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Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Autore Glassman Irvin
Edizione [Fifth edition.]
Pubbl/distr/stampa Waltham, Massachusetts : , : Academic Press, , 2015
Descrizione fisica 1 online resource (775 p.)
Disciplina 541/.361
Soggetto topico Combustion
Soggetto genere / forma Electronic books.
ISBN 0-12-411555-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright; Dedication; Dedication; Contents; Preface; Chapter 1 - Chemical thermodynamics and flame temperatures; 1.1 INTRODUCTION; 1.2 HEATS OF REACTION AND FORMATION; 1.3 FREE ENERGY AND THE EQUILIBRIUM CONSTANTS; 1.4 FLAME TEMPERATURE CALCULATIONS; 1.5 SUB AND SUPERSONIC COMBUSTION THERMODYNAMICS; PROBLEMS; REFERENCES; Chapter 2 - Chemical kinetics; 2.1 INTRODUCTION; 2.2 RATES OF REACTIONS AND THEIR TEMPERATURE DEPENDENCE; 2.3 SIMULTANEOUS INTERDEPENDENT REACTIONS; 2.4 CHAIN REACTIONS; 2.5 PSEUDO-FIRST-ORDER REACTIONS AND THE "FALLOFF" RANGE
2.6 THE PARTIAL EQUILIBRIUM ASSUMPTION2.7 PRESSURE EFFECT IN FRACTIONAL CONVERSION; 2.8 CHEMICAL KINETICS OF LARGE REACTION MECHANISMS; PROBLEMS; REFERENCES; Chapter 3 - Explosive and general oxidative characteristics of fuels; 3.1 INTRODUCTION; 3.2 CHAIN BRANCHING REACTIONS AND CRITERIA FOR EXPLOSION; 3.3 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROGEN; 3.4 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF CARBON MONOXIDE; 3.5 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROCARBONS; 3.6 THE OXIDATION OF ALDEHYDES; 3.7 THE OXIDATION OF METHANE
3.8 THE OXIDATION OF HIGHER-ORDER HYDROCARBONSPROBLEMS; REFERENCES; Chapter 4 - Flame phenomena in premixed combustible gases; 4.1 INTRODUCTION; 4.2 LAMINAR FLAME STRUCTURE; 4.3 LAMINAR FLAME SPEED; 4.4 STABILITY LIMITS OF LAMINAR FLAMES; 4.5 FLAME PROGAGATION THROUGH STRATIFIED COMBUSTIBLE MIXTURES; 4.6 TURBULENT REACTING FLOWS AND TURBULENT FLAMES; 4.7 STIRRED REACTOR THEORY; 4.8 FLAME STABILIZATION IN HIGH-VELOCITY STREAMS; 4.9 COMBUSTION IN SMALL VOLUMES; PROBLEMS; REFERENCES; Chapter 5 - Detonation; 5.1 INTRODUCTION; 5.2 DETONATION PHENOMENA
5.3 HUGONIOT RELATIONS AND THE HYDRODYNAMIC THEORY OF DETONATIONS5.4 COMPARISON OF DETONATION VELOCITY CALCULATIONS WITH EXPERIMENTAL RESULTS; 5.5 THE ZND STRUCTURE OF DETONATION WAVES; 5.6 THE STRUCTURE OF THE CELLULAR DETONATION FRONT AND OTHER DETONATION PHENOMENA PARAMETERS; 5.7 DETONATIONS IN NONGASEOUS MEDIA; PROBLEMS; REFERENCES; Chapter 6 - Diffusion flames; 6.1 INTRODUCTION; 6.2 GASEOUS FUEL JETS; 6.3 BURNING OF CONDENSED PHASES; 6.4 BURNING OF DROPLET CLOUDS; 6.5 BURNING IN CONVECTIVE ATMOSPHERES; PROBLEMS; REFERENCES; Chapter 7 - Ignition; 7.1 CONCEPTS
7.2 CHAIN SPONTANEOUS IGNITION7.3 THERMAL SPONTANEOUS IGNITION; 7.4 FORCED IGNITION; 7.5 OTHER IGNITION CONCEPTS; PROBLEMS; REFERENCES; Chapter 8 - Environmental combustion considerations; 8.1 INTRODUCTION; 8.2 THE NATURE OF PHOTOCHEMICAL SMOG; 8.3 FORMATION AND REDUCTION OF NITROGEN OXIDES; 8.4 SOX EMISSIONS; 8.5 PARTICULATE FORMATION; 8.6 STRATOSPHERIC OZONE; PROBLEMS; REFERENCES; Chapter 9 - Combustion of nonvolatile fuels; 9.1 CARBON CHAR, SOOT, AND METAL COMBUSTION; 9.2 METAL COMBUSTION THERMODYNAMICS; 9.3 DIFFUSIONAL KINETICS; 9.4 DIFFUSION-CONTROLLED BURNING RATE
9.5 PRACTICAL CARBONACEOUS FUELS (C. R. SHADDIX)
Record Nr. UNINA-9910459776603321
Glassman Irvin  
Waltham, Massachusetts : , : Academic Press, , 2015
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Autore Glassman Irvin
Edizione [Fifth edition.]
