Multiphase flow dynamics: 3 Turbulence, gas absorption and release, diesel fuel properties
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
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| Ausgabe: | 1. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | XII, 308 S. Ill., graph. Darst. |
| ISBN: | 9783540714422 |
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| 245 | 1 | 0 | |a Multiphase flow dynamics |n 3 |p Turbulence, gas absorption and release, diesel fuel properties |c Nikolay I. Kolev |
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Datensatz im Suchindex
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| adam_text | NIKOLAY I. KOLEV MULTIPHASE FLOW DYNAMICS 3 TURBULENCE, GAS ABSORPTION
AND RELEASE, DIESEL FUEL PROPERTIES IST EDITION WITH 55 FIGURES 4Y
SPRINGER TABLE OF CONTENTS 1 SOME BASICS OF THE SINGLE-PHASE BOUNDARY
LAYER THEORY 1 1.1 FLOW OVER PLATES, VELOCITY PROFILES, SHARE FORCES,
HEAT TRANSFER 1 1.1.1 LAMINAR FLOW OVER THE ONE SITE OF A PLANE 1 1.1.2
TURBULENT FLOW PARALLEL TO PLANE 2 1.2 STEADY STATE FLOW IN PIPES WITH
CIRCULAR CROSS SECTIONS 4 1.2.1 HYDRAULIC SMOOTH WALL SURFACE 6 1.2.2
TRANSITION REGION 14 1.2.3 COMPLETE ROUGH REGION 14 1.2.4 HEAT TRANSFER
TO FLUID IN A PIPE 15 1.3 TRANSIENT FLOW IN PIPES WITH CIRCULAR CROSS
SECTIONS 21 NOMENCLATURE 23 REFERENCES 26 2 INTRODUCTION TO TURBULENCE
OF MULTI-PHASE FLOWS 29 2.1 BASIC IDEAS 29 2.2ISOTROPY R . 40 2.3
SCALES, EDDY VISCOSITY 41 2.3.1 SMALL SCALE TURBULENT MOTION 41 2.3.2
LARGE SCALE TURBULENT MOTION, KOLMOGOROV-PANDTL EXPRESSION 42 2.4K-EPS
FRAMEWORK 44 NOMENCLATURE 48 REFERENCES 53 3 SOURCES FOR FINE RESOLUTION
OUTSIDE THE BOUNDARY LAYER 55 3.1 BULK SOURCES 55 3.1.1 DEFORMATION OF
THE VELOCITY FIELD 55 3.1.2 BLOWING AND SUCTION 55 3.1.3 BUOYANCY DRIVEN
TURBULENCE GENERATION 56 3.1.4 TURBULENCE GENERATED IN PARTICLE TRACES .
3.2 TURBULENCE GENERATION DUE TO NUCLEATE BOILING 61 3.3 TREATMENT OF
THE BOUNDARY LAYER FOR NON BOILING FLOWS 62 3.4 INITIAL CONDITIONS 65
NOMENCLATURE 66 REFERENCES 73 X TABLE OF CONTENTS 4 SOURCE TERMS FOR
K-EPS MODELS IN POROUS STRUCTURES 75 4.1 SINGLE PHASE FLOW 75 4.1.1
STEADY DEVELOPED GENERATION DUE TO WALL FRICTION 75 4.1.2 HEAT TRANSFER
AT THE WALL FOR STEADY DEVELOPED FLOW 79 4.1.3 HEAT TRANSFER AT THE WALL
FOR NON DEVELOPED OR TRANSIENT FLOW 80 4.1.4 SINGULARITIES 81 4.2
MULTI-PHASE FLOW 81 4.2.1 STEADY DEVELOPED GENERATION DUE TO
WAH FRICTION 81 4.2.2 HEAT TRANSFER AT THE WALL FOR FORCED CONVECTION
WITHOUT BOILING 83 4.2.3 CONTINUUM-CONTINUUM INTERACTION 84 4.2.4
SINGULARITIES 85 4.2.5 DROPLETS DEPOSITION AT WALLS FOR STEADY DEVELOPED
FLOW 87 4.2.6 DROPLETS DEPOSITION AT WALLS FOR TRANSIENT FLOW 87
