Combustion: physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation
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| Format: | Buch |
| Sprache: | English German |
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Berlin ; Heidelberg ; New York
Springer
2006
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| Ausgabe: | 4. ed. |
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| Online-Zugang: | Inhaltstext Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. [345] - 366 |
| Beschreibung: | XII, 378 S. Ill., graph. Darst. 25 cm, 563 gr. |
| ISBN: | 9783540259923 3540259929 |
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Datensatz im Suchindex
| _version_ | 1804136651026333696 |
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| adam_text | J.WARNATZ * U.MAAS * R.W. DIBBLE COMBUSTION PHYSICAL AND CHEMICAL
FUNDAMENTALS, MODELING AND SIMULATION, EXPERIMENTS, POLLUTANT FORMATION
4TH EDITION WITH 227 FIGURES AND 22 TABLES I SPRINGER TABLE OF CONTENTS
1 INTRODUCTION, FUNDAMENTAL DEFINITIONS AND PHENOMENA 1 1.1 INTRODUCTION
1 1.2 SOME FUNDAMENTAL DEFINITIONS 1 1.3 BASIC FLAME TYPES 4 1.4
EXERCISES 8 2 EXPERIMENTAL INVESTIGATION OF FLAMES 9 2.1 VELOCITY
MEASUREMENTS 10 2.2 DENSITY MEASUREMENT 11 2.3 CONCENTRATION
MEASUREMENTS 13 2.4 TEMPERATURE MEASUREMENTS 18 2.5 PRESSURE
MEASUREMENTS 20 2.6 MEASUREMENT OF PARTICLE SIZES 21 2.7 SIMULTANEOUS
DIAGNOSTICS 22 2.8 EXERCISES 27 3 MATHEMATICAL DESCRIPTION OF PREMIXED
LAMINAR FLAT FLAMES 29 3.1 CONSERVATION EQUATIONS FOR LAMINAR FLAT
PREMIXED FLAMES 29 3.2 HEAT AND MASS TRANSPORT 33 3.3 THE DESCRIPTION OF
A LAMINAR PREMIXED FLAT FLAME FRONT 33 3.4 EXERCISES 38 4 THERMODYNAMICS
OF COMBUSTION PROCESSES 39 4.1 THE FIRST LAW OF THERMODYNAMICS 39 4.2
STANDARD ENTHALPIES OF FORMATION 41 4.3 HEAT CAPACITIES 43 4.4 THE
SECOND LAW OF THERMODYNAMICS 44 4.5 THE THIRD LAW OF THERMODYNAMICS 45
4.6 EQUILIBRIUM CRITERIA AND THERMODYNAMIC VARIABLES 46 4.7 EQUILIBRIUM
IN GAS MIXTURES; CHEMICAL POTENTIAL 47 4.8 DETERMINATION OF EQUILIBRIUM
COMPOSITIONS IN GASES 49 4.9 DETERMINATION OF ADIABATIC FLAME
TEMPERATURES 51 4.10 TABULATION OF THERMODYNAMIC DATA 52 4.11 EXERCISES
55 VIII TABLE OF CONTENTS 5 TRANSPORT PHENOMENA 57 5.1 A SIMPLE PHYSICAL
MODEL OF TRANSPORT PROCESSES 57 5.2 HEAT CONDUCTION IN GASES 60 5.3
VISCOSITY OF GASES 62 5.4 DIFFUSION IN GASES 64 5.5 THERMAL DIFFUSION,
DUFOUR EFFECT, AND PRESSURE DIFFUSION 66 5.6 COMPARISON WITH EXPERIMENTS
67 5.7 EXERCISES 71 6 CHEMICAL KINETICS 73 6.1 RATE LAWS AND REACTION
ORDERS 73 6.2 RELATION OF FORWARD AND REVERSE REACTIONS 75 6.3
ELEMENTARY REACTIONS, REACTION MOLECULARITY 75 6.4 EXPERIMENTAL
INVESTIGATION OF ELEMENTARY REACTIONS 77 6.5 TEMPERATURE DEPENDENCE OF
RATE COEFFICIENTS 79 6.6 PRESSURE DEPENDENCE OF RATE COEFFICIENTS 81 6.7