Pubbl/distr/stampa Waltham, Massachusetts : , : Academic Press, , 2015
Descrizione fisica 1 online resource (775 p.)
Disciplina 541/.361
Soggetto topico Combustion
ISBN 0-12-411555-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright; Dedication; Dedication; Contents; Preface; Chapter 1 - Chemical thermodynamics and flame temperatures; 1.1 INTRODUCTION; 1.2 HEATS OF REACTION AND FORMATION; 1.3 FREE ENERGY AND THE EQUILIBRIUM CONSTANTS; 1.4 FLAME TEMPERATURE CALCULATIONS; 1.5 SUB AND SUPERSONIC COMBUSTION THERMODYNAMICS; PROBLEMS; REFERENCES; Chapter 2 - Chemical kinetics; 2.1 INTRODUCTION; 2.2 RATES OF REACTIONS AND THEIR TEMPERATURE DEPENDENCE; 2.3 SIMULTANEOUS INTERDEPENDENT REACTIONS; 2.4 CHAIN REACTIONS; 2.5 PSEUDO-FIRST-ORDER REACTIONS AND THE "FALLOFF" RANGE
2.6 THE PARTIAL EQUILIBRIUM ASSUMPTION2.7 PRESSURE EFFECT IN FRACTIONAL CONVERSION; 2.8 CHEMICAL KINETICS OF LARGE REACTION MECHANISMS; PROBLEMS; REFERENCES; Chapter 3 - Explosive and general oxidative characteristics of fuels; 3.1 INTRODUCTION; 3.2 CHAIN BRANCHING REACTIONS AND CRITERIA FOR EXPLOSION; 3.3 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROGEN; 3.4 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF CARBON MONOXIDE; 3.5 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROCARBONS; 3.6 THE OXIDATION OF ALDEHYDES; 3.7 THE OXIDATION OF METHANE
3.8 THE OXIDATION OF HIGHER-ORDER HYDROCARBONSPROBLEMS; REFERENCES; Chapter 4 - Flame phenomena in premixed combustible gases; 4.1 INTRODUCTION; 4.2 LAMINAR FLAME STRUCTURE; 4.3 LAMINAR FLAME SPEED; 4.4 STABILITY LIMITS OF LAMINAR FLAMES; 4.5 FLAME PROGAGATION THROUGH STRATIFIED COMBUSTIBLE MIXTURES; 4.6 TURBULENT REACTING FLOWS AND TURBULENT FLAMES; 4.7 STIRRED REACTOR THEORY; 4.8 FLAME STABILIZATION IN HIGH-VELOCITY STREAMS; 4.9 COMBUSTION IN SMALL VOLUMES; PROBLEMS; REFERENCES; Chapter 5 - Detonation; 5.1 INTRODUCTION; 5.2 DETONATION PHENOMENA
5.3 HUGONIOT RELATIONS AND THE HYDRODYNAMIC THEORY OF DETONATIONS5.4 COMPARISON OF DETONATION VELOCITY CALCULATIONS WITH EXPERIMENTAL RESULTS; 5.5 THE ZND STRUCTURE OF DETONATION WAVES; 5.6 THE STRUCTURE OF THE CELLULAR DETONATION FRONT AND OTHER DETONATION PHENOMENA PARAMETERS; 5.7 DETONATIONS IN NONGASEOUS MEDIA; PROBLEMS; REFERENCES; Chapter 6 - Diffusion flames; 6.1 INTRODUCTION; 6.2 GASEOUS FUEL JETS; 6.3 BURNING OF CONDENSED PHASES; 6.4 BURNING OF DROPLET CLOUDS; 6.5 BURNING IN CONVECTIVE ATMOSPHERES; PROBLEMS; REFERENCES; Chapter 7 - Ignition; 7.1 CONCEPTS
7.2 CHAIN SPONTANEOUS IGNITION7.3 THERMAL SPONTANEOUS IGNITION; 7.4 FORCED IGNITION; 7.5 OTHER IGNITION CONCEPTS; PROBLEMS; REFERENCES; Chapter 8 - Environmental combustion considerations; 8.1 INTRODUCTION; 8.2 THE NATURE OF PHOTOCHEMICAL SMOG; 8.3 FORMATION AND REDUCTION OF NITROGEN OXIDES; 8.4 SOX EMISSIONS; 8.5 PARTICULATE FORMATION; 8.6 STRATOSPHERIC OZONE; PROBLEMS; REFERENCES; Chapter 9 - Combustion of nonvolatile fuels; 9.1 CARBON CHAR, SOOT, AND METAL COMBUSTION; 9.2 METAL COMBUSTION THERMODYNAMICS; 9.3 DIFFUSIONAL KINETICS; 9.4 DIFFUSION-CONTROLLED BURNING RATE
9.5 PRACTICAL CARBONACEOUS FUELS (C. R. SHADDIX)
Record Nr. UNINA-9910787258703321
Glassman Irvin  
Waltham, Massachusetts : , : Academic Press, , 2015
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Combustion / / Irvin Glassman, Richard A. Yetter, Nick G. Glumac
Autore Glassman Irvin
Edizione [Fifth edition.]