NOMENCLATURE 88 REFERENCES 91 5 INFLUENCE OF THE INTERFACIAL FORCES ON
THE TURBULENCE STRUCTURE 93 5.1 DRAG FORCES 93 5.2 THE ROLE OF THE LIFT
FORCE IN TURBULENT FLOWS 93 5.3 LUBRICATION FORCE IN THE WALL BOUNDARY
LAYER 98 5.4 THE ROLE OF THE DISPERSION FORCE IN TURBULENT FLOWS 99
5.4.1 DISPERSED PHASE IN LAMINAR CONTINUUM 99 5.4.2 DISPERSED PHASE IN
TURBULENT CONTINUUM 100 NOMENCLATURE 104 REFERENCES ... 106 6
PARTICLE-EDDY INTERACTIONS 109 6.1 THREE POPULAR MODELING TECHNIQUES 109
6.2 PARTICLE-EDDY INTERACTION WITHOUT COLLISIONS 110 6.2.1 RESPONSE
COEFFICIENT FOR SINGLE PARTICLE 110 6.2.2 RESPONDS COEFFICIENT FOR
CLOUDS OF PARTICLES 112 6.2.3 PARTICLE-EDDY INTERACTION TIME WITHOUT
COLLISIONS 112 6.3 PARTICLE-EDDY INTERACTION WITH COLLISIONS 113
NOMENCLATURE 114 REFERENCES 116 7 TWO GROUP K-EPS MODELS 119 7.1 SINGLE
PHASE FLOW: .* 119 7.2 TWO-PHASE FLOW 120 NOMENCLATURE 121 REFERENCES
123 8 SET OF BENCHMARKS FOR VERIFICATION OF K-EPS MODELS IN SYSTEM
COMPUTER CODES 125 8.1 INTRODUCTION..... 125 8.2 SINGLE PHASE CASES 126
TABLE OF CONTENTS XI 8.3 TWO-PHASE CASES 137 CONCLUSIONS 139
NOMENCLATURE 140 REFERENCES 142 9 SIMPLE ALGEBRAIC MODELS FOR EDDY
VISCOSITY IN BUBBLY FLOW 145 9.1 SINGLE PHASE FLOW IN ROD BUNDLES 145
9.1.1 PULSATIONS NORMAL TO THE WALL . . 146 9.1.2 PULSATION THROUGH THE
GAP 147 9.1.3 PULSATION PARALLEL TO THE WALL 150 9.2 TWO PHASE FLOW 150
9.2.1 SIMPLE ALGEBRAIC MODELS 150 9.2.2 LOCAL ALGEBRAIC MODELS IN THE
FRAMEWORK OF THE BOUSSINESQ S HYPOTHESIS 154 9.2.3 MODIFICATION OF THE
BOUNDARY LAYER SHARE DUE TO MODIFICATION OF THE BULK TURBULENCE 162
NOMENCLATURE 163 REFERENCES 169 10 LARGE EDDY SIMULATIONS 173 10.1
PHENOMENOLOGY 173 10.2 FILTERING - BRIEF INTRODUCTION 173 10.3 THE
EXTENSION OF THE AMSDEN ET AL. LES MODEL TO POROUS STRUCTURES 177
NOMENCLATURE 182 REFERENCES 184 11 SOLUBILITY OF O 2 , N 2 , H 2 AND CO
2 IN WATER 185 11.1 INTRODUCTION 185 11.2 OXYGEN IN WATER 193 11.3
NITROGEN WATER *. . 199 11.3 HYDROGEN WATER 203 11.4 CARBON
DIOXIDE-WATER 206 11.5 DIFFUSION COEFFICIENTS 209 11.6 EQUILIBRIUM
SOLUTION AND DISSOLUTION 211 NOMENCLATURE 212 REFERENCES 214 12
TRANSIENT SOLUTION AND DISSOLUTION OF GASSES IN LIQUID FLOWS 215 12.1
BUBBLES * 216 12.1.1 EXISTENCE OF MICRO-BUBBLES IN WATER 219 12.1.2
HETEROGENEOUS NUCLEATION AT WALLS 221 12.1.3 STEADY DIFFUSION MASS
TRANSFER OF THE SOLVENT ACROSS BUBBLE INTERFACE 224 12.1.4 INITIAL
BUBBLE GROWTH IN WALL BOUNDARY LAYER 228 12.1.3 TRANSIENT DIFFUSION MASS
TRANSFER OF THE SOLVENT ACROSS THE BUBBLE INTERFACE 229 TABLE OF
CONTENTS 12.2 DROPLETS 239 12.2.1 STEADY STATE GAS SITE DIFFUSION 239
12.2.2 TRANSIENT DIFFUSION INSIDE THE DROPLET 243 12.3 FILMS 246 12.3.1
