Introduction to catalytic combustion:
Gespeichert in:
Hauptverfasser: | , |
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Amsterdam
Gordon and Breach Science Publ.
1997
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Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XXXI, 681 S. Ill., graph. Darst. |
ISBN: | 9056990926 |
Internformat
MARC
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245 | 1 | 0 | |a Introduction to catalytic combustion |c R. E. Hayes and S. T. Kolaczkowski |
264 | 1 | |a Amsterdam |b Gordon and Breach Science Publ. |c 1997 | |
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650 | 4 | |a Catalysis | |
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650 | 4 | |a Combustion | |
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Datensatz im Suchindex
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adam_text | INTRODUCTION TO CATALYTIC COMBUSTION R.E. HAYES PROFESSOR OF CHEMICAL
ENGINEERING DEPARTMENT OF CHEMICAL AND MATERIALS ENGINEERING UNIVERSITY
OF ALBERTA, CANADA AND S.T. KOLACZKOWSKI PROFESSOR OF CHEMICAL
ENGINEERING DEPARTMENT OF CHEMICAL ENGINEERING UNIVERSITY OF BATH,
UNITED KINGDOM GORDON AND BREACH SCIENCE PUBLISHERS AUSTRALIA * CANADA *
CHINA * FRANCE * GERMANY * INDIA * JAPAN * LUXEMBOURG MALAYSIA * THE
NETHERLANDS * RUSSIA * SINGAPORE * SWITZERLAND * THAILAND UNITED KINGDOM
TABLE OF CONTENTS PREFACE XVII ACKNOWLEDGEMENTS XIX NOMENCLATURE XXI
CHAPTER 1. INTRODUCTION 1 1.1 THE BASICS: TERMINOLOGY AND CONSERVATION
EQUATIONS 4 1.1.1 COMMONLY USED TERMS 4 1.1.2 CLASSIFICATION OF REACTORS
12 1.1.3 MOMENTUM BALANCES 14 1.1.4 ENERGY BALANCES 15 1.1.5 MATERIAL
BALANCES 16 1.1.6 THE COUPLING OF MATERIAL, ENERGY AND MOMENTUM BALANCES
16 1.2 CATALYTIC COMBUSTION AND TRANSPORT PROCESSES 17 1.3 CATALYTIC
COMBUSTION CHEMISTRY 20 1.4 FORMATION OF NO X 23 1.5 CATALYST SUPPORT
SYSTEMS 25 1.5.1 PELLETS IN A PACKED OR FLUIDIZED BED 26 1.5.2
MULTICHANNEL MONOLITHS 30 1.5.3 PARALLEL PLATES 38 1.5.4 FIBRE PADS AND
GAUZES 38 1.5.5 SINTERED METALS 39 1.6 PALLADIUM BASED CATALYSTS FOR
METHANE COMBUSTION 40 1.6.1 INFLUENCE OF TEMPERATURE ON CHEMICAL
COMPOSITION OF THE CATALYST 41 1.6.2 CATALYST DISPERSION 44 1.6.3
CATALYST POISONING AND FOULING 44 1.6.4 CATALYST/SUPPORT INTERACTIONS 45
1.6.5 CATALYST PROMOTERS 46 1.6.6 ADDITIVES TO THE CATALYST SUPPORT 46
1.6.7 PREPARATION OF PALLADIUM CATALYST 46 1.7 EXAMPLE APPLICATIONS OF
CATALYTIC COMBUSTION 47 1.7.1 EXAMPLES OF PRIMARY COMBUSTION PROCESSES
48 1.7.1.1 STATIONARY GAS TURBINES 50 1.7.1.2 RADIANT HEATERS 58 1.7.1.3
PROCESS HEATING 62 1.7.2 EXAMPLES OF SECONDARY COMBUSTION PROCESSES 65
1.7.2.1 CATALYTIC CONVERTERS FOR GASOLINE (PETROL) ENGINES 67 X CONTENTS
1.7.2.2 CATALYTIC CONVERTERS/TRAPS FOR DIESEL ENGINES 75 1.7.2.3
CATALYTIC INCINERATION OF ORGANIC EMISSIONS 78 1.8 CATALYTIC MONOLITHS
IN NOX REDUCTION REACTORS 82 1.9 SYSTEM DESIGN 85 1.10 SUMMARY 87