Pubbl/distr/stampa Waltham, Massachusetts : , : Academic Press, , 2015
Descrizione fisica 1 online resource (775 p.)
Disciplina 541/.361
Soggetto topico Combustion
ISBN 0-12-411555-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright; Dedication; Dedication; Contents; Preface; Chapter 1 - Chemical thermodynamics and flame temperatures; 1.1 INTRODUCTION; 1.2 HEATS OF REACTION AND FORMATION; 1.3 FREE ENERGY AND THE EQUILIBRIUM CONSTANTS; 1.4 FLAME TEMPERATURE CALCULATIONS; 1.5 SUB AND SUPERSONIC COMBUSTION THERMODYNAMICS; PROBLEMS; REFERENCES; Chapter 2 - Chemical kinetics; 2.1 INTRODUCTION; 2.2 RATES OF REACTIONS AND THEIR TEMPERATURE DEPENDENCE; 2.3 SIMULTANEOUS INTERDEPENDENT REACTIONS; 2.4 CHAIN REACTIONS; 2.5 PSEUDO-FIRST-ORDER REACTIONS AND THE "FALLOFF" RANGE
2.6 THE PARTIAL EQUILIBRIUM ASSUMPTION2.7 PRESSURE EFFECT IN FRACTIONAL CONVERSION; 2.8 CHEMICAL KINETICS OF LARGE REACTION MECHANISMS; PROBLEMS; REFERENCES; Chapter 3 - Explosive and general oxidative characteristics of fuels; 3.1 INTRODUCTION; 3.2 CHAIN BRANCHING REACTIONS AND CRITERIA FOR EXPLOSION; 3.3 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROGEN; 3.4 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF CARBON MONOXIDE; 3.5 EXPLOSION LIMITS AND OXIDATION CHARACTERISTICS OF HYDROCARBONS; 3.6 THE OXIDATION OF ALDEHYDES; 3.7 THE OXIDATION OF METHANE
3.8 THE OXIDATION OF HIGHER-ORDER HYDROCARBONSPROBLEMS; REFERENCES; Chapter 4 - Flame phenomena in premixed combustible gases; 4.1 INTRODUCTION; 4.2 LAMINAR FLAME STRUCTURE; 4.3 LAMINAR FLAME SPEED; 4.4 STABILITY LIMITS OF LAMINAR FLAMES; 4.5 FLAME PROGAGATION THROUGH STRATIFIED COMBUSTIBLE MIXTURES; 4.6 TURBULENT REACTING FLOWS AND TURBULENT FLAMES; 4.7 STIRRED REACTOR THEORY; 4.8 FLAME STABILIZATION IN HIGH-VELOCITY STREAMS; 4.9 COMBUSTION IN SMALL VOLUMES; PROBLEMS; REFERENCES; Chapter 5 - Detonation; 5.1 INTRODUCTION; 5.2 DETONATION PHENOMENA
5.3 HUGONIOT RELATIONS AND THE HYDRODYNAMIC THEORY OF DETONATIONS5.4 COMPARISON OF DETONATION VELOCITY CALCULATIONS WITH EXPERIMENTAL RESULTS; 5.5 THE ZND STRUCTURE OF DETONATION WAVES; 5.6 THE STRUCTURE OF THE CELLULAR DETONATION FRONT AND OTHER DETONATION PHENOMENA PARAMETERS; 5.7 DETONATIONS IN NONGASEOUS MEDIA; PROBLEMS; REFERENCES; Chapter 6 - Diffusion flames; 6.1 INTRODUCTION; 6.2 GASEOUS FUEL JETS; 6.3 BURNING OF CONDENSED PHASES; 6.4 BURNING OF DROPLET CLOUDS; 6.5 BURNING IN CONVECTIVE ATMOSPHERES; PROBLEMS; REFERENCES; Chapter 7 - Ignition; 7.1 CONCEPTS
7.2 CHAIN SPONTANEOUS IGNITION7.3 THERMAL SPONTANEOUS IGNITION; 7.4 FORCED IGNITION; 7.5 OTHER IGNITION CONCEPTS; PROBLEMS; REFERENCES; Chapter 8 - Environmental combustion considerations; 8.1 INTRODUCTION; 8.2 THE NATURE OF PHOTOCHEMICAL SMOG; 8.3 FORMATION AND REDUCTION OF NITROGEN OXIDES; 8.4 SOX EMISSIONS; 8.5 PARTICULATE FORMATION; 8.6 STRATOSPHERIC OZONE; PROBLEMS; REFERENCES; Chapter 9 - Combustion of nonvolatile fuels; 9.1 CARBON CHAR, SOOT, AND METAL COMBUSTION; 9.2 METAL COMBUSTION THERMODYNAMICS; 9.3 DIFFUSIONAL KINETICS; 9.4 DIFFUSION-CONTROLLED BURNING RATE
9.5 PRACTICAL CARBONACEOUS FUELS (C. R. SHADDIX)
Record Nr. UNINA-9910806910403321
Glassman Irvin  
Waltham, Massachusetts : , : Academic Press, , 2015
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion [[electronic resource] /] / Irvin Glassman, Richard A. Yetter
Combustion [[electronic resource] /] / Irvin Glassman, Richard A. Yetter
Autore Glassman Irvin
Edizione [4th ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Academic Press, c2008
Descrizione fisica 1 online resource (794 p.)
