and Emission Characteristics 216 7.3. Future Scope 218 Review Questions 219 Suggested Reading 221 222 Index 223 225
Note 200 annual accesses. UkHlHU
ISBN 9781119241768 (e-book)
Author Raghavan, Vasudevan.
Series Ane/Athena Books
Subject Combustion.

Subject Combustion.
Descript 350 pages
Contents Preface v Acknowledgements vii 1. Introduction 1 14 1.1. Combustion Process Basic Definitions 1 1.2. Types of Fuels and Their Characteristics 3 1.2.1. Gaseous Fuels 4 1.2.2. Liquid Fuels 6 1.2.3. Solid Fuels 9 1.3. Modes of Combustion Processes 11 1.4. Emissions and Environment 13 1.5. Suggested Reading 14 Review Questions 14 2. Review of Combustion Thermodynamics 15 48 and Kinetics 2.1. Combustion Stoichiometry 15 2.2. First Law Applied to Combustion 20 2.2.1. Standard Enthalpy 21 2.2.2. Standard Heat of Reaction 23 2.2.3. Adiabatic Flame Temperature 26 2.3. Second Law Applied to Combustion 29 2.3.1. Equilibrium Constant [6, 7, 12] 34 2.3.2. Determination of Equilibrium Composition 35 2.3.3. Equilibrium Flame Temperature 36 2.4. Chemical Kinetics 38 2.4.1. Types of Reactions 38 2.4.2. Reaction Mechanisms [11, 12] 40 2.4.3. Rate Equations 41 Review Questions 48 3. Review of Combustion Phenomena 49 104 3.1. Premixed Flames [1, 2, 5, 7, 11, 12] 49 3.1.1. Laminar Premixed Flames and Flame Speed 51 3.1.2. Basic Characteristics of Turbulent Premixed Flames 62 3.1.3. Stability of Premixed Flames 67 3.1.4. Quenching Distance 70 3.2. Non-premixed Flames 71 3.2.1. Laminar Jet Diffusion Flames 72 3.2.2. Turbulent Diffusion Flames 75 3.2.3. Flame Height Correlations 76 3.3. Flames from Condensed Fuels 83 3.3.1. Evaporation and Burning of Isolated Fuel Droplets 85 3.3.2. Combustion of a Carbon Particle [2, 3, 6, 7, 12] 97 Review Questions 102 4. Burners for Gaseous Fuels 105 138 4.1. Classifications 106 4.2. Co-flow Burners 109 4.3. Swirl Burners 120 4.4. Atmospheric Entrained Air Burners 124 4.5. Stability, Performance and Emission Characteristics 126 4.6. Design Procedure 129 4.7. Several Design Concepts 136 Review Questions 137 5. Burners for Liquid Fuels 139 171 5.1. Types of Liquid Fuel Burners 139 5.2. Basics of Atomization [10, 19] 148 5.2.1. Types of Atomizers [19] 150 5.2.2. Correlations for Droplet Diameters 160 5.3. Introduction to Spray Combustion [9, 10, 19] 163 5.4. General Design Procedure 167 5.5. Operation of Liquid Fuel Burners 169 Review Questions 171 6. Solid Fuel Systems 173 212 6.1. Combustion of Solid Fuels [2, 20] 173 6.1.1. Grate Burners, Fluidized Beds and Pulverized Burners [2, 16, 20] 175 6.1.2. Design, Performance and Emission Characteristics 179 6.2. Gasification of Solid Fuels [16, 20] 205 6.2.1. Types of Gasification Systems 207 6.2.2. Design, Performance and Emission Characteristics 208 Review Questions 211 7. Alternative Fuels 213 219 7.1. Production and Characterization of Alternative Fuels 214 7.2. Performance and Emission Characteristics 216 7.3. Future Scope 218 Review Questions 219 Suggested Reading 221 222 Index 223 225
Note 200 annual accesses. UkHlHU
ISBN 9781119241768 (e-book)
Persistent link to this item
Click link and copy URL from browser navigation toolbar

Links and services for this item:

Persistent link to this item
Click link and copy URL from browser navigation toolbar