INTRODUCTORY NOTE TO CHAPTERS 2 TO 6 89 ADDITIONAL READING ON CATALYTIC
COMBUSTION 89 ADDITIONAL READING ON CATALYTIC CONVERTERS 90 REFERENCES
90 CHAPTER 2. THERMODYNAMICS, KINETICS AND TRANSPORT PHENOMENA 97 2.1
THERMODYNAMICS 99 2.1.1 OPEN AND CLOSED SYSTEMS 99 2.1.2 THE
THERMODYNAMIC STATE 100 2.1.3 EQUATIONS OF STATE 100 2.1.3.1 THE IDEAL
GAS LAW 101 2.1.3.2 NON-IDEAL BEHAVIOUR 101 2.1.4 MULTICOMPONENT
MIXTURES 102 2.1.5 ENERGY BALANCES IN OPEN AND CLOSED SYSTEMS 106 2.1.6
ENTHALPY CHANGES IN SYSTEMS 112 2.1.6.1 ENTHALPY CHANGE RESULTING FROM
TEMPERATURE CHANGE * THE HEAT CAPACITY 112 2.1.6.2 ENTHALPY CHANGE WITH
PRESSURE 115 2.1.6.3 ENTHALPY CHANGE DUE TO COMPOSITION CHANGE * THE
HEAT OF REACTION 116 2.1.6.4 THE FIRST LAW FOR AN OPEN STEADY STATE
REACTING SYSTEM 121 2.1.6.5 HEAT OF COMBUSTION 125 2.1.7 CHEMICAL
REACTION EQUILIBRIUM * THE EQUILIBRIUM CONSTANT 126 2.1.8 CATALYST
DECOMPOSITION PRESSURE 132 2.2 KINETICS 134 2.2.1 RATE EXPRESSIONS AND
MECHANISMS 135 2.2.2 HOMOGENEOUS COMBUSTION KINETICS 138 2.2.2.1
HOMOGENEOUS COMBUSTION OF CARBON MONOXIDE 139 2.2.2.2 HOMOGENEOUS
COMBUSTION OF HYDROCARBONS 140 2.2.3 CATALYTIC COMBUSTION KINETICS 143
2.2.3.1 ADSORPTION 146 2.2.3.2 LANGMUIR HINSHELWOOD HOUGEN WATSON
REACTION MODELS 152 2.2.3.3 RATE MODELS FOR CATALYTIC OXIDATION
REACTIONS 165 2.2.3.4 COMMENTS ON THE USE OF RATE EQUATIONS 176 2.2.3.5
FINAL WORD ON CATALYTIC RATE MODELS 177 CONTENTS XI 2.3 TRANSPORT
PHENOMENA 178 2.3.1 NEWTON S LAW OF VISCOSITY 178 2.3.2 FLOW REGIMES 180
2.3.3 FLOW IN DUCTS 181 2.3.3.1 THE EQUATION OF CONTINUITY 182 2.3.3.2
THE FRICTION FACTOR FOR FLOW IN A DUCT 184 2.3.3.3 FLOW IN CIRCULAR
DUCTS 185 2.3.3.4 FLOW IN RECTANGULAR DUCTS 195 2.3.3.5 FLOW IN
TRIANGULAR DUCTS 196 2.3.3.6 OTHER SHAPES 197 2.3.4 FLOW IN POROUS MEDIA
197 2.3.5 FOURIER S LAW OF CONDUCTION AND THE ENERGY EQUATION 204
2.3.5.1 CONDUCTION IN ONE DIMENSIONAL SYSTEMS 204 2.3.5.2
MULTIDIMENSIONAL SYSTEMS 212 2.3.5.3 CONDUCTION AND CONVECTION IN FLUID
SYSTEMS * WITH AND WITHOUT REACTION 213 2.3.5.4 CONDUCTION IN POROUS
MEDIA 216 2.3.6 BOUNDARY LAYERS AND THE HEAT TRANSFER COEFFICIENT 216
2.3.6.1 BOUNDARY LAYER DEVELOPMENT OVER A HEATED FLAT PLATE 217 2.3.6.2
BOUNDARY LAYER DEVELOPMENT IN THE ENTRANCE OF A CIRCULAR DUCT 220 2.3.7
FICK S LAW OF DIFFUSION AND THE SPECIES BALANCE EQUATION 226 2.3.8
BOUNDARY LAYER DEVELOPMENT AND THE MASS TRANSFER COEFFICIENT 236 2.3.9
THE MASS AND HEAT TRANSFER ANALOGY 239 2.3.10 EXTERNAL HEAT AND MASS
TRANSFER RESISTANCE IN CATALYSIS 239 2.3.11 DIFFUSION AND REACTION IN
POROUS CATALYSTS 244 2.3.11.1 THE EFFECTIVE DIFFUSIVITY 244 2.3.11.2 THE
EFFECTIVENESS FACTOR 250 2.3.11.3 NON-ISOTHERMAL EFFECTIVENESS FACTORS
260 2.3.11.4 EFFECTIVENESS FACTORS WITH COMPLEX KINETICS 262 2.3.11.5
DIFFUSION AND REACTION IN COMPLEX CATALYST GEOMETRIES 263 2.3.12
COMBINED INTERNAL AND EXTERNAL MASS TRANSFER RESISTANCE 263 2.3.13 HEAT
TRANSFER BY RADIATION 269 FURTHER READING 275 REFERENCES 276 CHAPTER 3.
MODELLING OF CATALYTIC COMBUSTION REACTORS 281 3.1 BASIC MODELLING
CONCEPTS 282 3.1.1 TYPES OF EQUATIONS 282 ** CONTENTS 3.1.1.1 CONSTANTS
AND VARIABLES 282 3.1.1.2 LINEAR ALGEBRAIC EQUATIONS 282 3.1.1.3
NON4INEAR ALGEBRAIC EQUATIONS 283 3.1.1.4 DIFFERENTIAL EQUATIONS 283
3.1.2 TYPES OF MODELS 284 3.1.3 CHOOSING THE MODEL 285 3.1.4 MODEL
VALIDATION 286 3.1.5 OVERVIEW/SUMMARY OF THE MODELLING PROCESS 287 3.2
COMMERCIAL SOFTWARE PACKAGES 288 3.3 MODELLING OF A SINGLE MONOLITH
CHANNEL 289 3.3.1 BASIC MODEL SELECTION CRITERIA 289 3.3.2 MODEL
DIMENSIONALITY 291 3.3.3 ONE DIMENSIONAL STEADY STATE PLUG FLOW MODEL *
LAMINAR/TURBULENT FLOW 294 3.3.3.1 ID PSEUDO4IOMOGENEOUS PLUG FLOW MODEL
* STEADY STATE 295 3.3.3.2 ID HETEROGENEOUS PLUG FLOW MODEL * STEADY
STATE 300 3.3.3.3 HEAT AND MASS TRANSFER COEFFICIENTS 313 3.3.4 ONE
DIMENSIONAL STEADY STATE DISPERSION MODEL * LAMINAR/TURBULENT FLOW 331
3.3.5 TRANSIENT ONE DIMENSIONAL MODELS * LAMINAR/TURBULENT FLOW 338
3.3.6 TWO DIMENSIONAL MODEL IN CYLINDRICAL COORDINATES * LAMINAR FLOW
342 3.3.6.1 MOMENTUM BALANCE EQUATIONS 342 3.3.6.2 MASS BALANCE EQUATION
343 3.3.6.3 THE ENERGY BALANCE EQUATION 346 3.3.7 RADIATION MODELLING IN
A MONOLITH CHANNEL 348 3.3.7.1 INTEGRAL APPROACH TO INTERNAL RADIATION
TRANSFER 353 3.3.7.2 NETWORK OF FINITE SURFACES METHOD FOR MODELLING
INTERNAL RADIATION EXCHANGE 357 3.3.7.3 ESTIMATING RADIATION LOSS FROM A
MONOLITH REACTOR 368 3.4 MODELLING DIFFUSION IN THE WASHCOAT * STEADY
STATE 370 3.4.1 ID APPROXIMATION * STEADY STATE 372 3.4.2 EQUATIONS FOR
SOLUTION IN 2D * STEADY STATE 375 3.4.3 EVALUATING THE EFFECTIVENESS
FACTOR IN A MONOLITH REACTOR SIMULATION 376 3.4.4 EFFECTIVENESS FACTORS
FOR WASHCOATS WITH MULTIPLE REACTIONS * STEADY STATE 382 3.4.5 TRANSIENT
DIFFUSION REACTION PROBLEMS 382 3.5 MULTIPLE CHANNEL HONEYCOMB REACTOR
MODELS 383 CONTENTS ** 3.5.1 CONTINUUM MODEL 383 3.5.2 DISCRETE METHOD
WITH HONEYCOMB RECONFIGURATION 388 PACKED BED REACTOR MODELS 389 3.6.1
ONE DIMENSIONAL PLUG FLOW MODEL OF A PACKED BED REACTOR 391 3.6.1.1 ID
PSEUDO-HOMOGENEOUS PFR MODEL FOR AN ADIABATIC PACKED BED * STEADY STATE
391 3.6.1.2 ID HETEROGENEOUS PFR MODEL FOR AN ADIABATIC PACKED BED *
STEADY STATE 394 3.6.1.3 ID PFR MODELS FOR A NON-ADIABATIC PACKED BED *
STEADY STATE 399 3.6.2 ONE DIMENSIONAL DISPERSION MODEL FOR A PACKED BED
REACTOR 402 3.6.2.1 PSEUDO-HOMOGENEOUS ID AXIAL DISPERSION MODEL FOR A
PACKED BED * STEADY STATE 403 3.6.2.2 HETEROGENEOUS ID AXIAL DISPERSION
MODEL FOR A PACKED BED * STEADY STATE 404 3.6.3 TWO DIMENSIONAL MODEL OF
A PACKED BED REACTOR 406 3.6.3.1 PSEUDO-HOMOGENEOUS 2D MODEL FOR A
PACKED BED * STEADY STATE 406 3.6.3.2 HETEROGENEOUS 2D MODEL FOR A
PACKED BED * STEADY STATE 410 3.6.4 TRANSPORT PROPERTIES IN PACKED BEDS
413 3.6.4.1 FLUID/SOLID MASS AND HEAT TRANSFER COEFFICIENTS IN PACKED
BEDS 413 3.6.4.2 DISPERSION COEFFICIENTS IN PACKED BEDS 415 3.6.4.3
THERMAL CONDUCTIVITIES IN PACKED BEDS 417 3.6.4.4 BED TO WALL HEAT
TRANSFER COEFFICIENTS IN PACKED BEDS 420 3.6.5 EFFECTIVENESS FACTORS IN
PACKED BEDS 422 CONSOLIDATED POROUS MEDIA MODELS 423 NUMERICAL METHODS
423 3.8.1 METHODS FOR INITIAL VALUE PROBLEMS 424 3.8.2 INTRODUCTION TO
BOUNDARY VALUE PROBLEMS 427 3.8.3 THE BASIS OF THE FINITE DIFFERENCE
METHOD 428 3.8.4 FINITE DIFFERENCE SOLUTION OF A ONE DIMENSIONAL
DISPERSION MODEL 433 3.8.5 THE BASIS OF THE FINITE ELEMENT METHOD 437
3.8.5.1 FINITE ELEMENT DISCRETIZATION 437 3.8.5.2 2D DISCRETIZATION OF A
MONOLITH REACTOR CHANNEL 438 3.8.5.3 2D DISCRETIZATION OF THE WASHCOAT
440 3.8.5.4 DISCRETIZATION ERROR 441 3.8.5.5 INTERPOLATION POLYNOMIALS
442 XIV CONTENTS 3.8.5.6 THE MATHEMATICAL BASIS OF THE GALERKIN FINITE
ELEMENT METHOD 443 3.8.5.7 INTEGRATING THE WEAK FORM OF THE DIFFERENTIAL
EQUATION: THE REFERENCE ELEMENT 445 3.8.5.8 THE MATRIX FORM OF THE
ELEMENTARY EQUATIONS, ASSEMBLING THE GLOBAL MATRIX 450 3.8.6 FINITE
ELEMENT SOLUTION OF A DIFFUSION/REACTION PROBLEM 450 3.9 SOLUTION
ALGORITHMS 459 FURTHER READING 464 REFERENCES 464 CHAPTER 4. HOMOGENEOUS
GAS PHASE REACTIONS 469 4.1 GENERAL COMBUSTION CHARACTERISTICS 470 4.1.1
COMBUSTION CHEMISTRY 471 4.1.2 AUTO-IGNITION 479 4.1.3 BURNING VELOCITY
481 4.2 COMBUSTION MODELS 482 4.2.1 DIFFUSION FLAME (LAMINAR/TURBULENT)
MODEL 482 4.2.2 PREMIXED FLAME MODEL 484 4.2.3 SHOCK TUBE MODEL 484
4.2.4 WELL STIRRED REACTOR MODEL 485 4.2.5 PLUG FLOW MODEL 492 4.3
STRUCTURE OF RIGOROUS SCHEMES 495 4.4 INCLUSION OF CATALYTIC/SURFACE
TERMS 498 4.5 FLAME STABILIZATION 499 4.6 SUMMARY 501 REFERENCES 502
CHAPTER 5. EXPERIMENTAL STUDIES 505 5.1 PRE-AGEING OF COMBUSTION
CATALYSTS 507 5.2 ACQUISITION AND ANALYSIS OF CATALYTIC RATE DATA 507
5.2.1 LABORATORY REACTORS 508 5.2.1.1 TUBULAR REACTOR 509 5.2.1.2
TEMPERATURE MEASUREMENT 515 5.2.1.3 STIRRED TANK/SPINNING
BASKET/CARBERRY REACTOR 517 5.2.1.4 INTERNAL RECYCLE STIRRED TANK/BERTY
REACTOR 518 5.2.1.5 RECYCLE TUBULAR REACTOR 518 5.2.2 ERROR ESTIMATION
521 5.2.2.1 ERRORS EVALUATED USING MATHEMATICAL ANALYSIS 521 5.2.2.2
ERRORS EVALUATED USING SENSITIVITY ANALYSIS 525 5.2.3 FINDING THE
KINETIC EXPRESSION 525 CONTENTS XV 5.2.4 INTER- AND INTRAPHASE MASS AND
HEAT TRANSFER 536 5.3 PERFORMANCE OF PILOT-SCALE REACTOR EXPERIMENTS 546
5.3.1 SUPPLY OF AIR 546 5.3.2 PREHEATING OF INLET STREAM 547 5.3.3 FUEL
AND AIR MIXING 548 5.3.4 TEMPERATURE MEASUREMENT 549 5.3.5 FLOW
MEASUREMENT 550 5.3.6 GAS ANALYSIS 550 5.3.7 DATA ACQUISITION 553 5.3.8
PRESSURE DROP MEASUREMENT 553 5.3.8.1 MONOLITHS 553 5.3.8.2 PACKED BEDS
559 5.4 ACQUISITION OF TRANSPORT PROPERTY DATA 559 5.5 MEASUREMENTS TO
CHARACTERIZE THE CATALYST SYSTEM 561 5.5.1 THE RECIPE 561 5.5.2 THE
SUPPORT SYSTEM 561 5.5.3 THE CATALYST COATED/IMPREGNATED SYSTEM 562
5.5.3.1 PORE SIZE, VOLUME AND DISTRIBUTION 563 5.5.3.2 HYDRAULIC
DIAMETER OF MONOLITH 565 5.5.3.3 TRANSPORT DISTANCE IN CATALYST PHASE
565 5.5.3.4 MEASUREMENT OF EFFECTIVE DIFFUSION COEFFICIENTS 568 5.5.3.5
GRAVIMETRIC ANALYSIS 580 5.5.3.6 CATALYST DISTRIBUTION IN THE SUPPORT
584 5.5.4 CATALYST LOSS FROM THE REACTOR 584 FURTHER READING ON CATALYST
PREPARATION 586 REFERENCES 586 CHAPTER 6. COMBUSTION APPLICATIONS:
EXAMPLES OF MODELLING STUDIES 589 6.1 MODELLING A SINGLE MONOLITH
CHANNEL IN 2D 590 6.1.1 INVESTIGATING THE NUSSELT AND SHERWOOD NUMBERS
590 6.1.2 MASS TRANSFER LIMITATION AND THE LIGHT-OFF POINT 597 6.1.3
OXIDATION OF CO WITH LHHW KINETICS * MULTIPLE STEADY STATES 605 6.2
RADIATION LOSSES FROM A MONOLITH CHANNEL 609 6.3 DIFFUSION IN A MONOLITH
WASHCOAT * USE OF DIFFUSION BARRIER TO REDUCE ENTRANCE TEMPERATURE
GRADIENTS 613 6.4 UNDERSTANDING AND INTERPRETING LITERATURE RESULTS 617
6.5 INFLUENCE OF INTRUSIVE MEASURING DEVICES 628 6.6 CATALYTIC RADIANT
HEATERS 633 6.7 CATALYTIC INCINERATION OF ORGANIC EMISSIONS 643 6.8
SUMMARY 647 REFERENCES 648 XVI CONTENTS APPENDIX A APPENDIX * APPENDIX *
APPENDIX D APPENDIX E APPENDIX F USEFUL CONVERSIONS PHYSICAL PROPERTIES
OF CERAMIC AND METAL SUPPORTS PHYSICAL PROPERTIES OF GASES SUMMARY OF
DIMENSIONLESS GROUPS USEFUL MATHEMATICAL TRANSFORMATIONS A NOTE ON
SYMBOLS 651 654 660 661 670 671 INDEX 675
|
any_adam_object | 1 |
author | Hayes, Robert E. Kolaczkowski, S. T. |
author_facet | Hayes, Robert E. Kolaczkowski, S. T. |
author_role | aut aut |
author_sort | Hayes, Robert E. |
author_variant | r e h re reh s t k st stk |
building | Verbundindex |
bvnumber | BV012044001 |
callnumber-first | Q - Science |
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callnumber-raw | QD516 |
callnumber-search | QD516 |
callnumber-sort | QD 3516 |
callnumber-subject | QD - Chemistry |
classification_rvk | VE 6000 |
classification_tum | CIT 325f ERG 420f |
ctrlnum | (OCoLC)44019145 (DE-599)BVBBV012044001 |
dewey-full | 541.3/61 |
dewey-hundreds | 500 - Natural sciences and mathematics |
dewey-ones | 541 - Physical chemistry |
dewey-raw | 541.3/61 |
dewey-search | 541.3/61 |
dewey-sort | 3541.3 261 |
dewey-tens | 540 - Chemistry and allied sciences |
discipline | Chemie / Pharmazie Energietechnik, Energiewirtschaft Chemie-Ingenieurwesen |
format | Book |
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id | DE-604.BV012044001 |
illustrated | Illustrated |
indexdate | 2024-07-09T18:20:40Z |
institution | BVB |
isbn | 9056990926 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008151124 |
oclc_num | 44019145 |
open_access_boolean | |
owner | DE-703 DE-91G DE-BY-TUM DE-29T |
owner_facet | DE-703 DE-91G DE-BY-TUM DE-29T |
physical | XXXI, 681 S. Ill., graph. Darst. |
publishDate | 1997 |
publishDateSearch | 1997 |
publishDateSort | 1997 |
publisher | Gordon and Breach Science Publ. |
record_format | marc |
spelling | Hayes, Robert E. Verfasser aut Introduction to catalytic combustion R. E. Hayes and S. T. Kolaczkowski Amsterdam Gordon and Breach Science Publ. 1997 XXXI, 681 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Emissies (milieu) gtt Katalyse gtt Verbranding gtt Catalysis Chemical reactions Combustion Katalytische Oxidation (DE-588)4163425-1 gnd rswk-swf Katalytische Oxidation (DE-588)4163425-1 s DE-604 Kolaczkowski, S. T. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008151124&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Hayes, Robert E. Kolaczkowski, S. T. Introduction to catalytic combustion Emissies (milieu) gtt Katalyse gtt Verbranding gtt Catalysis Chemical reactions Combustion Katalytische Oxidation (DE-588)4163425-1 gnd |
subject_GND | (DE-588)4163425-1 |
title | Introduction to catalytic combustion |
title_auth | Introduction to catalytic combustion |
title_exact_search | Introduction to catalytic combustion |
title_full | Introduction to catalytic combustion R. E. Hayes and S. T. Kolaczkowski |
title_fullStr | Introduction to catalytic combustion R. E. Hayes and S. T. Kolaczkowski |
title_full_unstemmed | Introduction to catalytic combustion R. E. Hayes and S. T. Kolaczkowski |
title_short | Introduction to catalytic combustion |
title_sort | introduction to catalytic combustion |
topic | Emissies (milieu) gtt Katalyse gtt Verbranding gtt Catalysis Chemical reactions Combustion Katalytische Oxidation (DE-588)4163425-1 gnd |
topic_facet | Emissies (milieu) Katalyse Verbranding Catalysis Chemical reactions Combustion Katalytische Oxidation |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008151124&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT hayesroberte introductiontocatalyticcombustion AT kolaczkowskist introductiontocatalyticcombustion |