Disciplina 541/.361
Altri autori (Persone) YetterRichard A. <1952->
Soggetto topico Combustion
Soggetto genere / forma Electronic books.
ISBN 1-281-91117-8
9786611911171
0-08-056881-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Prologue; Preface; CHAPTER 1. CHEMICAL THERMODYNAMICS AND FLAME TEMPERATURES; A. Introduction; B. Heats of reaction and formation; C. Free energy and the equilibrium constants; D. Flame temperature calculations; 1. Analysis; 2. Practical considerations; E. Sub- and super sonic combustion thermodynamics; 1. Comparisons; 2. Stagnation pressure considerations; Problems; CHAPTER 2. CHEMICAL KINETICS; A. Introduction; B. Rates of reactions and their temperature dependence; 1. The Arrhenius rate expression
2. Transition state and recombination rate theories C. Simultaneous interdependent reactions; D. Chain reactions; E. Pseudo-first-order reactions and the ""fall-off"" range; F. The partial equilibrium assumption; G. Pressure effect in fractional conversion; H. Chemical kinetics of large reaction mechanisms; 1. Sensitivity analysis; 2. Rate of production analysis; 3. Coupled thermal and chemical reacting systems; 4. Mechanism simplification; Problems; CHAPTER 3. EXPLOSIVE AND GENERAL OXIDATIVE CHARACTERISTICS OF FUELS; A. Introduction; B. Chain branching reactions and criteria for explosion
C. Explosion limits and oxidation characteristics of hydrogen D. Explosion limits and oxidation characteristics of carbon monoxide; E. Explosion limits and oxidation characteristics of hydrocarbons; 1. Organic nomenclature; 2. Explosion limits; 3. ""Low-temperature"" hydrocarbon oxidation mechanisms; F. The oxidation of aldehydes; G. The oxidation of methane; 1. Low-temperature mechanism; 2. High-temperature mechanism; H. The oxidation of higher-order hydrocarbons; 1. Aliphatic hydrocarbons; 2. Alcohols; 3. Aromatic hydrocarbons; 4. Supercritical effects; Problems
CHAPTER 4. FLAME PHENOMENA IN PREMIXED COMBUSTIBLE GASESA. Introduction; B. Laminar flame structure; C. The laminar flame speed; 1. The theory of Mallard and Le Chatelier; 2. The theory of Zeldovich, Frank-Kamenetskii, and Semenov; 3. Comprehensive theory and laminar flame structure analysis; 4. The laminar flame and the energy equation; 5. Flame speed measurements; 6. Experimental results: physical and chemical effects; D. Stability limits of laminar flames; 1. Flammability limits; 2. Quenching distance; 3. Flame stabilization (low velocity); 4. Stability limits and design
E. Flame propagation through stratified combustible mixtures F. Turbulent reacting flows and turbulent flames; 1. The rate of reaction in a turbulent field; 2. Regimes of turbulent reacting flows; 3. The turbulent flame speed; G. Stirred reactor theory; H. Flame stabilization in high-velocity streams; I. Combustion in small volumes; Problems; CHAPTER 5. DETONATION; A. Introduction; 1. Premixed and diffusion flames; 2. Explosion, deflagration, and detonation; 3. The onset of detonation; B. Detonation phenomena; C. Hugoniot relations and the hydrodynamic theory of detonations
1. Characterization of the Hugoniot curve and the uniqueness of the C-J point
Record Nr. UNINA-9910453430603321
Glassman Irvin  
Amsterdam ; ; Boston, : Academic Press, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion [[electronic resource] /] / Irvin Glassman, Richard A. Yetter
Combustion [[electronic resource] /] / Irvin Glassman, Richard A. Yetter
Autore Glassman Irvin
Edizione [4th ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Academic Press, c2008
Descrizione fisica 1 online resource (794 p.)