SURFACE REACTIONS 84 6.8 EXERCISES 88 7. REACTION MECHANISMS 91 7.1
CHARACTERISTICS OF REACTION MECHANISMS 91 7.1.1 QUASI-STEADY STATES 92
7.1.2 PARTIAL EQUILIBRIUM 94 7.2 ANALYSIS OF REACTION MECHANISMS 97
7.2.1 SENSITIVITY ANALYSIS 97 7.2.2 REACTION FLOW ANALYSIS 101 7.2.3
EIGENVALUE ANALYSES OF CHEMICAL REACTION SYSTEMS 103 7.3 STIFFNESS OF
ORDINARY DIFFERENTIAL EQUATION SYSTEMS 107 7.4 SIMPLIFICATION OF
REACTION MECHANISMS 107 7.5 RADICAL CHAIN REACTIONS 115 7.6 EXERCISES
117 8 LAMINAR PREMIXED FLAMES 119 8.1 ZELDOVICH S ANALYSIS OF FLAME
PROPAGATION 119 8.2 FLAME STRUCTURES 121 8.3 FLAME VELOCITIES 124 8.4
SENSITIVITY ANALYSIS 127 8.5 EXERCISES 128 9 LAMINAR NONPREMIXED FLAMES
129 9.1 COUNTERFLOW NONPREMIXED FLAMES 129 9.2 LAMINAR JET NONPREMIXED
FLAMES 133 9.3 NONPREMIXED FLAMES WITH FAST CHEMISTRY 135 9.4 EXERCISES
138 TABLE OF CONTENTS IX 10 IGNITION PROCESSES 141 10.1 SEMENOV S
ANALYSIS OF THERMAL EXPLOSIONS 142 10.2 FRANK-KAMENETSKII S ANALYSIS OF
THERMAL EXPLOSIONS 143 10.3 AUTOIGNITION: IGNITION LIMITS 145 10.4
AUTOIGNITION: IGNITION-DELAY TIME 148 10.5 INDUCED IGNITION, MINIMUM
IGNITION ENERGIES 149 10.6 SPARK IGNITION 153 10.7 DETONATIONS 157 10.8
EXERCISES 163 11 LOW-TEMPERATURE OXIDATION, ENGINE KNOCK 165 11.1
FUNDAMENTAL PHENOMENA IN OTTO ENGINES 165 11.2 OXIDATION AT INTERMEDIATE
TEMPERATURES 168 11.3 LOW-TEMPERATURE OXIDATION 169 11.4 IGNITION
PROCESSES IN RECIPROCATING ENGINES 173 11.4.1 KNOCKDAMAGES IN OTTO
ENGINES 173 11.4.2 IGNITION IN DIESEL ENGINES 174 11.4.3 THE HCCI
CONCEPT 175 11.4.4 THE DICI CONCEPT 177 11.5 EXERCISES 178 12 THE
NAVIER-STOKES-EQUATIONS FOR THREE-DIMENSIONAL REACTING FLOW .... 179
12.1 THE CONSERVATION EQUATIONS 179 12.1.1 OVERALL MASS CONSERVATION 180
12.1.2 SPECIES MASS CONSERVATION 181 12.1.3 MOMENTUM CONSERVATION 181
12.1.4 ENERGY CONSERVATION 182 12.2 THE EMPIRICAL LAWS 183 12.2.1
NEWTON S LAW 183 12.2.2 FOURIER S LAW 184 12.2.3 FICK S LAW AND THERMAL
DIFFUSION 184 12.2.4 CALCULATION OF THE TRANSPORT COEFFICIENTS FROM
MOLECULAR PARAMETERS 185 12.3 EXERCISES 185 13 TURBULENT REACTING FLOWS
187 13.1 SOME FUNDAMENTAL PHENOMENA 187 13.2 DIRECT NUMERICAL SIMULATION
189 13.3 CONCEPTS FOR TURBULENCE MODELING: TIME- AND FAVRE-AVERAGING 192
13.4 REYNOLDS-AVERAGED NAVIER-STOKES (RANS) EQUATIONS 194 13.5
TURBULENCE MODELS 196 13.6 MEAN REACTION RATES 200 13.7 CONCEPTS FOR
TURBULENCE MODELING: PROBABILITY DENSITY FUNCTIONS 202 13.8
EDDY-BREAK-UP MODELS 206 13.9 TURBULENT SCALES 207 13.10 LARGE-EDDY
SIMULATION (LES) 209 13.11 EXERCISES 211 X TABLE OF CONTENTS 14
TURBULENT NONPREMIXED FLAMES 213 14.1 NONPREMIXED FLAMES WITH
EQUILIBRIUM CHEMISTRY 214 14.2 FINITE-RATE CHEMISTRY IN NONPREMIXED
FLAMES 217 14.3 FLAME EXTINCTION 221 14.4 PDF-SIMULATIONS OF TURBULENT