GEOMETRICAL FILM-GAS CHARACTERISTICS 246 12.3.2 LIQUID SIDE MASS
TRANSFER DUE TO MOLECULAR DIFFUSION 248 12.3.3 LIQUID SIDE MASS TRANSFER
DUE TO TURBULENCE DIFFUSION 249 NOMENCLATURE 257 REFERENCES 263 13
THERMODYNAMIC AND TRANSPORT PROPERTIES OF DIESEL FUEL 269 13.1
INTRODUCTION 269 13.2 CONSTITUENTS OF DIESEL FUEL 271 13.3 AVERAGED
BOILING POINT AT ATMOSPHERIC PRESSURE 273 13.4 REFERENCE LIQUID DENSITY
POINT 274 13.5 CRITICAL TEMPERATURE, CRITICAL PRESSURE 275 13.6 MOLAR
WEIGHT, GAS CONSTANT 275 13.7 SATURATION LINE 276 13.8 LATENT HEAT OF
EVAPORATION 279 13.9 THE LIQUID DENSITY 280 13.9.1 THE VOLUMETRIC
THERMAL EXPANSION COEFFICIENT 281 13.9.2 ISOTHERMAL COEFFICIENT OF
COMPRESSIBILITY 283 13.10 LIQUID VELOCITY OF SOUND 284 13.11 THE LIQUID
SPECIFIC HEAT AT CONSTANT PRESSURE 285 13.12 SPECIFIC LIQUID ENTHALPY
288 13.13 SPECIFIC LIQUID ENTROPY 290 13.14 LIQUID SURFACE TENSION 292
13.15 THERMAL CONDUCTIVITY OF LIQUID DIESEL FUEL 292 13.16 CINEMATIC
VISCOSITY OF LIQUID DIESEL FUEL 294 13.17 DENSITY AS A FUNCTION OF
TEMPERATURE AND PRESSURE FOR DIESEL FUEL VAPOR 295 13.18 SPECIFIC
CAPACITY AT CONSTANT PRESSURE FOR DIESEL VAPOR 296 13.19 SPECIFIC
ENTHALPY FOR DIESEL FUEL VAPOR 298 13.20 SPECIFIC ENTROPY FOR DIESEL
FUEL VAPOR 299 13.21 THERMAL CONDUCTIVITY OF DIESEL FUEL VAPOR 300 13.22
CINEMATIC VISCOSITY OF DIESEL FUEL VAPOR 301 REFERENCES 301 APPENDIX
13.1 DYNAMIC VISCOSITY AND DENSITY FOR SATURATED N-OCTANE VAPOR 302
INDEX 305
|
| adam_txt |
NIKOLAY I. KOLEV MULTIPHASE FLOW DYNAMICS 3 TURBULENCE, GAS ABSORPTION
AND RELEASE, DIESEL FUEL PROPERTIES IST EDITION WITH 55 FIGURES 4Y
SPRINGER TABLE OF CONTENTS 1 SOME BASICS OF THE SINGLE-PHASE BOUNDARY
LAYER THEORY 1 1.1 FLOW OVER PLATES, VELOCITY PROFILES, SHARE FORCES,
HEAT TRANSFER 1 1.1.1 LAMINAR FLOW OVER THE ONE SITE OF A PLANE 1 1.1.2
TURBULENT FLOW PARALLEL TO PLANE 2 1.2 STEADY STATE FLOW IN PIPES WITH
CIRCULAR CROSS SECTIONS 4 1.2.1 HYDRAULIC SMOOTH WALL SURFACE 6 1.2.2
TRANSITION REGION 14 1.2.3 COMPLETE ROUGH REGION 14 1.2.4 HEAT TRANSFER
TO FLUID IN A PIPE 15 1.3 TRANSIENT FLOW IN PIPES WITH CIRCULAR CROSS
SECTIONS 21 NOMENCLATURE 23 REFERENCES 26 2 INTRODUCTION TO TURBULENCE
OF MULTI-PHASE FLOWS 29 2.1 BASIC IDEAS 29 2.2ISOTROPY R . 40 2.3
SCALES, EDDY VISCOSITY 41 2.3.1 SMALL SCALE TURBULENT MOTION 41 2.3.2
LARGE SCALE TURBULENT MOTION, KOLMOGOROV-PANDTL EXPRESSION 42 2.4K-EPS
FRAMEWORK 44 NOMENCLATURE 48 REFERENCES 53 3 SOURCES FOR FINE RESOLUTION
OUTSIDE THE BOUNDARY LAYER 55 3.1 BULK SOURCES 55 3.1.1 DEFORMATION OF
THE VELOCITY FIELD 55 3.1.2 BLOWING AND SUCTION 55 3.1.3 BUOYANCY DRIVEN
TURBULENCE GENERATION 56 3.1.4 TURBULENCE GENERATED IN PARTICLE TRACES .