Disciplina 541/.361
Altri autori (Persone) YetterRichard A. <1952->
Soggetto topico Combustion
ISBN 1-281-91117-8
9786611911171
0-08-056881-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Prologue; Preface; CHAPTER 1. CHEMICAL THERMODYNAMICS AND FLAME TEMPERATURES; A. Introduction; B. Heats of reaction and formation; C. Free energy and the equilibrium constants; D. Flame temperature calculations; 1. Analysis; 2. Practical considerations; E. Sub- and super sonic combustion thermodynamics; 1. Comparisons; 2. Stagnation pressure considerations; Problems; CHAPTER 2. CHEMICAL KINETICS; A. Introduction; B. Rates of reactions and their temperature dependence; 1. The Arrhenius rate expression
2. Transition state and recombination rate theories C. Simultaneous interdependent reactions; D. Chain reactions; E. Pseudo-first-order reactions and the ""fall-off"" range; F. The partial equilibrium assumption; G. Pressure effect in fractional conversion; H. Chemical kinetics of large reaction mechanisms; 1. Sensitivity analysis; 2. Rate of production analysis; 3. Coupled thermal and chemical reacting systems; 4. Mechanism simplification; Problems; CHAPTER 3. EXPLOSIVE AND GENERAL OXIDATIVE CHARACTERISTICS OF FUELS; A. Introduction; B. Chain branching reactions and criteria for explosion
C. Explosion limits and oxidation characteristics of hydrogen D. Explosion limits and oxidation characteristics of carbon monoxide; E. Explosion limits and oxidation characteristics of hydrocarbons; 1. Organic nomenclature; 2. Explosion limits; 3. ""Low-temperature"" hydrocarbon oxidation mechanisms; F. The oxidation of aldehydes; G. The oxidation of methane; 1. Low-temperature mechanism; 2. High-temperature mechanism; H. The oxidation of higher-order hydrocarbons; 1. Aliphatic hydrocarbons; 2. Alcohols; 3. Aromatic hydrocarbons; 4. Supercritical effects; Problems
CHAPTER 4. FLAME PHENOMENA IN PREMIXED COMBUSTIBLE GASESA. Introduction; B. Laminar flame structure; C. The laminar flame speed; 1. The theory of Mallard and Le Chatelier; 2. The theory of Zeldovich, Frank-Kamenetskii, and Semenov; 3. Comprehensive theory and laminar flame structure analysis; 4. The laminar flame and the energy equation; 5. Flame speed measurements; 6. Experimental results: physical and chemical effects; D. Stability limits of laminar flames; 1. Flammability limits; 2. Quenching distance; 3. Flame stabilization (low velocity); 4. Stability limits and design
E. Flame propagation through stratified combustible mixtures F. Turbulent reacting flows and turbulent flames; 1. The rate of reaction in a turbulent field; 2. Regimes of turbulent reacting flows; 3. The turbulent flame speed; G. Stirred reactor theory; H. Flame stabilization in high-velocity streams; I. Combustion in small volumes; Problems; CHAPTER 5. DETONATION; A. Introduction; 1. Premixed and diffusion flames; 2. Explosion, deflagration, and detonation; 3. The onset of detonation; B. Detonation phenomena; C. Hugoniot relations and the hydrodynamic theory of detonations
1. Characterization of the Hugoniot curve and the uniqueness of the C-J point
Record Nr. UNINA-9910782361303321
Glassman Irvin  
Amsterdam ; ; Boston, : Academic Press, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion / / Irvin Glassman, Richard A. Yetter
Combustion / / Irvin Glassman, Richard A. Yetter
Autore Glassman Irvin
Edizione [4th ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Academic Press, c2008
Descrizione fisica 1 online resource (794 p.)
