Handbook of combustion: 1 Fundamentals and safety
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2010
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | LXII, 516 S. Ill., graph. Darst. |
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MARC
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| 245 | 1 | 0 | |a Handbook of combustion |n 1 |p Fundamentals and safety |c ed. by Maximilian Lackner... |
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| 700 | 1 | |a Lackner, Maximilian |d 1977- |0 (DE-588)141966513 |4 edt | |
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Datensatz im Suchindex
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| adam_text | XXIII CONTENTS FOREWORD V PREFACE XXXV ABOUT THE EDITORS XXXVII LIST OF
CONTRIBUTORS XLI ABBREVIATIONS XLV SYNOPSIS VOLUME 1 LI 1 COMBUSTION
FUNDAMENTALS 1 MOHAMMADJANBOZORGI, KIAN EISAZADEH FAR, AND HAMEED
METGHALCHI 1.1 INTRODUCTION 1 1.2 COMBUSTION THERMODYNAMICS 2 1.2.1
ENTHALPY OF REACTION 2 1.2.2 FLAME TEMPERATURE 3 1.2.3 CHEMICAL
EQUILIBRIUM 4 1.3 CHEMICAL KINETICS 5 1.3.1 COMBUSTION CHEMICAL
REACTIONS 5 1.3.2 KINETIC RATE EQUATIONS 6 1.3.3 CHEMICAL TIME SCALES
AND NONEQUILIBRIUM EFFECTS 7 1.3.4 KINETICS SIMPLIFICATION AND REDUCTION
8 1.3.4.1 RATE-CONTROLLED CONSTRAINED-EQUILIBRIUM (RCCE) METHOD 10 1.4
LAMINAR PREMIXED FLAMES 12 1.4.1 GOVERNING EQUATIONS 14 1.4.2
EXPERIMENTAL APPROACH 15 1.4.2.1 LAMINAR BURNING SPEED MEASUREMENT
TECHNIQUES 15 1.4.2.1.1 COUNTER FLOW FLAME METHODS 15 1.4.2.1.2
OUTWARDLY PROPAGATING CONSTANT PRESSURE SPHERICAL FLAME METHOD 16
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/997573414 DIGITALISIERT
DURCH XXIV CONTENTS 1.6 CONCLUSIONS REFERENCES 22 23 2 COMBUSTION
CHEMISTRY 27 RAVI FERNANDOS 2.1 INTRODUCTION 27 2.2 TEMPERATURE
DEPENDENCE OF RATE COEFFICIENTS 32 2.3 PRESSURE DEPENDENCE OF RATE
COEFFICIENTS 33 2.4 EXPERIMENTAL TECHNIQUES IN ELEMENTARY GAS-PHASE
KINETICS 36 2.5 SHOCK TUBES 37 2.6 DETECTION TECHNIQUES IN COMBUSTION
KINETICS 38 2.7 LOW-TEMPERATURE CHEMISTRY AND AUTO-IGNITION 39 2.8
CHEMISTRY OF POLLUTANT FORMATION IN COMBUSTION 43 2.9 FORMATION OF SOOT
FROM ALIPHATIC FUELS 44 2.10 FORMATION OF NO X 46 2.10.1 THERMAL NO
ROUTE 46 2.10.2 PROMPT NO 46 2.10.3 THE N 2 O ROUTE TO NO X 47 2.10.4
FUEL NITROGEN ROUTE TO NO 47 2.11 OUTLOOK 47 2.12 SUMMARY 49 REFERENCES
49 3 COMBUSTION PHYSICS 53 ALEXEY CONTENTS XXV 3.5 CONCLUSIONS 81
REFERENCES 82 4 IGNITION: NEW APPLICATIONS TO COMBUSTION STUDIES 85
VALERI I. GOLOVITCHEV AND FABIAN P. KAERRHOLM 4.1 INTRODUCTION 85 4.2 THE
CFD MODEL FORMULATIONS 86 4.2.1 THE MODEL FORMULATION: MAIN CONSERVATION
LAWS 87 4.2.2 TURBULENT COMBUSTION MODELING 87 4.2.3 FINITE-RATE
FORMULATION FOR REACTION MODEL 89 4.2.4 CONSTRUCTION AND VALIDATION OF
CHEMICAL MECHANISMS 90 4.3 IGNITION CFD MODELING EXAMPLES 95 4.3.1
SIMULATION OF ENHANCED TURBULENT DEFLAGRATION IN THE CLOSED VOLUME 95
4.3.2 MODELING OF THE FLAME LIFT-OFF FOR LIQUID SPRAYS IN THE CONSTANT
VOLUME: COMPARATIVE STUDY OF KIVA-3V AND FOAM CODES 97 4.3.3 MODELING OF
SPARK IGNITION IN SI GASOLINE ENGINE BOOSTED BY DIRECT INJECTION OF
ETHANOL 100 4.3.4 MODELING OF SOLID ALUMINUM IGNITION IN STEAM AND
CARBON DIOXIDE 102 4.4 CONCLUSIONS 104 REFERENCES 105 5 HEAT TRANSFER IN
COMBUSTION SYSTEMS 307 JINLIANG XU 5.1 INTRODUCTION 107 XXVI CONTENTS
5.5.1.1 5.5.1.2 5.5.1.3 5.5.1.4 5.5.1.5 5.5.2 5.5.2.1 5.5.2.2 5.6
RADIATION INTENSITY 124 BLACKBODY RADIATION 125 NONBLACK SURFACES AND
MATERIALS 126 EMISSIVITY 126 ABSORPTIVITY AND REFLECTIVITY 126 RADIATION
HEAT TRANSFER IN COMBUSTION SYSTEMS NONLUMINOUS GASEOUS RADIATION 128
LUMINOUS RADIATION 129 SUMMARY 130 REFERENCES 131 126 6 THERMOCHEMISTRY
135 ELKE COOS AND ALEXANDER BURCAT 6.1 INTRODUCTION 135 6.2
THERMOCHEMICAL PROPERTIES 335 6.3 FIRST LAW OF THERMODYNAMICS 138 6.4
SECOND LAW OF THERMODYNAMICS 138 6.5 THIRD LAW OF THERMODYNAMICS 139 6.6
CONSEQUENCES OF THERMODYNAMIC LAWS TO CHEMICAL KINETICS 140 6.7
ADIABATIC COMBUSTION TEMPERATURE 343 6.8 MEASUREMENT OF THERMOCHEMICAL
VALUES 142 6.9 WHERE TO FIND THERMOCHEMICAL DATA? 142 6.10 HOW ARE THE
DATA REPRESENTED? 344 6.10. CONTENTS XXVII 7.3 KINETIC MECHANISMS 159
7.3.1 CHEMICAL KINETIC MECHANISMS STUDIES 159 7.3.2 MECHANISM
DEVELOPMENT AND REDUCTION 161 7.3.2.1 SKELETAL MECHANISM REDUCTION 162
7.3.2.2 TIME-SCALE MECHANISM REDUCTION 162 7.3.2.3 DIFFUSION COEFFICIENT
REDUCTION 163 7.3.2.4 METHOD OF COMPUTATIONAL SINGULAR PERTURBATION 163
7.4 COUPLING OF CHEMICAL KINETICS AND FLUID DYNAMICS 3 64 7.4.1 DETAILED
CHEMICAL KINETICS WITH IDEAL FLOW FIELDS 164 1 A.I REDUCED CHEMICAL
KINETIC MECHANISMS WITH ACTUAL FLOW FIELDS 165 7.5 OUTLOOK AND SUMMARY
168 REFERENCES 369 8 MODELING OF TURBULENT COMBUSTION 175 BART MERCI,
EPAMINONDAS MASTORAKOS, AND ARNAUD MURA 8.1 INTRODUCTION 375 8.2
TURBULENCE: PHYSICS AND MODELING 175 8.2.1 TURBULENT SCALES 176 8.2.2
DIRECT NUMERICAL SIMULATION 178 8.2.3 TURBULENCE MODELING 179 8.2.3.1
TURBULENCE CLOSURE PROBLEM 179 8.2.3.2 RANS TURBULENCE MODELS 180 XXVILL
CONTENTS 8.5.1 8.5.2 8.5.3 8.6 8.7 9 9.1 9.2 9.3 9.3.1 9.3.2 9.3.3 9.3.4
9.4 BACKGROUND 3 95 CLASSIFICATION 396 MODELING 197 OUTLOOK 198 SUMMARY
398 REFERENCES 3 99 MODELING AND SIMULATION OF DROPLET AND SPRAY
COMBUSTION 205 EVA GUTHEIL INTRODUCTION 205 DROPLET EVAPORATION AND
COMBUSTION 206 SPRAY EVAPORATION AND COMBUSTION 208 EULER-EULER MODELS
209 EULER-LAGRANGE MODELS 210 TURBULENCE MODELING 233 CHEMICAL REACTIONS
IN SPRAY FLOWS 219 SUMMARY AND OUTLOOK 224 REFERENCES 224 10
CONVENTIONAL AND INNOVATIVE SPRAY GENERATION FOR COMBUSTION APPLICATIONS
229 RAFFAELE RAGUCCI AND BRIAN MILTON 10.1 INTRODUCTION 229 10.2 BASIC
CONCEPTS OF ATOMIZATION 231 10.3 LIQUID FUEL ATOMIZATION APPLICATIONS
235 CONTENTS XXIX 1 1 LIGHT EMISSION FROM FLAMES 251 STEPHEN A. CIATTI
11.1 INTRODUCTION 251 11.2 THEORY 252 11.2.1 SOOT INCANDESCENCE OR SOOT
RADIATION 252 11.2.2 ELECTRON-SHIFT EMISSION OF PHOTONS 255 11.3
APPLICATIONS IN RESEARCH 258 11.4 OUTLOOK 262 11.5 SUMMARY 263
REFERENCES 263 12 COOL FLAMES 265 DIONYSIOS I. KOLAITIS AND MARIA A.
FOUNTI 12.1 INTRODUCTION 265 12.2 THEORY 265 12.2.1 PHENOMENOLOGY 265
12.2.2 NEGATIVE TEMPERATURE COEFFICIENT (NTC) 268 12.2.3 STABILIZED COOL
FLAMES 269 12.2.4 CHEMICAL KINETICS 272 12.3 APPLICATIONS 274 12.3.1
LIQUID FUEL EVAPORATION FOR PREMIXED COMBUSTION 275 12.3.2 LIQUID FUEL
REFORMING FOR FUEL CELL APPLICATIONS 276 12.3.3 INTERNAL COMBUSTION
ENGINES 278 12.3.3.1 KNOCKING 278 12.3.3.2 LOW-TEMPERATURE COMBUSTION
AND HCCI ENGINES 278 12.3.3. XXX CONTENTS 13.2 BOILER DESIGN AND
DIAGNOSTICS 301 13.2.1 CONVENTIONAL BOILER DESIGN 301 13.2.2 CFD METHODS
FOR BOILER DESIGN 306 13.2.2.1 THE FURNACE 307 13.2.2.2 FURNACE
SUBMODELS 308 13.2.2.3 MODELING OF OTHER FURNACE TYPES 309 13.2.2.4 THE
CONVECTIVE ZONE 330 13.2.2.5 ADVANCED IN-FURNACE SUBMODELS 311 13.2.3
COMBUSTION DIAGNOSTICS AND CONTROL 332 13.2.3.1 FLUE GAS ANALYSIS 333
13.2.3.2 IN-FURNACE DIAGNOSTICS 314 13.2.3.3 STATE IDENTIFICATION AND
CONTROL OF COMBUSTION SYSTEMS 316 13.2.4 ASH DEPOSITION AND CORROSION
337 13.3 TECHNOLOGY OUTLOOK 320 13.3.1 SUPERCRITICAL AND
ULTRA-SUPERCRITICAL BOILERS 320 13.3.2 LOW-NO X COMBUSTION SYSTEMS 321
13.3.3 OXYCOMBUSTION 322 REFERENCES 323 14 FUEL CELLS 333 XIAO-ZI YUAN
AND HAIJIANG WANG 14.1 INTRODUCTION 333 14.2 THEORY 334 14.2.1
PRINCIPLES 334 14.2.2 THERMODYNAMICS 336 14.2.2. CONTENTS XXXI 15
TOXICOLOGY OF COMBUSTION PRODUCTS 357 TARUN GUPTA AND AVINASH KUMAR
AGATWAL 15.1 INTRODUCTION 357 15.2 DIESEL ENGINE EMISSIONS 360 15.2.1
CHEMICAL COMPOSITION 360 15.2.2 SAMPLING 362 15.2.3 HEALTH EFFECTS 364
15.3 HEALTH EFFECTS ASSOCIATED WITH OTHER COMBUSTION SOURCES 366 15.4
OUTLOOK 369 15.5 SUMMARY 371 REFERENCES 371 16 EXPLOSION SAFETY 377
GORDON E. ANDREWS AND HERODOTOS N. PHYLAKTOU 16.1 INTRODUCTION 377 16.2
EXPLOSION STOICHIOMETRY 379 16.3 LEAN FLAMMABILITY LIMITS 384 16.4
STOICHIOMETRY AND LEAN FLAMMABILITY FOR METAL DUST EXPLOSIONS 388 16.5
THE INFLUENCE OF TEMPERATURE, PRESSURE, AND INERTS ON LEAN FLAMMABILITY
LIMITS 390 16.6 VENTILATION REQUIREMENTS FOR EXPLOSION SAFETY 392 16.7
APPLICATIONS OF LEAN LIMIT STOICHIOMETRY TO TWO EXPLOSION RISK
SITUATIONS 394 16.8 LIQUID FUEL TANK VAPOR SPACE EXPLOSIONS AND THE
IMPORTANC XXXII CONTENTS 17.2.7 OTHER FLAME RETARDANTS AND SYNERGISTS:
BORATES, ZINC COMPOUNDS, AND EXPANDABLE GRAPHITE 423 17.3 SAFETY
REGULATIONS AND FIRE TEST STANDARDS 423 17 A APPLICATIONS IN INDUSTRY
424 17 A A ELECTRIC AND ELECTRONIC EQUIPMENT 425 17.4.2 CONSTRUCTION 425
17A3 TRANSPORT: AEROPLANES, SHIPS, TRAINS, AND ROAD VEHICLES 426 17.4.4
TEXTILES 428 17.5 ENVIRONMENTAL AND HUMAN HEALTH CONCERNS 428 17.5.1
BROMINATED FLAME RETARDANTS 429 17.5.2 WILDLAND FIRES AND RETARDANTS 431
17.6 OUTLOOK 436 17.7 SUMMARY 436 REFERENCES 437 18 LOSS PREVENTION AND
SAFETY PROMOTION IN INDUSTRY 441 ALES BERNATIK 18.1 THE PROBLEMS OF
MAJOR ACCIDENT PREVENTION: AN INTRODUCTION 441 18.1.1 ACCIDENTS IN THE
PAST, AND LEGISLATION 443 18.2 MAJOR ACCIDENT RISK ASSESSMENT 444 18.2.1
GENERAL PRINCIPLE OF MAJOR ACCIDENT RISK ASSESSMENT 444 18.2.2 A BRIEF
OVERVIEW OF PARTIAL METHODS OF RISK ANALYSIS 445 18.2.2.1 SELECTION
METHOD 447 CONTENTS XXXIII 19.3.1 PART A: SPECIFICATION OF THE DESIGNED
OBJECT 461 19.3.2 PART B: FIRE PHYSICS AND CHEMISTRY 463 19.3.2.1 FIRE
SPREAD AND FIRE GROWTH, HEAT FLUXES, AND PRODUCTS OF COMBUSTION 464
19.3.2.2 DISPERSION OF FIRE PRODUCTS 464 19.3.3 PART C: HUMAN
BEHAVIOR/HUMAN FACTORS 464 19.3.3.1 OCCUPANT RESPONSE 465 19.3.3.2
DESIGNED OBJECT PREPAREDNESS FOR FIRE 465 193 A PART D: RISK ASSESSMENT
470 19.3.4.1 HAZARD IDENTIFICATION 470 19.3.4.2 CONSEQUENCE SEVERITY AND
LIKELIHOOD 470 19.3.4.3 CONTROL AND MITIGATION 472 19.3.4.4 ACCEPTANCE
CRITERIA 472 19.4 RISK ANALYSIS AND FIRE PROTECTION ENGINEERING BASED ON
SOFTWARE AGENTS 472 19.5 CONCLUSIONS 474 REFERENCES 475 20 SMOKE SPREAD
IN BUILDINGS 477 LIZHONG YANG AND LAIXI WU 20.1 INTRODUCTION 477 20.2
EXPERIMENTAL FACILITIES 479 20.3 THE SPATIAL DISTRIBUTION RULE OF TOXIC
GASES I
|
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| spelling | Handbook of combustion 1 Fundamentals and safety ed. by Maximilian Lackner... Weinheim Wiley-VCH 2010 LXII, 516 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Lackner, Maximilian 1977- (DE-588)141966513 edt (DE-604)BV036458063 1 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020303968&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of combustion |
| title | Handbook of combustion |
| title_auth | Handbook of combustion |
| title_exact_search | Handbook of combustion |
| title_full | Handbook of combustion 1 Fundamentals and safety ed. by Maximilian Lackner... |
| title_fullStr | Handbook of combustion 1 Fundamentals and safety ed. by Maximilian Lackner... |
| title_full_unstemmed | Handbook of combustion 1 Fundamentals and safety ed. by Maximilian Lackner... |
| title_short | Handbook of combustion |
| title_sort | handbook of combustion fundamentals and safety |
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