3.2 TURBULENCE GENERATION DUE TO NUCLEATE BOILING 61 3.3 TREATMENT OF
THE BOUNDARY LAYER FOR NON BOILING FLOWS 62 3.4 INITIAL CONDITIONS 65
NOMENCLATURE 66 REFERENCES 73 X TABLE OF CONTENTS 4 SOURCE TERMS FOR
K-EPS MODELS IN POROUS STRUCTURES 75 4.1 SINGLE PHASE FLOW 75 4.1.1
STEADY DEVELOPED GENERATION DUE TO WALL FRICTION 75 4.1.2 HEAT TRANSFER
AT THE WALL FOR STEADY DEVELOPED FLOW 79 4.1.3 HEAT TRANSFER AT THE WALL
FOR NON DEVELOPED OR TRANSIENT FLOW 80 4.1.4 SINGULARITIES 81 4.2
MULTI-PHASE FLOW 81 4.2.1 STEADY DEVELOPED GENERATION DUE TO
WAH'FRICTION 81 4.2.2 HEAT TRANSFER AT THE WALL FOR FORCED CONVECTION
WITHOUT BOILING 83 4.2.3 CONTINUUM-CONTINUUM INTERACTION 84 4.2.4
SINGULARITIES 85 4.2.5 DROPLETS DEPOSITION AT WALLS FOR STEADY DEVELOPED
FLOW 87 4.2.6 DROPLETS DEPOSITION AT WALLS FOR TRANSIENT FLOW 87
NOMENCLATURE 88 REFERENCES 91 5 INFLUENCE OF THE INTERFACIAL FORCES ON
THE TURBULENCE STRUCTURE 93 5.1 DRAG FORCES 93 5.2 THE ROLE OF THE LIFT
FORCE IN TURBULENT FLOWS 93 5.3 LUBRICATION FORCE IN THE WALL BOUNDARY
LAYER 98 5.4 THE ROLE OF THE DISPERSION FORCE IN TURBULENT FLOWS 99
5.4.1 DISPERSED PHASE IN LAMINAR CONTINUUM 99 5.4.2 DISPERSED PHASE IN
TURBULENT CONTINUUM 100 NOMENCLATURE 104 REFERENCES . 106 6
PARTICLE-EDDY INTERACTIONS 109 6.1 THREE POPULAR MODELING TECHNIQUES 109
6.2 PARTICLE-EDDY INTERACTION WITHOUT COLLISIONS 110 6.2.1 RESPONSE
COEFFICIENT FOR SINGLE PARTICLE 110 6.2.2 RESPONDS COEFFICIENT FOR
CLOUDS OF PARTICLES 112 6.2.3 PARTICLE-EDDY INTERACTION TIME WITHOUT
COLLISIONS 112 6.3 PARTICLE-EDDY INTERACTION WITH COLLISIONS 113
NOMENCLATURE 114 REFERENCES 116 7 TWO GROUP K-EPS MODELS 119 7.1 SINGLE
PHASE FLOW: .* 119 7.2 TWO-PHASE FLOW 120 NOMENCLATURE 121 REFERENCES
123 8 SET OF BENCHMARKS FOR VERIFICATION OF K-EPS MODELS IN SYSTEM
COMPUTER CODES 125 8.1 INTRODUCTION. 125 8.2 SINGLE PHASE CASES 126
TABLE OF CONTENTS XI 8.3 TWO-PHASE CASES 137 CONCLUSIONS 139
NOMENCLATURE 140 REFERENCES 142 9 SIMPLE ALGEBRAIC MODELS FOR EDDY
VISCOSITY IN BUBBLY FLOW 145 9.1 SINGLE PHASE FLOW IN ROD BUNDLES 145
9.1.1 PULSATIONS NORMAL TO THE WALL .'. 146 9.1.2 PULSATION THROUGH THE
GAP 147 9.1.3 PULSATION PARALLEL TO THE WALL 150 9.2 TWO PHASE FLOW 150
9.2.1 SIMPLE ALGEBRAIC MODELS 150 9.2.2 LOCAL ALGEBRAIC MODELS IN THE
FRAMEWORK OF THE BOUSSINESQ' S HYPOTHESIS 154 9.2.3 MODIFICATION OF THE
BOUNDARY LAYER SHARE DUE TO MODIFICATION OF THE BULK TURBULENCE 162
NOMENCLATURE 163 REFERENCES 169 10 LARGE EDDY SIMULATIONS 173 10.1
PHENOMENOLOGY 173 10.2 FILTERING - BRIEF INTRODUCTION 173 10.3 THE
EXTENSION OF THE AMSDEN ET AL. LES MODEL TO POROUS STRUCTURES 177
NOMENCLATURE 182 REFERENCES 184 11 SOLUBILITY OF O 2 , N 2 , H 2 AND CO
2 IN WATER 185 11.1 INTRODUCTION 185 11.2 OXYGEN IN WATER 193 11.3
NITROGEN WATER *. '. 199 11.3 HYDROGEN WATER 203 11.4 CARBON