Disciplina 541/.361
Altri autori (Persone) YetterRichard A. <1952->
Soggetto topico Combustion
ISBN 1-281-91117-8
9786611911171
0-08-056881-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Prologue; Preface; CHAPTER 1. CHEMICAL THERMODYNAMICS AND FLAME TEMPERATURES; A. Introduction; B. Heats of reaction and formation; C. Free energy and the equilibrium constants; D. Flame temperature calculations; 1. Analysis; 2. Practical considerations; E. Sub- and super sonic combustion thermodynamics; 1. Comparisons; 2. Stagnation pressure considerations; Problems; CHAPTER 2. CHEMICAL KINETICS; A. Introduction; B. Rates of reactions and their temperature dependence; 1. The Arrhenius rate expression
2. Transition state and recombination rate theories C. Simultaneous interdependent reactions; D. Chain reactions; E. Pseudo-first-order reactions and the ""fall-off"" range; F. The partial equilibrium assumption; G. Pressure effect in fractional conversion; H. Chemical kinetics of large reaction mechanisms; 1. Sensitivity analysis; 2. Rate of production analysis; 3. Coupled thermal and chemical reacting systems; 4. Mechanism simplification; Problems; CHAPTER 3. EXPLOSIVE AND GENERAL OXIDATIVE CHARACTERISTICS OF FUELS; A. Introduction; B. Chain branching reactions and criteria for explosion
C. Explosion limits and oxidation characteristics of hydrogen D. Explosion limits and oxidation characteristics of carbon monoxide; E. Explosion limits and oxidation characteristics of hydrocarbons; 1. Organic nomenclature; 2. Explosion limits; 3. ""Low-temperature"" hydrocarbon oxidation mechanisms; F. The oxidation of aldehydes; G. The oxidation of methane; 1. Low-temperature mechanism; 2. High-temperature mechanism; H. The oxidation of higher-order hydrocarbons; 1. Aliphatic hydrocarbons; 2. Alcohols; 3. Aromatic hydrocarbons; 4. Supercritical effects; Problems
CHAPTER 4. FLAME PHENOMENA IN PREMIXED COMBUSTIBLE GASESA. Introduction; B. Laminar flame structure; C. The laminar flame speed; 1. The theory of Mallard and Le Chatelier; 2. The theory of Zeldovich, Frank-Kamenetskii, and Semenov; 3. Comprehensive theory and laminar flame structure analysis; 4. The laminar flame and the energy equation; 5. Flame speed measurements; 6. Experimental results: physical and chemical effects; D. Stability limits of laminar flames; 1. Flammability limits; 2. Quenching distance; 3. Flame stabilization (low velocity); 4. Stability limits and design
E. Flame propagation through stratified combustible mixtures F. Turbulent reacting flows and turbulent flames; 1. The rate of reaction in a turbulent field; 2. Regimes of turbulent reacting flows; 3. The turbulent flame speed; G. Stirred reactor theory; H. Flame stabilization in high-velocity streams; I. Combustion in small volumes; Problems; CHAPTER 5. DETONATION; A. Introduction; 1. Premixed and diffusion flames; 2. Explosion, deflagration, and detonation; 3. The onset of detonation; B. Detonation phenomena; C. Hugoniot relations and the hydrodynamic theory of detonations
1. Characterization of the Hugoniot curve and the uniqueness of the C-J point
Record Nr. UNINA-9910806841803321
Glassman Irvin  
Amsterdam ; ; Boston, : Academic Press, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion [[electronic resource] /] / Irvin Glassman
Combustion [[electronic resource] /] / Irvin Glassman
Autore Glassman Irvin
Edizione [3rd ed.]
Pubbl/distr/stampa San Diego, Calif., : Academic Press, c1996
Descrizione fisica 1 online resource (651 p.)
Disciplina 541.3/61
Soggetto topico Combustion
Thermochemistry
Soggetto genere / forma Electronic books.
ISBN 1-281-31144-8
9786611311445
0-08-052941-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Preface; Acknowledgments; Chapter 1. Chemical Thermodynamics and Flame Temperatures; A. Introduction; B. Heats of Reaction and Formation; C. Free Energy and the Equilibrium Constants; D. Flame Temperature Calculations; Problems; References; Chapter 2. Chemical Kinetics; A. Introduction; B. Rates of Reactions and Their Temperature Dependence; C. Simultaneous Interdependent Reactions; D. Chain Reactions; E. Pseudo-First-Order Reactions and the ""Fall-Off"" Range; F. The Partial Equilibrium Assumption; G. Pressure Effect in Fractional Conversion
ProblemsReferences; Chapter 3. Explosive and General Oxidative Characteristics of Fuels; A. Introduction; B. Chain Branching Reactions and Criteria for Explosion; C. Explosion Limits and Oxidation Characteristics of Hydrogen; D. Explosion Limits and Oxidation Characteristics of Carbon Monoxide; E. Explosion Limits and Oxidation Characteristics of Hydrocarbons; F. The Oxidation of Aldehydes; G. The Oxidation of Methane; H. The Oxidation of Higher-Order Hydrocarbons; Problems; References; Chapter 4. Flame Phenomena in Premixed Combustible Gases; A. Introduction; B. Laminar Flame Structure
C. The Laminar Flame SpeedD. Stability Limits of Laminar Flames; E. Turbulent Reacting Flows and Turbulent Flames; F. Stirred Reactor Theory; G. Flame Stabilization in High-Velocity Streams; Problems; References; Chapter 5. Detonation; A. Introduction; B. Detonation Phenomena; C. Hugoniot Relations and the Hydrodynamic Theory of Detonations; D. Comparison of Detonation Velocity Calculations with Experimental Results; E. The ZND Structure of Detonation Waves; F. The Structure of the Cellular Detonation Front and Other Detonation Phenomena Parameters; G. Detonations in Nongaseous Media
