Introduction to physics and chemistry of combustion: explosion, flame, detonation
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin ; Heidelberg
Springer
2008
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 360 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9783540787587 |
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| 245 | 1 | 0 | |a Introduction to physics and chemistry of combustion |b explosion, flame, detonation |c Michael Liberman |
| 264 | 1 | |a Berlin ; Heidelberg |b Springer |c 2008 | |
| 300 | |a XV, 360 S. |b Ill., graph. Darst. |c 24 cm | ||
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Datensatz im Suchindex
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| adam_text | MICHAEL LIBERMAN INTRODUCTION TO PHYSICS AND CHEMISTRY OF COMBUSTION
EXPLOSION, FLAME, DETONATION 4Y SPRINGER CONTENTS 1 BASIC CONCEPTS OF
THERMODYNAMICS 1 1.1 THE ENTROPY 1 1.2 WORK AND QUANTITY OF HEAT: FIRST
LAW OF THERMODYNAMICS 4 1.3 TEMPERATURE 7 1.4 PRESSURE 9 1.5 THE FREE
ENERGY AND THE THERMODYNAMIC POTENTIALS 12 1.6 THE ENTHALPY 13 1.7 THE
NERNST S THEOREM 14 1.8 CARNOT S CYCLE AND CARNOT S THEOREM 16 1.9 LE
CHATELIER PRINCIPLE 18 1.10 DEPENDENCE OF THE THERMODYNAMIC QUANTITIES
ON THE NUMBER OF PARTICLES 18 1.11 IDEAL GASES 21 1.12 IDEAL GASES WITH
CONSTANT SPECIFIC HEAT: EQUATION OF POISSON ADIABATIC 22 PROBLEMS 25 2
CHEMICAL THERMODYNAMICS 27 2.1 INTRODUCTION AND DEFINITIONS 27 2.2
PROPERTIES OF SUBSTANCES 30 2.3 HEATS OF REACTIONS AND FORMATION 32 2.4
ORIGIN OF THE COMBUSTION HEAT; MOLECULAR BONDS 37 2.5 ADIABATIC FLAME
TEMPERATURE 40 2.6 THE EQUILIBRIUM CONSTANT 43 2.7 CHEMICAL EQUILIBRIUM
AND ADIABATIC FLAME TEMPERATURE 46 PROBLEMS 50 3 COMBUSTION CHEMISTRY 53
3.1 CHEMICAL REACTIONS 53 3.2 NON-BRANCHING CHAIN REACTION: THE HYDROGEN
CHLORINE 59 CONTENTS 3.3 OXIDATION OF NITROGEN IN COMBUSTION 63 3.4
CHAIN-BRANCHING REACTIONS: EXPLOSIONS 65 3.5 HYDROGEN-OXYGEN REACTIONS:
EXPLOSION LIMITS 66 PROBLEMS 71 SELF-ACCELERATING REACTIONS, EXPLOSIONS
73 4.1 SELF-ACCELERATING REACTIONS 73 4.2 THERMAL SELF-IGNITION 76 4.3
THE FRANK-KAMENETSKII TRANSFORMATION 79 4.4 SEMENOV S THEORY OF THERMAL
EXPLOSIONS 81 4.5 CRITICAL CONDITIONS FOR A THERMAL EXPLOSION 84 4.6
SPARK IGNITION AND MINIMUM IGNITION ENERGY 85 PROBLEMS 87 VELOCITY AND
TEMPERATURE OF LAMINAR FLAMES 89 5.1 REACTION WAVES PROPAGATION THROUGH
A COMBUSTIBLE MIXTURE 89 5.2 VELOCITY AND THICKNESS OF LAMINAR FLAMES 91
5.3 TEMPERATURE AND CONCENTRATION DISTRIBUTIONS IN FLAMES 97 5.4 NORMAL
VELOCITY OF FLAME PROPAGATION. ZEL DOVICH - FRANK-KAMENTSKII THEORY 101