DIOXIDE-WATER 206 11.5 DIFFUSION COEFFICIENTS 209 11.6 EQUILIBRIUM
SOLUTION AND DISSOLUTION 211 NOMENCLATURE 212 REFERENCES 214 12
TRANSIENT SOLUTION AND DISSOLUTION OF GASSES IN LIQUID FLOWS 215 12.1
BUBBLES * 216 12.1.1 EXISTENCE OF MICRO-BUBBLES IN WATER 219 12.1.2
HETEROGENEOUS NUCLEATION AT WALLS 221 12.1.3 STEADY DIFFUSION MASS
TRANSFER OF THE SOLVENT ACROSS BUBBLE INTERFACE 224 12.1.4 INITIAL
BUBBLE GROWTH IN WALL BOUNDARY LAYER 228 12.1.3 TRANSIENT DIFFUSION MASS
TRANSFER OF THE SOLVENT ACROSS THE BUBBLE INTERFACE 229 TABLE OF
CONTENTS 12.2 DROPLETS 239 12.2.1 STEADY STATE GAS SITE DIFFUSION 239
12.2.2 TRANSIENT DIFFUSION INSIDE THE DROPLET 243 12.3 FILMS 246 12.3.1
GEOMETRICAL FILM-GAS CHARACTERISTICS 246 12.3.2 LIQUID SIDE MASS
TRANSFER DUE TO MOLECULAR DIFFUSION 248 12.3.3 LIQUID SIDE MASS TRANSFER
DUE TO TURBULENCE DIFFUSION 249 NOMENCLATURE 257 REFERENCES 263 13
THERMODYNAMIC AND TRANSPORT PROPERTIES OF DIESEL FUEL 269 13.1
INTRODUCTION 269 13.2 CONSTITUENTS OF DIESEL FUEL 271 13.3 AVERAGED
BOILING POINT AT ATMOSPHERIC PRESSURE 273 13.4 REFERENCE LIQUID DENSITY
POINT 274 13.5 CRITICAL TEMPERATURE, CRITICAL PRESSURE 275 13.6 MOLAR
WEIGHT, GAS CONSTANT 275 13.7 SATURATION LINE 276 13.8 LATENT HEAT OF
EVAPORATION 279 13.9 THE LIQUID DENSITY 280 13.9.1 THE VOLUMETRIC
THERMAL EXPANSION COEFFICIENT 281 13.9.2 ISOTHERMAL COEFFICIENT OF
COMPRESSIBILITY 283 13.10 LIQUID VELOCITY OF SOUND 284 13.11 THE LIQUID
SPECIFIC HEAT AT CONSTANT PRESSURE 285 13.12 SPECIFIC LIQUID ENTHALPY
288 13.13 SPECIFIC LIQUID ENTROPY 290 13.14 LIQUID SURFACE TENSION 292
13.15 THERMAL CONDUCTIVITY OF LIQUID DIESEL FUEL 292 13.16 CINEMATIC
VISCOSITY OF LIQUID DIESEL FUEL 294 13.17 DENSITY AS A FUNCTION OF
TEMPERATURE AND PRESSURE FOR DIESEL FUEL VAPOR 295 13.18 SPECIFIC
CAPACITY AT CONSTANT PRESSURE FOR DIESEL VAPOR 296 13.19 SPECIFIC
ENTHALPY FOR DIESEL FUEL VAPOR 298 13.20 SPECIFIC ENTROPY FOR DIESEL
FUEL VAPOR 299 13.21 THERMAL CONDUCTIVITY OF DIESEL FUEL VAPOR 300 13.22
CINEMATIC VISCOSITY OF DIESEL FUEL VAPOR 301 REFERENCES 301 APPENDIX
13.1 DYNAMIC VISCOSITY AND DENSITY FOR SATURATED N-OCTANE VAPOR 302
INDEX 305 |
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| author | Kolev, Nikolay Ivanov 1951- |
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| author_sort | Kolev, Nikolay Ivanov 1951- |
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| building | Verbundindex |
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| id | DE-604.BV022822102 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:40:30Z |
| indexdate | 2024-07-09T21:06:55Z |
| institution | BVB |
| isbn | 9783540714422 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016027447 |
| oclc_num | 184989689 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-703 DE-92 DE-634 DE-11 |
| owner_facet | DE-91G DE-BY-TUM DE-703 DE-92 DE-634 DE-11 |
| physical | XII, 308 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Springer |
| record_format | marc |
| spelling | Kolev, Nikolay Ivanov 1951- Verfasser (DE-588)110653262 aut Multiphase flow dynamics 3 Turbulence, gas absorption and release, diesel fuel properties Nikolay I. Kolev 1. ed. Berlin [u.a.] Springer 2007 XII, 308 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mehrphasenströmung (DE-588)4169315-2 gnd rswk-swf Dieselkraftstoff (DE-588)4197700-2 gnd rswk-swf Löslichkeit (DE-588)4114435-1 gnd rswk-swf Turbulente Strömung (DE-588)4117265-6 gnd rswk-swf Verbrennungsmotor (DE-588)4062661-1 gnd rswk-swf Mehrphasenströmung (DE-588)4169315-2 s Dieselkraftstoff (DE-588)4197700-2 s Turbulente Strömung (DE-588)4117265-6 s Löslichkeit (DE-588)4114435-1 s Verbrennungsmotor (DE-588)4062661-1 s DE-604 (DE-604)BV014569143 3 http://www.gbv.de/dms/ilmenau/toc/526816848.PDF Inhaltsverzeichnis HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016027447&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kolev, Nikolay Ivanov 1951- Multiphase flow dynamics Mehrphasenströmung (DE-588)4169315-2 gnd Dieselkraftstoff (DE-588)4197700-2 gnd Löslichkeit (DE-588)4114435-1 gnd Turbulente Strömung (DE-588)4117265-6 gnd Verbrennungsmotor (DE-588)4062661-1 gnd |
| subject_GND | (DE-588)4169315-2 (DE-588)4197700-2 (DE-588)4114435-1 (DE-588)4117265-6 (DE-588)4062661-1 |
| title | Multiphase flow dynamics |
| title_auth | Multiphase flow dynamics |
| title_exact_search | Multiphase flow dynamics |
| title_exact_search_txtP | Multiphase flow dynamics |
| title_full | Multiphase flow dynamics 3 Turbulence, gas absorption and release, diesel fuel properties Nikolay I. Kolev |
| title_fullStr | Multiphase flow dynamics 3 Turbulence, gas absorption and release, diesel fuel properties Nikolay I. Kolev |
| title_full_unstemmed | Multiphase flow dynamics 3 Turbulence, gas absorption and release, diesel fuel properties Nikolay I. Kolev |
| title_short | Multiphase flow dynamics |
| title_sort | multiphase flow dynamics turbulence gas absorption and release diesel fuel properties |
| topic | Mehrphasenströmung (DE-588)4169315-2 gnd Dieselkraftstoff (DE-588)4197700-2 gnd Löslichkeit (DE-588)4114435-1 gnd Turbulente Strömung (DE-588)4117265-6 gnd Verbrennungsmotor (DE-588)4062661-1 gnd |
| topic_facet | Mehrphasenströmung Dieselkraftstoff Löslichkeit Turbulente Strömung Verbrennungsmotor |
| url | http://www.gbv.de/dms/ilmenau/toc/526816848.PDF http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016027447&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV014569143 |
| work_keys_str_mv | AT kolevnikolayivanov multiphaseflowdynamics3 |
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Inhaltsverzeichnis