ProblemsReferences; Chapter 6. Diffusion Flames; A. Introduction; B. Gaseous Fuel Jets; C. Burning of Condensed Phases; D. Burning of Droplet Clouds; E. Burning in Convective Atmospheres; Problems; References; Chapter 7. Ignition; A. Concepts; B. Chain Spontaneous Ignition; C. Thermal Spontaneous Ignition; D. Forced Ignition; Problems; References; Chapter 8. Environmental Combustion Considerations; A. Introduction; B. The Nature of Photochemical Smog; C. Formation and Reduction of Nitrogen Oxides; D. SOx Emissions; E. Particulate Formation; F. Stratospheric Ozone; Problems; References
Chapter 9. Combustion of Nonvolatile FuelsA. Carbon Char, Soot, and Metal Combustion; B. Metal Combustion Thermodynamics; C. Diffusional Kinetics; D. Diffusion-Controlled Burning Rate; E. The Burning of Porous Chars; F. The Burning Rate of Ash-Forming Coal; Problems; References; Appendixes; A. Thermochemical Data and Conversion Factors; B. Specific Reaction Rate Constants; C. Bond Dissociation Energies of Hydrocarbons; D. Laminar Flame Speeds; E. Flammability Limits in Air; F. Spontaneous Ignition Temperature Data; G. Minimum Spark Ignition Energies and Quenching Distances
H. Programs for Combustion Kinetics
Record Nr. UNINA-9910457994503321
Glassman Irvin  
San Diego, Calif., : Academic Press, c1996
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion [[electronic resource] /] / Irvin Glassman
Combustion [[electronic resource] /] / Irvin Glassman
Autore Glassman Irvin
Edizione [3rd ed.]
Pubbl/distr/stampa San Diego, Calif., : Academic Press, c1996
Descrizione fisica 1 online resource (651 p.)
Disciplina 541.3/61
Soggetto topico Combustion
Thermochemistry
ISBN 1-281-31144-8
9786611311445
0-08-052941-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Preface; Acknowledgments; Chapter 1. Chemical Thermodynamics and Flame Temperatures; A. Introduction; B. Heats of Reaction and Formation; C. Free Energy and the Equilibrium Constants; D. Flame Temperature Calculations; Problems; References; Chapter 2. Chemical Kinetics; A. Introduction; B. Rates of Reactions and Their Temperature Dependence; C. Simultaneous Interdependent Reactions; D. Chain Reactions; E. Pseudo-First-Order Reactions and the ""Fall-Off"" Range; F. The Partial Equilibrium Assumption; G. Pressure Effect in Fractional Conversion
ProblemsReferences; Chapter 3. Explosive and General Oxidative Characteristics of Fuels; A. Introduction; B. Chain Branching Reactions and Criteria for Explosion; C. Explosion Limits and Oxidation Characteristics of Hydrogen; D. Explosion Limits and Oxidation Characteristics of Carbon Monoxide; E. Explosion Limits and Oxidation Characteristics of Hydrocarbons; F. The Oxidation of Aldehydes; G. The Oxidation of Methane; H. The Oxidation of Higher-Order Hydrocarbons; Problems; References; Chapter 4. Flame Phenomena in Premixed Combustible Gases; A. Introduction; B. Laminar Flame Structure
C. The Laminar Flame SpeedD. Stability Limits of Laminar Flames; E. Turbulent Reacting Flows and Turbulent Flames; F. Stirred Reactor Theory; G. Flame Stabilization in High-Velocity Streams; Problems; References; Chapter 5. Detonation; A. Introduction; B. Detonation Phenomena; C. Hugoniot Relations and the Hydrodynamic Theory of Detonations; D. Comparison of Detonation Velocity Calculations with Experimental Results; E. The ZND Structure of Detonation Waves; F. The Structure of the Cellular Detonation Front and Other Detonation Phenomena Parameters; G. Detonations in Nongaseous Media
ProblemsReferences; Chapter 6. Diffusion Flames; A. Introduction; B. Gaseous Fuel Jets; C. Burning of Condensed Phases; D. Burning of Droplet Clouds; E. Burning in Convective Atmospheres; Problems; References; Chapter 7. Ignition; A. Concepts; B. Chain Spontaneous Ignition; C. Thermal Spontaneous Ignition; D. Forced Ignition; Problems; References; Chapter 8. Environmental Combustion Considerations; A. Introduction; B. The Nature of Photochemical Smog; C. Formation and Reduction of Nitrogen Oxides; D. SOx Emissions; E. Particulate Formation; F. Stratospheric Ozone; Problems; References
Chapter 9. Combustion of Nonvolatile FuelsA. Carbon Char, Soot, and Metal Combustion; B. Metal Combustion Thermodynamics; C. Diffusional Kinetics; D. Diffusion-Controlled Burning Rate; E. The Burning of Porous Chars; F. The Burning Rate of Ash-Forming Coal; Problems; References; Appendixes; A. Thermochemical Data and Conversion Factors; B. Specific Reaction Rate Constants; C. Bond Dissociation Energies of Hydrocarbons; D. Laminar Flame Speeds; E. Flammability Limits in Air; F. Spontaneous Ignition Temperature Data; G. Minimum Spark Ignition Energies and Quenching Distances
H. Programs for Combustion Kinetics
Record Nr. UNINA-9910784527703321
Glassman Irvin  
San Diego, Calif., : Academic Press, c1996
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Combustion / / Irvin Glassman
Combustion / / Irvin Glassman
Autore Glassman Irvin
Edizione [3rd ed.]