5.5 CONSEQUENCES OF THE FORMULA FOR NORMAL FLAME VELOCITY.... 106
PROBLEMS 107 INTRODUCTION TO HYDRODYNAMICS OF IDEAL FLUIDS 109 6.1 THE
FLUID DYNAMICS 109 6.2 THE EQUATION OF CONTINUITY ILL 6.3 THE EULER
EQUATION 113 6.4 CONSERVATION OF ENERGY 116 6.5 THE EQUATION OF STATE
120 6.6 HYDROSTATICS 123 6.7 A STATIONARY FLOW. THE BERNOULLI EQUATION
126 6.8 THE CONSERVATION OF VELOCITY CIRCULATION 129 6.9 POTENTIAL FLOW
131 6.10 LINEAR WAVES AND INSTABILITIES 134 6.11 THE GRAVITY WAVES 137
6.12 THE RAYLEIGH-TAYLOR INSTABILITY 141 6.13 SOUND WAVES 143 6.14
ONE-DIMENSIONAL TRAVELING WAVES 148 6.15 FLOW IN A PIPE AHEAD OF THE
MOVING PISTON 152 PROBLEMS 154 ENERGY DISSIPATION IN GASES AND LIQUIDS
157 7.1 VISCOUS FLUIDS 157 7.2 ENERGY DISSIPATION IN VISCOUS FLUIDS 159
CONTENTS VII 7.3 THERMAL CONDUCTION 161 7.3.1 THE EQUATION OF THERMAL
CONDUCTION 161 7.3.2 THERMAL CONDUCTION IN AN INCOMPRESSIBLE FLUID 163
7.3.3 HEAT PROPAGATION 165 7.4 STATIONARY FLOW OF INCOMPRESSIBLE VISCOUS
FLUID 168 7.4.1 FLOW OF VISCOUS INCOMPRESSIBLE FLUID IN A DUCT 168 7.4.2
THE POISEUILLE FLOW 170 7.4.3 A STATIONARY VISCOUS FLOW IN A CYLINDRICAL
TUBE 173 7.5 DIMENSIONAL ANALYSIS: THE LAW OF SIMILARITY 175 7.6 FLOW
WITH SMALL REYNOLDS NUMBERS 178 7.7 TURBULENCE: STABILITY OF STEADY
VISCOUS FLOW 179 7.7.1 INSTABILITY OF STEADY FLOW AT LARGE REYNOLDS
NUMBERS 181 7.7.2 FULLY DEVELOPED TURBULENCE: KOLMOGOROV THEORY .... 184
7.7.3 THE VELOCITY CORRELATION FUNCTION 187 7.8 BOUNDARY LAYER 190
PROBLEMS 196 8 DETONATION AND SHOCK WAVES 197 8. 1 SURFACES OF
DISCONTINUITY 197 8.2 THE SHOCK ADIABATIC 199 8.3 DETONATION ADIABATIC
202 8.4 VELOCITY OF DETONATION WAVE 206 8.5 THE CHAPMAN-JOUGUET
DETONATION : 207 8.6 THE PROPAGATION OF A DETONATION WAVE 209 8.7 STRONG
EXPLOSION IN HOMOGENOUS ATMOSPHERE 210 PROBLEMS 213 9 HYDRODYNAMICS OF
PROPAGATING FLAME 215 9.1 COMPLETE SYSTEM OF EQUATIONS FOR PROPAGATING
FLAME 215 9.2 ISOBARIC APPROXIMATION 216 9.3 THEORY OF PLANAR FLAMES 219
9.4 THE MODEL OF A DISCONTINUOUS FLAME FRONT 222 9.5 THE DARRIEUS-LANDAU
INSTABILITY OF A THIN FLAME FRONT 224 9.6 THE LINEAR THEORY OF
INSTABILITY OF THE THIN FLAME FRONT 228 9.7 THERMAL STABILIZATION OF THE
DL INSTABILITY 231 9.8 FLAME INSTABILITY IN A GRAVITATIONAL FIELD 237
9.9 THERMAL-DIFFUSIVE INSTABILITY 241 9.10 NONLINEAR STABILIZATION OF
THE FLAME INSTABILITY 243 9.11 CURVED STATIONARY FLAMES IN TUBE 244 9.12
NONLINEAR EQUATION FOR STATIONARY FLAMES 245 9.13 STABILITY LIMITS OF A
CURVED STATIONARY FLAME IN TUBES 250 9.14 SPHERICALLY EXPANDING FLAMES
254 9.15 FLAME IN A GRAVITATIONAL FIELD: THEORY OF RISING BUBBLES . . .
258 9.16 FLAME IN HORIZONTAL AND VERTICAL TUBES 261 VIII CONTENTS 9.17
FLAME IN A CLOSED BURNING CHAMBER 265 9.18 FLAME QUENCHING AND
FLAMMABILITY LIMITS 267 PROBLEMS 269 10 REGIMES OF PREMIXED FLAMES 271
10.1 COMBUSTION WAVES IN LAMINAR FLOW 271 10.2 REGIMES OF PREMIXED
TURBULENT COMBUSTION 275 10.3 VELOCITY OF TURBULENT FLAME 279 10.4
SPONTANEOUS REACTION IN NONUNIFORM COMBUSTIBLE MIXTURE. 281 10.5 THE
DEFLAGRATION TO DETONATION TRANSITION 283 10.6 MECHANISM OF DEFLAGRATION
TO DETONATION TRANSITION 293 10.7 FORMATION A PREHEAT ZONE AND
DEFLAGRATION TO DETONATION TRANSITION 302 10.8 THERMONUCLEAR BURNING OF
THE STARS: WHITE DWARFS 309 10.9 BURNING IGNITION AND TRANSITION TO
DETONATION IN WHITE DWARFS 312 PROBLEMS 317 11 INTERNAL COMBUSTION
ENGINES 319 11.1 SPARK IGNITION ENGINE (OTTO-ENGINE) 320 11.2 ENGINE
OPERATING CYCLES 323 11.3 DIESEL CYCLE 327 11.4 KNOCK IN SI-ENGINES 330
12 COMBUSTION AND ENVIRONMENTAL CONCERNS 335 12.1 FORMATION OF
HYDROCARBONS AND SOOT 335 12.2 PROCESSES OF PARTICULATE AND SOOT
FORMATION 337 12.3 NO X FORMATION AND REDUCTION 339 APPENDIX A:
CONVERSION FORMULAS AND CONSTANTS 343 A. 1 FUNDAMENTAL CONSTANTS 343 A.2
DENSITY, THERMAL CONDUCTIVITY, VISCOSITY 344 APPENDIX B: USEFUL FORMULAS
OF VECTOR ANALYSIS 345 B.I CYLINDRICAL COORDINATES 346 B.2 SPHERICAL
COORDINATES 346 APPENDIX C: EQUATIONS OF FLUID MECHANICS IN CURVILINEAR
COORDINATE SYSTEMS 349 C.I CYLINDRICAL COORDINATES 349 C.2 SPHERICAL
COORDINATES 350 INDEX 351
|
| adam_txt |
MICHAEL LIBERMAN INTRODUCTION TO PHYSICS AND CHEMISTRY OF COMBUSTION
EXPLOSION, FLAME, DETONATION 4Y SPRINGER CONTENTS 1 BASIC CONCEPTS OF
THERMODYNAMICS 1 1.1 THE ENTROPY 1 1.2 WORK AND QUANTITY OF HEAT: FIRST
LAW OF THERMODYNAMICS 4 1.3 TEMPERATURE 7 1.4 PRESSURE 9 1.5 THE FREE
ENERGY AND THE THERMODYNAMIC POTENTIALS 12 1.6 THE ENTHALPY 13 1.7 THE
NERNST'S THEOREM 14 1.8 CARNOT'S CYCLE AND CARNOT'S THEOREM 16 1.9 LE
CHATELIER PRINCIPLE 18 1.10 DEPENDENCE OF THE THERMODYNAMIC QUANTITIES
ON THE NUMBER OF PARTICLES 18 1.11 IDEAL GASES 21 1.12 IDEAL GASES WITH
CONSTANT SPECIFIC HEAT: EQUATION OF POISSON ADIABATIC 22 PROBLEMS 25 2
CHEMICAL THERMODYNAMICS 27 2.1 INTRODUCTION AND DEFINITIONS 27 2.2
PROPERTIES OF SUBSTANCES 30 2.3 HEATS OF REACTIONS AND FORMATION 32 2.4
ORIGIN OF THE COMBUSTION HEAT; MOLECULAR BONDS 37 2.5 ADIABATIC FLAME
TEMPERATURE 40 2.6 THE EQUILIBRIUM CONSTANT 43 2.7 CHEMICAL EQUILIBRIUM
AND ADIABATIC FLAME TEMPERATURE 46 PROBLEMS 50 3 COMBUSTION CHEMISTRY 53
3.1 CHEMICAL REACTIONS 53 3.2 NON-BRANCHING CHAIN REACTION: THE HYDROGEN
CHLORINE 59 CONTENTS 3.3 OXIDATION OF NITROGEN IN COMBUSTION 63 3.4
CHAIN-BRANCHING REACTIONS: EXPLOSIONS 65 3.5 HYDROGEN-OXYGEN REACTIONS:
EXPLOSION LIMITS 66 PROBLEMS 71 SELF-ACCELERATING REACTIONS, EXPLOSIONS
73 4.1 SELF-ACCELERATING REACTIONS 73 4.2 THERMAL SELF-IGNITION 76 4.3
THE FRANK-KAMENETSKII TRANSFORMATION 79 4.4 SEMENOV'S THEORY OF THERMAL
EXPLOSIONS 81 4.5 CRITICAL CONDITIONS FOR A THERMAL EXPLOSION 84 4.6
SPARK IGNITION AND MINIMUM IGNITION ENERGY 85 PROBLEMS 87 VELOCITY AND
TEMPERATURE OF LAMINAR FLAMES 89 5.1 REACTION WAVES PROPAGATION THROUGH
A COMBUSTIBLE MIXTURE 89 5.2 VELOCITY AND THICKNESS OF LAMINAR FLAMES 91
5.3 TEMPERATURE AND CONCENTRATION DISTRIBUTIONS IN FLAMES 97 5.4 NORMAL
VELOCITY OF FLAME PROPAGATION. ZEL'DOVICH - FRANK-KAMENTSKII THEORY 101
5.5 CONSEQUENCES OF THE FORMULA FOR NORMAL FLAME VELOCITY. 106
PROBLEMS 107 INTRODUCTION TO HYDRODYNAMICS OF IDEAL FLUIDS 109 6.1 THE
FLUID DYNAMICS 109 6.2 THE EQUATION OF CONTINUITY ILL 6.3 THE EULER
EQUATION 113 6.4 CONSERVATION OF ENERGY 116 6.5 THE EQUATION OF STATE
120 6.6 HYDROSTATICS 123 6.7 A STATIONARY FLOW. THE BERNOULLI EQUATION
126 6.8 THE CONSERVATION OF VELOCITY CIRCULATION 129 6.9 POTENTIAL FLOW
131 6.10 LINEAR WAVES AND INSTABILITIES 134 6.11 THE GRAVITY WAVES 137
6.12 THE RAYLEIGH-TAYLOR INSTABILITY 141 6.13 SOUND WAVES 143 6.14
ONE-DIMENSIONAL TRAVELING WAVES 148 6.15 FLOW IN A PIPE AHEAD OF THE
MOVING PISTON 152 PROBLEMS 154 ENERGY DISSIPATION IN GASES AND LIQUIDS
157 7.1 VISCOUS FLUIDS 157 7.2 ENERGY DISSIPATION IN VISCOUS FLUIDS 159
CONTENTS VII 7.3 THERMAL CONDUCTION 161 7.3.1 THE EQUATION OF THERMAL
CONDUCTION 161 7.3.2 THERMAL CONDUCTION IN AN INCOMPRESSIBLE FLUID 163
7.3.3 HEAT PROPAGATION 165 7.4 STATIONARY FLOW OF INCOMPRESSIBLE VISCOUS
FLUID 168 7.4.1 FLOW OF VISCOUS INCOMPRESSIBLE FLUID IN A DUCT 168 7.4.2
THE POISEUILLE FLOW 170 7.4.3 A STATIONARY VISCOUS FLOW IN A CYLINDRICAL
TUBE 173 7.5 DIMENSIONAL ANALYSIS: THE LAW OF SIMILARITY 175 7.6 FLOW
WITH SMALL REYNOLDS NUMBERS 178 7.7 TURBULENCE: STABILITY OF STEADY
VISCOUS FLOW 179 7.7.1 INSTABILITY OF STEADY FLOW AT LARGE REYNOLDS
NUMBERS 181 7.7.2 FULLY DEVELOPED TURBULENCE: KOLMOGOROV THEORY . 184
7.7.3 THE VELOCITY CORRELATION FUNCTION 187 7.8 BOUNDARY LAYER 190
PROBLEMS 196 8 DETONATION AND SHOCK WAVES 197 8. 1 SURFACES OF
DISCONTINUITY 197 8.2 THE SHOCK ADIABATIC 199 8.3 DETONATION ADIABATIC
202 8.4 VELOCITY OF DETONATION WAVE 206 8.5 THE CHAPMAN-JOUGUET
DETONATION : 207 8.6 THE PROPAGATION OF A DETONATION WAVE 209 8.7 STRONG
EXPLOSION IN HOMOGENOUS ATMOSPHERE 210 PROBLEMS 213 9 HYDRODYNAMICS OF
PROPAGATING FLAME 215 9.1 COMPLETE SYSTEM OF EQUATIONS FOR PROPAGATING
FLAME 215 9.2 ISOBARIC APPROXIMATION 216 9.3 THEORY OF PLANAR FLAMES 219
9.4 THE MODEL OF A DISCONTINUOUS FLAME FRONT 222 9.5 THE DARRIEUS-LANDAU
INSTABILITY OF A THIN FLAME FRONT 224 9.6 THE LINEAR THEORY OF
INSTABILITY OF THE THIN FLAME FRONT 228 9.7 THERMAL STABILIZATION OF THE
DL INSTABILITY 231 9.8 FLAME INSTABILITY IN A GRAVITATIONAL FIELD 237
9.9 THERMAL-DIFFUSIVE INSTABILITY 241 9.10 NONLINEAR STABILIZATION OF
THE FLAME INSTABILITY 243 9.11 CURVED STATIONARY FLAMES IN TUBE 244 9.12
NONLINEAR EQUATION FOR STATIONARY FLAMES 245 9.13 STABILITY LIMITS OF A
CURVED STATIONARY FLAME IN TUBES 250 9.14 SPHERICALLY EXPANDING FLAMES
254 9.15 FLAME IN A GRAVITATIONAL FIELD: THEORY OF RISING BUBBLES . . .
258 9.16 FLAME IN HORIZONTAL AND VERTICAL TUBES 261 VIII CONTENTS 9.17
FLAME IN A CLOSED BURNING CHAMBER 265 9.18 FLAME QUENCHING AND
FLAMMABILITY LIMITS 267 PROBLEMS 269 10 REGIMES OF PREMIXED FLAMES 271
10.1 COMBUSTION WAVES IN LAMINAR FLOW 271 10.2 REGIMES OF PREMIXED
TURBULENT COMBUSTION 275 10.3 VELOCITY OF TURBULENT FLAME 279 10.4
SPONTANEOUS REACTION IN NONUNIFORM COMBUSTIBLE MIXTURE. 281 10.5 THE
DEFLAGRATION TO DETONATION TRANSITION 283 10.6 MECHANISM OF DEFLAGRATION
TO DETONATION TRANSITION 293 10.7 FORMATION A PREHEAT ZONE AND
DEFLAGRATION TO DETONATION TRANSITION 302 10.8 THERMONUCLEAR BURNING OF
THE STARS: WHITE DWARFS 309 10.9 BURNING IGNITION AND TRANSITION TO
DETONATION IN WHITE DWARFS 312 PROBLEMS 317 11 INTERNAL COMBUSTION
ENGINES 319 11.1 SPARK IGNITION ENGINE (OTTO-ENGINE) 320 11.2 ENGINE
OPERATING CYCLES 323 11.3 DIESEL CYCLE 327 11.4 KNOCK IN SI-ENGINES 330
12 COMBUSTION AND ENVIRONMENTAL CONCERNS 335 12.1 FORMATION OF
HYDROCARBONS AND SOOT 335 12.2 PROCESSES OF PARTICULATE AND SOOT
FORMATION 337 12.3 NO X FORMATION AND REDUCTION 339 APPENDIX A:
CONVERSION FORMULAS AND CONSTANTS 343 A. 1 FUNDAMENTAL CONSTANTS 343 A.2
DENSITY, THERMAL CONDUCTIVITY, VISCOSITY 344 APPENDIX B: USEFUL FORMULAS
OF VECTOR ANALYSIS 345 B.I CYLINDRICAL COORDINATES 346 B.2 SPHERICAL
COORDINATES 346 APPENDIX C: EQUATIONS OF FLUID MECHANICS IN CURVILINEAR
COORDINATE SYSTEMS 349 C.I CYLINDRICAL COORDINATES 349 C.2 SPHERICAL
COORDINATES 350 INDEX 351 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Liberman, Michail A. 1942- |
| author_GND | (DE-588)121242072 |
| author_facet | Liberman, Michail A. 1942- |
| author_role | aut |
| author_sort | Liberman, Michail A. 1942- |
| author_variant | m a l ma mal |
| building | Verbundindex |
| bvnumber | BV035106677 |
| callnumber-first | Q - Science |
| callnumber-label | QD516 |
| callnumber-raw | QD516 |
| callnumber-search | QD516 |
| callnumber-sort | QD 3516 |
| callnumber-subject | QD - Chemistry |
| classification_rvk | UR 5800 VE 6000 ZP 3270 |
| classification_tum | ERG 420f |
| ctrlnum | (OCoLC)213384276 (DE-599)DNB988424584 |
| dewey-full | 660.2961 621.4023 541.361 |
| dewey-hundreds | 600 - Technology (Applied sciences) 500 - Natural sciences and mathematics |
| dewey-ones | 660 - Chemical engineering 621 - Applied physics 541 - Physical chemistry |
| dewey-raw | 660.2961 621.4023 541.361 |
| dewey-search | 660.2961 621.4023 541.361 |
| dewey-sort | 3660.2961 |
| dewey-tens | 660 - Chemical engineering 620 - Engineering and allied operations 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie Maschinenbau / Maschinenwesen Energietechnik, Energiewirtschaft Physik Energietechnik |
| discipline_str_mv | Chemie / Pharmazie Maschinenbau / Maschinenwesen Energietechnik, Energiewirtschaft Physik Energietechnik |
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| id | DE-604.BV035106677 |
| illustrated | Illustrated |
| index_date | 2024-07-02T22:16:05Z |
| indexdate | 2024-07-09T21:22:27Z |
| institution | BVB |
| isbn | 9783540787587 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016774575 |
| oclc_num | 213384276 |
| open_access_boolean | |
| owner | DE-1046 DE-91G DE-BY-TUM DE-859 DE-703 DE-634 DE-83 |
| owner_facet | DE-1046 DE-91G DE-BY-TUM DE-859 DE-703 DE-634 DE-83 |
| physical | XV, 360 S. Ill., graph. Darst. 24 cm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| spelling | Liberman, Michail A. 1942- Verfasser (DE-588)121242072 aut Introduction to physics and chemistry of combustion explosion, flame, detonation Michael Liberman Berlin ; Heidelberg Springer 2008 XV, 360 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Combustion Verbrennung (DE-588)4062656-8 gnd rswk-swf Flamme (DE-588)4154542-4 gnd rswk-swf Verbrennung (DE-588)4062656-8 s DE-604 Flamme (DE-588)4154542-4 s HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016774575&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Liberman, Michail A. 1942- Introduction to physics and chemistry of combustion explosion, flame, detonation Combustion Verbrennung (DE-588)4062656-8 gnd Flamme (DE-588)4154542-4 gnd |
| subject_GND | (DE-588)4062656-8 (DE-588)4154542-4 |
| title | Introduction to physics and chemistry of combustion explosion, flame, detonation |
| title_auth | Introduction to physics and chemistry of combustion explosion, flame, detonation |
| title_exact_search | Introduction to physics and chemistry of combustion explosion, flame, detonation |
| title_exact_search_txtP | Introduction to physics and chemistry of combustion explosion, flame, detonation |
| title_full | Introduction to physics and chemistry of combustion explosion, flame, detonation Michael Liberman |
| title_fullStr | Introduction to physics and chemistry of combustion explosion, flame, detonation Michael Liberman |
| title_full_unstemmed | Introduction to physics and chemistry of combustion explosion, flame, detonation Michael Liberman |
| title_short | Introduction to physics and chemistry of combustion |
| title_sort | introduction to physics and chemistry of combustion explosion flame detonation |
| title_sub | explosion, flame, detonation |
| topic | Combustion Verbrennung (DE-588)4062656-8 gnd Flamme (DE-588)4154542-4 gnd |
| topic_facet | Combustion Verbrennung Flamme |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016774575&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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