NON-PREMIXED FLAMES USING A MONTE- CARLO METHOD 224 14.5 EXERCISES 226
15 TURBULENT PREMIXED FLAMES 227 15.1 CLASSIFICATION OF TURBULENT
PREMIXED FLAMES 227 15.2 FLAMELET MODELS 230 15.2.1 FLAMELET MODELLING
USING A REACTION PROGRESS VARIABLE 231 15.2.2 FLAMELET MODELLING USING A
LEVEL-SET METHOD 232 15.3 TURBULENT FLAME VELOCITY 233 15.4 FLAME
EXTINCTION 235 15.5 OTHER MODELS OF TURBULENT PREMIXED COMBUSTION 237
15.6 EXERCISES 238 16 COMBUSTION OF LIQUID AND SOLID FUELS 239 16.1
DROPLET COMBUSTION 239 16.1.1 COMBUSTION OF SINGLE DROPLETS 240 16.1.2
COMBUSTION OF DROPLET GROUPS 244 16.2 SPRAY COMBUSTION 246 16.2.1
FORMATION OF SPRAYS 246 16.2.2 SPRAY COMBUSTION MODES 247 16.2.3
STATISTICAL DESCRIPTION OF SPRAYS 249 16.2.4 MODELING OF TURBULENT SPRAY
COMBUSTION 252 16.2.5 FLAMELET-TYPE MODELS FOR SPRAY COMBUSTION 253 16.3
COAL COMBUSTION 255 16.3.1 PYROLYSIS OF COAL 255 16.3.2 BURNING OF
VOLATILE COMPOUNDS 256 16.3.3 BURNING OF THE COKE 256 16.3.4 COAL
GASIFICATION 257 16.4 EXERCISES 258 17 FORMATION OF NITRIC OXIDES 259
17.1 THERMAL NO (ZELDOVICH NO) 259 17.2 PROMPT NO (FENIMORE NO) 262 17.3
NO GENERATED VIA NITROUS OXIDE 265 17.4 CONVERSION OF FUEL NITROGEN INTO
NO 265 17.5 NO REDUCTION BY COMBUSTION MODIFICATIONS 267 17.6 CATALYTIC
COMBUSTION 271 17.7 NO REDUCTION BY POST-COMBUSTION PROCESSES 272 17.8
EXERCISES 275 TABLE OF CONTENTS XI 18 FORMATION OF HYDROCARBONS AND SOOT
277 18.1 UNBURNT HYDROCARBONS 277 18.1.1 FLAME EXTINCTION DUE TO STRAIN
278 18.1.2 FLAME EXTINCTION AT WALLS AND IN GAPS 278 18.2 FORMATION
OFPOLYCYCLIC AROMATIC HYDROCARBONS (PAH) 280 18.3 THE PHENOMENOLOGY OF
SOOT FORMATION 283 18.4 MODELLING AND SIMULATION OF SOOT FORMATION 287
18.5 EXERCISES 296 19 EFFECTS OF COMBUSTION PROCESSES ON THE ATMOSPHERE
297 19.1 THE STRUCTURE OF THE ATMOSPHERE 297 19.1.1 PRESSURE IN THE
ATMOSPHERE 297 19.1.2 TEMPERATURE AND CLASSIFICATION OF COMPARTMENTS IN
THE ATMOSPHERE 299 19.1.3 COMPOSITION OF THE ATMOSPHERE 300 19.2. THE
ATMOSPHERE AS A PHOTOCHEMICAL SYSTEM 300 19.2.1 LAMBERT-BEER LAW 300
19.2.2 STERN-VOLLMER EQUATION 301 19.2.3 FORMATION OF PHOTOCHEMICAL
LAYERS 302 19.3 INCOMING SUN RADIATION, PHOTOCHEMICAL PRIMARY PROCESSES
303 19.4. PHYSICAL PROCESSES IN THE ATMOSPHERE 305 19.4.1 CONSERVATION
OF THE MASS OF SPECIES 305 19.4.2 CONSERVATION OF ENERGY 306 19.4.3
SOLUTION OF THE CONSERVATION EQUATIONS 307 19.5 CHEMISTRY OF THE
UNPOLLUTED ATMOSPHERE 307 19.5.1 PURE OXYGEN ATMOSPHERE 307 19.5.2
OXYGEN-NITROGEN-HYDROGEN-CARBONATMOSPHERE 308 19.6 CHEMISTRY OF THE
POLLUTED ATMOSPHERE 310 19.6.1 PHOTOCHEMICAL SMOG 310 19.6.2 SUPERSONIC
TRANSPORTS 314 19.6.3 GREEN-HOUSE EFFECT 315 19.6.4 ACID RAIN 316 19.7
THE ROLE OF COMBUSTION SOURCES IN ATMOSPHERIC POLLUTION 317 20 APPENDIX
1: MATHEMATICS 319 20.1 SOME DEFINITIONS AND LAWS FOR VECTORS AND
TENSORS 319 20.2.1 FORMULATION OF THE PROBLEM 320 20.2.2 GENERAL REMARKS
ON SOLUTION ALGORITHMS FOR ODE SYSTEMS 321 20.2.3 EULER METHOD 322
20.2.4 EXTRAPOLATION METHOD 324 20.3 NUMERICAL SOLUTION OF PARTIAL
DIFFERENTIAL EQUATION SYSTEMS 325 20.3.1 SPATIAL DISCRETIZATION 326
20.3.2 INITIAL VALUES, BOUNDARY CONDITIONS, STATIONARY SOLUTION 328
20.3.3 EXPLICIT SOLUTION METHODS 329 20.3.4 IMPLICIT SOLUTION METHODS
330 20.3.5 SEMI-IMPLICIT SOLUTION OF PARTIAL DIFFERENTIAL EQUATIONS 330
20.3.6 IMPLICIT SOLUTION OF PARTIAL DIFFERENTIAL EQUATIONS 331 XII TABLE
OF CONTENTS 21 APPENDIX 2: REACTION MECHANISMS 333 21.1 MECHANISM OF THE
OXIDATION OF H 2 , CO, C { AND C 2 HYDROCARBONS 333 21.2 REACTION
MECHANISM OF THE GENERATION AND CONSUMPTION OF NO V 340 22 REFERENCES
345 23 INDEX 367
|
| adam_txt |
J.WARNATZ * U.MAAS * R.W. DIBBLE COMBUSTION PHYSICAL AND CHEMICAL
FUNDAMENTALS, MODELING AND SIMULATION, EXPERIMENTS, POLLUTANT FORMATION
4TH EDITION WITH 227 FIGURES AND 22 TABLES I SPRINGER TABLE OF CONTENTS
1 INTRODUCTION, FUNDAMENTAL DEFINITIONS AND PHENOMENA 1 1.1 INTRODUCTION
1 1.2 SOME FUNDAMENTAL DEFINITIONS 1 1.3 BASIC FLAME TYPES 4 1.4
EXERCISES 8 2 EXPERIMENTAL INVESTIGATION OF FLAMES 9 2.1 VELOCITY
MEASUREMENTS 10 2.2 DENSITY MEASUREMENT 11 2.3 CONCENTRATION
MEASUREMENTS 13 2.4 TEMPERATURE MEASUREMENTS 18 2.5 PRESSURE
MEASUREMENTS 20 2.6 MEASUREMENT OF PARTICLE SIZES 21 2.7 SIMULTANEOUS
DIAGNOSTICS 22 2.8 EXERCISES 27 3 MATHEMATICAL DESCRIPTION OF PREMIXED
LAMINAR FLAT FLAMES 29 3.1 CONSERVATION EQUATIONS FOR LAMINAR FLAT
PREMIXED FLAMES 29 3.2 HEAT AND MASS TRANSPORT 33 3.3 THE DESCRIPTION OF
A LAMINAR PREMIXED FLAT FLAME FRONT 33 3.4 EXERCISES 38 4 THERMODYNAMICS
OF COMBUSTION PROCESSES 39 4.1 THE FIRST LAW OF THERMODYNAMICS 39 4.2
STANDARD ENTHALPIES OF FORMATION 41 4.3 HEAT CAPACITIES 43 4.4 THE
SECOND LAW OF THERMODYNAMICS 44 4.5 THE THIRD LAW OF THERMODYNAMICS 45
4.6 EQUILIBRIUM CRITERIA AND THERMODYNAMIC VARIABLES 46 4.7 EQUILIBRIUM
IN GAS MIXTURES; CHEMICAL POTENTIAL 47 4.8 DETERMINATION OF EQUILIBRIUM
COMPOSITIONS IN GASES 49 4.9 DETERMINATION OF ADIABATIC FLAME
TEMPERATURES 51 4.10 TABULATION OF THERMODYNAMIC DATA 52 4.11 EXERCISES
55 VIII TABLE OF CONTENTS 5 TRANSPORT PHENOMENA 57 5.1 A SIMPLE PHYSICAL
MODEL OF TRANSPORT PROCESSES 57 5.2 HEAT CONDUCTION IN GASES 60 5.3
VISCOSITY OF GASES 62 5.4 DIFFUSION IN GASES 64 5.5 THERMAL DIFFUSION,
DUFOUR EFFECT, AND PRESSURE DIFFUSION 66 5.6 COMPARISON WITH EXPERIMENTS
67 5.7 EXERCISES 71 6 CHEMICAL KINETICS 73 6.1 RATE LAWS AND REACTION
ORDERS 73 6.2 RELATION OF FORWARD AND REVERSE REACTIONS 75 6.3
ELEMENTARY REACTIONS, REACTION MOLECULARITY 75 6.4 EXPERIMENTAL
INVESTIGATION OF ELEMENTARY REACTIONS 77 6.5 TEMPERATURE DEPENDENCE OF
RATE COEFFICIENTS 79 6.6 PRESSURE DEPENDENCE OF RATE COEFFICIENTS 81 6.7
SURFACE REACTIONS 84 6.8 EXERCISES 88 7. REACTION MECHANISMS 91 7.1
CHARACTERISTICS OF REACTION MECHANISMS 91 7.1.1 QUASI-STEADY STATES 92
7.1.2 PARTIAL EQUILIBRIUM 94 7.2 ANALYSIS OF REACTION MECHANISMS 97
7.2.1 SENSITIVITY ANALYSIS 97 7.2.2 REACTION FLOW ANALYSIS 101 7.2.3
EIGENVALUE ANALYSES OF CHEMICAL REACTION SYSTEMS 103 7.3 STIFFNESS OF
ORDINARY DIFFERENTIAL EQUATION SYSTEMS 107 7.4 SIMPLIFICATION OF
REACTION MECHANISMS 107 7.5 RADICAL CHAIN REACTIONS 115 7.6 EXERCISES
117 8 LAMINAR PREMIXED FLAMES 119 8.1 ZELDOVICH'S ANALYSIS OF FLAME
PROPAGATION 119 8.2 FLAME STRUCTURES 121 8.3 FLAME VELOCITIES 124 8.4
SENSITIVITY ANALYSIS 127 8.5 EXERCISES 128 9 LAMINAR NONPREMIXED FLAMES
129 9.1 COUNTERFLOW NONPREMIXED FLAMES 129 9.2 LAMINAR JET NONPREMIXED
FLAMES 133 9.3 NONPREMIXED FLAMES WITH FAST CHEMISTRY 135 9.4 EXERCISES
138 TABLE OF CONTENTS IX 10 IGNITION PROCESSES 141 10.1 SEMENOV'S
ANALYSIS OF THERMAL EXPLOSIONS 142 10.2 FRANK-KAMENETSKII'S ANALYSIS OF
THERMAL EXPLOSIONS 143 10.3 AUTOIGNITION: IGNITION LIMITS 145 10.4
AUTOIGNITION: IGNITION-DELAY TIME 148 10.5 INDUCED IGNITION, MINIMUM
IGNITION ENERGIES 149 10.6 SPARK IGNITION 153 10.7 DETONATIONS 157 10.8
EXERCISES 163 11 LOW-TEMPERATURE OXIDATION, ENGINE KNOCK 165 11.1
FUNDAMENTAL PHENOMENA IN OTTO ENGINES 165 11.2 OXIDATION AT INTERMEDIATE
TEMPERATURES 168 11.3 LOW-TEMPERATURE OXIDATION 169 11.4 IGNITION
PROCESSES IN RECIPROCATING ENGINES 173 11.4.1 KNOCKDAMAGES IN OTTO
ENGINES 173 11.4.2 IGNITION IN DIESEL ENGINES 174 11.4.3 THE HCCI
CONCEPT 175 11.4.4 THE DICI CONCEPT 177 11.5 EXERCISES 178 12 THE
NAVIER-STOKES-EQUATIONS FOR THREE-DIMENSIONAL REACTING FLOW . 179
12.1 THE CONSERVATION EQUATIONS 179 12.1.1 OVERALL MASS CONSERVATION 180
12.1.2 SPECIES MASS CONSERVATION 181 12.1.3 MOMENTUM CONSERVATION 181
12.1.4 ENERGY CONSERVATION 182 12.2 THE EMPIRICAL LAWS 183 12.2.1
NEWTON'S LAW 183 12.2.2 FOURIER'S LAW 184 12.2.3 FICK'S LAW AND THERMAL
DIFFUSION 184 12.2.4 CALCULATION OF THE TRANSPORT COEFFICIENTS FROM
MOLECULAR PARAMETERS 185 12.3 EXERCISES 185 13 TURBULENT REACTING FLOWS
187 13.1 SOME FUNDAMENTAL PHENOMENA 187 13.2 DIRECT NUMERICAL SIMULATION
189 13.3 CONCEPTS FOR TURBULENCE MODELING: TIME- AND FAVRE-AVERAGING 192
13.4 REYNOLDS-AVERAGED NAVIER-STOKES (RANS) EQUATIONS 194 13.5
TURBULENCE MODELS 196 13.6 MEAN REACTION RATES 200 13.7 CONCEPTS FOR
TURBULENCE MODELING: PROBABILITY DENSITY FUNCTIONS 202 13.8
EDDY-BREAK-UP MODELS 206 13.9 TURBULENT SCALES 207 13.10 LARGE-EDDY
SIMULATION (LES) 209 13.11 EXERCISES 211 X TABLE OF CONTENTS 14
TURBULENT NONPREMIXED FLAMES 213 14.1 NONPREMIXED FLAMES WITH
EQUILIBRIUM CHEMISTRY 214 14.2 FINITE-RATE CHEMISTRY IN NONPREMIXED
FLAMES 217 14.3 FLAME EXTINCTION 221 14.4 PDF-SIMULATIONS OF TURBULENT
NON-PREMIXED FLAMES USING A MONTE- CARLO METHOD 224 14.5 EXERCISES 226
15 TURBULENT PREMIXED FLAMES 227 15.1 CLASSIFICATION OF TURBULENT
PREMIXED FLAMES 227 15.2 FLAMELET MODELS 230 15.2.1 FLAMELET MODELLING
USING A REACTION PROGRESS VARIABLE 231 15.2.2 FLAMELET MODELLING USING A
LEVEL-SET METHOD 232 15.3 TURBULENT FLAME VELOCITY 233 15.4 FLAME
EXTINCTION 235 15.5 OTHER MODELS OF TURBULENT PREMIXED COMBUSTION 237
15.6 EXERCISES 238 16 COMBUSTION OF LIQUID AND SOLID FUELS 239 16.1
DROPLET COMBUSTION 239 16.1.1 COMBUSTION OF SINGLE DROPLETS 240 16.1.2
COMBUSTION OF DROPLET GROUPS 244 16.2 SPRAY COMBUSTION 246 16.2.1
FORMATION OF SPRAYS 246 16.2.2 SPRAY COMBUSTION MODES 247 16.2.3
STATISTICAL DESCRIPTION OF SPRAYS 249 16.2.4 MODELING OF TURBULENT SPRAY
COMBUSTION 252 16.2.5 FLAMELET-TYPE MODELS FOR SPRAY COMBUSTION 253 16.3
COAL COMBUSTION 255 16.3.1 PYROLYSIS OF COAL 255 16.3.2 BURNING OF
VOLATILE COMPOUNDS 256 16.3.3 BURNING OF THE COKE 256 16.3.4 COAL
GASIFICATION 257 16.4 EXERCISES 258 17 FORMATION OF NITRIC OXIDES 259
17.1 THERMAL NO (ZELDOVICH NO) 259 17.2 PROMPT NO (FENIMORE NO) 262 17.3
NO GENERATED VIA NITROUS OXIDE 265 17.4 CONVERSION OF FUEL NITROGEN INTO
NO 265 17.5 NO REDUCTION BY COMBUSTION MODIFICATIONS 267 17.6 CATALYTIC
COMBUSTION 271 17.7 NO REDUCTION BY POST-COMBUSTION PROCESSES 272 17.8
EXERCISES 275 TABLE OF CONTENTS XI 18 FORMATION OF HYDROCARBONS AND SOOT
277 18.1 UNBURNT HYDROCARBONS 277 18.1.1 FLAME EXTINCTION DUE TO STRAIN
278 18.1.2 FLAME EXTINCTION AT WALLS AND IN GAPS 278 18.2 FORMATION
OFPOLYCYCLIC AROMATIC HYDROCARBONS (PAH) 280 18.3 THE PHENOMENOLOGY OF
SOOT FORMATION 283 18.4 MODELLING AND SIMULATION OF SOOT FORMATION 287
18.5 EXERCISES 296 19 EFFECTS OF COMBUSTION PROCESSES ON THE ATMOSPHERE
297 19.1 THE STRUCTURE OF THE ATMOSPHERE 297 19.1.1 PRESSURE IN THE
ATMOSPHERE 297 19.1.2 TEMPERATURE AND CLASSIFICATION OF COMPARTMENTS IN
THE ATMOSPHERE 299 19.1.3 COMPOSITION OF THE ATMOSPHERE 300 19.2. THE
ATMOSPHERE AS A PHOTOCHEMICAL SYSTEM 300 19.2.1 LAMBERT-BEER LAW 300
19.2.2 STERN-VOLLMER EQUATION 301 19.2.3 FORMATION OF PHOTOCHEMICAL
LAYERS 302 19.3 INCOMING SUN RADIATION, PHOTOCHEMICAL PRIMARY PROCESSES
303 19.4. PHYSICAL PROCESSES IN THE ATMOSPHERE 305 19.4.1 CONSERVATION
OF THE MASS OF SPECIES 305 19.4.2 CONSERVATION OF ENERGY 306 19.4.3
SOLUTION OF THE CONSERVATION EQUATIONS 307 19.5 CHEMISTRY OF THE
UNPOLLUTED ATMOSPHERE 307 19.5.1 PURE OXYGEN ATMOSPHERE 307 19.5.2
OXYGEN-NITROGEN-HYDROGEN-CARBONATMOSPHERE 308 19.6 CHEMISTRY OF THE
POLLUTED ATMOSPHERE 310 19.6.1 PHOTOCHEMICAL SMOG 310 19.6.2 SUPERSONIC
TRANSPORTS 314 19.6.3 GREEN-HOUSE EFFECT 315 19.6.4 ACID RAIN 316 19.7
THE ROLE OF COMBUSTION SOURCES IN ATMOSPHERIC POLLUTION 317 20 APPENDIX
1: MATHEMATICS 319 20.1 SOME DEFINITIONS AND LAWS FOR VECTORS AND
TENSORS 319 20.2.1 FORMULATION OF THE PROBLEM 320 20.2.2 GENERAL REMARKS
ON SOLUTION ALGORITHMS FOR ODE SYSTEMS 321 20.2.3 EULER METHOD 322
20.2.4 EXTRAPOLATION METHOD 324 20.3 NUMERICAL SOLUTION OF PARTIAL
DIFFERENTIAL EQUATION SYSTEMS 325 20.3.1 SPATIAL DISCRETIZATION 326
20.3.2 INITIAL VALUES, BOUNDARY CONDITIONS, STATIONARY SOLUTION 328
20.3.3 EXPLICIT SOLUTION METHODS 329 20.3.4 IMPLICIT SOLUTION METHODS
330 20.3.5 SEMI-IMPLICIT SOLUTION OF PARTIAL DIFFERENTIAL EQUATIONS 330
20.3.6 IMPLICIT SOLUTION OF PARTIAL DIFFERENTIAL EQUATIONS 331 XII TABLE
OF CONTENTS 21 APPENDIX 2: REACTION MECHANISMS 333 21.1 MECHANISM OF THE
OXIDATION OF H 2 , CO, C { AND C 2 HYDROCARBONS 333 21.2 REACTION
MECHANISM OF THE GENERATION AND CONSUMPTION OF NO V 340 22 REFERENCES
345 23 INDEX 367 |
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| author | Warnatz, Jürgen 1944-2007 Maas, Ulrich Dibble, Robert W. |
| author_GND | (DE-588)1049426592 |
| author_facet | Warnatz, Jürgen 1944-2007 Maas, Ulrich Dibble, Robert W. |
| author_role | aut aut aut |
| author_sort | Warnatz, Jürgen 1944-2007 |
| author_variant | j w jw u m um r w d rw rwd |
| building | Verbundindex |
| bvnumber | BV022538599 |
| callnumber-first | Q - Science |
| callnumber-label | QD516 |
| callnumber-raw | QD516 |
| callnumber-search | QD516 |
| callnumber-sort | QD 3516 |
| callnumber-subject | QD - Chemistry |
| classification_rvk | VE 6001 ZP 3270 |
| classification_tum | ERG 420f |
| ctrlnum | (OCoLC)75427408 (DE-599)BVBBV022538599 |
| dewey-full | 541/.361 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 541 - Physical chemistry |
| dewey-raw | 541/.361 |
| dewey-search | 541/.361 |
| dewey-sort | 3541 3361 |
| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie Energietechnik, Energiewirtschaft Maschinenbau / Maschinenwesen Energietechnik |
| discipline_str_mv | Chemie / Pharmazie Energietechnik, Energiewirtschaft Maschinenbau / Maschinenwesen Energietechnik |
| edition | 4. ed. |
| format | Book |
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| genre_facet | Lehrbuch |
| id | DE-604.BV022538599 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:09:23Z |
| indexdate | 2024-07-09T20:59:47Z |
| institution | BVB |
| isbn | 9783540259923 3540259929 |
| language | English German |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015745085 |
| oclc_num | 75427408 |
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| owner | DE-573 DE-634 DE-83 DE-29T DE-91G DE-BY-TUM |
| owner_facet | DE-573 DE-634 DE-83 DE-29T DE-91G DE-BY-TUM |
| physical | XII, 378 S. Ill., graph. Darst. 25 cm, 563 gr. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Springer |
| record_format | marc |
| spelling | Warnatz, Jürgen 1944-2007 Verfasser (DE-588)1049426592 aut Technische Verbrennung Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation J. Warnatz ; U. Maas ; R. W. Dibble 4. ed. Berlin ; Heidelberg ; New York Springer 2006 XII, 378 S. Ill., graph. Darst. 25 cm, 563 gr. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. [345] - 366 Dynamica gtt Stikstofoxiden gtt Thermodynamica gtt Turbulentie gtt Verbranding gtt Vlammen gtt Warmtetransport gtt Combustion Flamme (DE-588)4154542-4 gnd rswk-swf Verbrennung (DE-588)4062656-8 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Flamme (DE-588)4154542-4 s DE-604 Verbrennung (DE-588)4062656-8 s Maas, Ulrich Verfasser aut Dibble, Robert W. Verfasser aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2669103&prov=M&dok_var=1&dok_ext=htm Inhaltstext http://www3.ub.tu-berlin.de/ihv/001719687.pdf Inhaltsverzeichnis HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015745085&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Warnatz, Jürgen 1944-2007 Maas, Ulrich Dibble, Robert W. Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation Dynamica gtt Stikstofoxiden gtt Thermodynamica gtt Turbulentie gtt Verbranding gtt Vlammen gtt Warmtetransport gtt Combustion Flamme (DE-588)4154542-4 gnd Verbrennung (DE-588)4062656-8 gnd |
| subject_GND | (DE-588)4154542-4 (DE-588)4062656-8 (DE-588)4123623-3 |
| title | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation |
| title_alt | Technische Verbrennung |
| title_auth | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation |
| title_exact_search | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation |
| title_exact_search_txtP | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation |
| title_full | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation J. Warnatz ; U. Maas ; R. W. Dibble |
| title_fullStr | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation J. Warnatz ; U. Maas ; R. W. Dibble |
| title_full_unstemmed | Combustion physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation J. Warnatz ; U. Maas ; R. W. Dibble |
| title_short | Combustion |
| title_sort | combustion physical and chemical fundamentals modeling and simulation experiments pollutant formation |
| title_sub | physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation |
| topic | Dynamica gtt Stikstofoxiden gtt Thermodynamica gtt Turbulentie gtt Verbranding gtt Vlammen gtt Warmtetransport gtt Combustion Flamme (DE-588)4154542-4 gnd Verbrennung (DE-588)4062656-8 gnd |
| topic_facet | Dynamica Stikstofoxiden Thermodynamica Turbulentie Verbranding Vlammen Warmtetransport Combustion Flamme Verbrennung Lehrbuch |
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