Pubbl/distr/stampa San Diego, Calif., : Academic Press, c1996
Descrizione fisica 1 online resource (651 p.)
Disciplina 541.3/61
541.361
Soggetto topico Combustion
Thermochemistry
ISBN 1-281-31144-8
9786611311445
0-08-052941-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Combustion; Copyright Page; Contents; Preface; Acknowledgments; Chapter 1. Chemical Thermodynamics and Flame Temperatures; A. Introduction; B. Heats of Reaction and Formation; C. Free Energy and the Equilibrium Constants; D. Flame Temperature Calculations; Problems; References; Chapter 2. Chemical Kinetics; A. Introduction; B. Rates of Reactions and Their Temperature Dependence; C. Simultaneous Interdependent Reactions; D. Chain Reactions; E. Pseudo-First-Order Reactions and the ""Fall-Off"" Range; F. The Partial Equilibrium Assumption; G. Pressure Effect in Fractional Conversion
ProblemsReferences; Chapter 3. Explosive and General Oxidative Characteristics of Fuels; A. Introduction; B. Chain Branching Reactions and Criteria for Explosion; C. Explosion Limits and Oxidation Characteristics of Hydrogen; D. Explosion Limits and Oxidation Characteristics of Carbon Monoxide; E. Explosion Limits and Oxidation Characteristics of Hydrocarbons; F. The Oxidation of Aldehydes; G. The Oxidation of Methane; H. The Oxidation of Higher-Order Hydrocarbons; Problems; References; Chapter 4. Flame Phenomena in Premixed Combustible Gases; A. Introduction; B. Laminar Flame Structure
C. The Laminar Flame SpeedD. Stability Limits of Laminar Flames; E. Turbulent Reacting Flows and Turbulent Flames; F. Stirred Reactor Theory; G. Flame Stabilization in High-Velocity Streams; Problems; References; Chapter 5. Detonation; A. Introduction; B. Detonation Phenomena; C. Hugoniot Relations and the Hydrodynamic Theory of Detonations; D. Comparison of Detonation Velocity Calculations with Experimental Results; E. The ZND Structure of Detonation Waves; F. The Structure of the Cellular Detonation Front and Other Detonation Phenomena Parameters; G. Detonations in Nongaseous Media
ProblemsReferences; Chapter 6. Diffusion Flames; A. Introduction; B. Gaseous Fuel Jets; C. Burning of Condensed Phases; D. Burning of Droplet Clouds; E. Burning in Convective Atmospheres; Problems; References; Chapter 7. Ignition; A. Concepts; B. Chain Spontaneous Ignition; C. Thermal Spontaneous Ignition; D. Forced Ignition; Problems; References; Chapter 8. Environmental Combustion Considerations; A. Introduction; B. The Nature of Photochemical Smog; C. Formation and Reduction of Nitrogen Oxides; D. SOx Emissions; E. Particulate Formation; F. Stratospheric Ozone; Problems; References
Chapter 9. Combustion of Nonvolatile FuelsA. Carbon Char, Soot, and Metal Combustion; B. Metal Combustion Thermodynamics; C. Diffusional Kinetics; D. Diffusion-Controlled Burning Rate; E. The Burning of Porous Chars; F. The Burning Rate of Ash-Forming Coal; Problems; References; Appendixes; A. Thermochemical Data and Conversion Factors; B. Specific Reaction Rate Constants; C. Bond Dissociation Energies of Hydrocarbons; D. Laminar Flame Speeds; E. Flammability Limits in Air; F. Spontaneous Ignition Temperature Data; G. Minimum Spark Ignition Energies and Quenching Distances
H. Programs for Combustion Kinetics
Record Nr. UNINA-9910821561003321
Glassman Irvin  
San Diego, Calif., : Academic Press, c1996
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui