Verfügbarkeit: Multiphase flow dynamics

Multiphase flow dynamics: 2 Thermal and mechanical interactions

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Bibliographische Detailangaben
1. Verfasser:	Kolev, Nikolay Ivanov 1951- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2002
Schriftenreihe:	Engineering online library
Schlagworte:	Numerische Strömungssimulation Mehrphasenströmung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	692 S. Ill., graph. Darst.
ISBN:	3540430172

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MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1 FLOW REGIME TRANSITION CRITERIA . 1 1.1 INTRODUCTION . 1 1.2 POOL FLOW . 3 1.3 ADIABATIC FLOWS . 6 1.3.1 CHANNEL FLOW - VERTICAL PIPES . 6 1.3.2 CHANNEL FLOW - INCLINED PIPES . 10 1.4. HEATED CHANNELS . 18 1.5. POROUS MEDIA . 19 1.6 PARTICLES IN FILM BOILING . 20 1.7 ROD BUNDLES . 21 NOMENCLATURE . 23 REFERENCES . 25 2 DRAG FORCES . 27 2.1 INTRODUCTION . 27 2.2 DRAG COEFFICIENT FOR SINGLE BUBBLE . 28 2.3 FAMILY OF PARTICLES IN CONTINUUM . 31 2.4 DROPLETS - GAS . 35 2.5. SOLID PARTICLES-GAS IN PRESENCE OF LIQUID. SOLID PARTICLES-LIQUID IN PRESENCE OF A GAS . 37 2.5.1 SOLID PARTICLES: FREE PARTICLES REGIME . 38 2.5.2 SOLID PARTICLES IN BUBBLY FLOW . 40 2.5.3 SOLID PARTICLES: DENSE PACKED REGIME . 43 2.6. ANNULAR FLOW . 48 2.7. INVERTED ANNULAR FLOW . 54 2.8. STRATIFIED FLOW IN HORIZONTAL OR INCLINED RECTANGULAR CHANNELS . 55 2.9. STRATIFIED FLOW IN HORIZONTAL OR INCLINED PIPES . 59 NOMENCLATURE . 63 REFERENCES . 66 3 FRICTION PRESSURE DROP . 69 3.1 INTRODUCTION . 69 3.2 SINGLE-PHASE FLOW . 69 3.3 TWO-PHASE FLOW . 72 XII TABLE OF CONTENTS 3.4 THREE-DIMENSIONAL FLOW IN A POROUS STRUCTURE . 76 3.5 HEATED CHANNELS . 77 3.6 THREE-PHASE FLOW . 79 NOMENCLATURE . 82 REFERENCES . 84 4 DIFFUSION VELOCITIES FOR ALGEBRAIC SLIP MODELS . 85 4.1 INTRODUCTION . 85 4.2 DRAG AS A FUNCTION OF THE RELATIVE VELOCITY . 86 4.2.1 WALL FORCE NOT TAKEN INTO ACCOUNT . 86 4.2.2 WALL FORCES TAKEN INTO ACCOUNT . 90 4.3 TWO VELOCITY FIELDS . 91 4.3.1 SINGLE BUBBLE TERMINAL VELOCITY . 91 4.3.2 SINGLE PARTICLE TERMINAL VELOCITY . 95 4.3.3 CROSS SECTION AVERAGED BUBBLE RISE VELOCITY IN PIPES - DRIFT FLUX MODELS . 97 4.3.4 CROSS SECTION AVERAGED PARTICLE SINK VELOCITY IN PIPES - DRIFT FLUX MODELS . 116 4.4 SLIP MODELS . 119 4.5 THREE VELOCITY FIELDS - ANNULAR DISPERSED FLOW . 121 4.6 THREE-PHASE FLOW . 122 NOMENCLATURE . 125 REFERENCES . 127 5 ENTRAINMENT IN ANNULAR TWO-PHASE FLOW . 131 5.1. INTRODUCTION . 131 5.2. SOME BASICS . 132 5.3. CORRELATIONS . 133 5.4 SIZE OF THE ENTRAINED DROPLETS . 141 NOMENCLATURE . 143 REFERENCES . 146 6 DEPOSITION IN ANNULAR TWO-PHASE FLOW . 149 6.1 INTRODUCTION . 149 6.2 ANALOGY BETWEEN HEAT AND MASS TRANSFER . 149 6.3 FLUCTUATION MECHANISM IN THE BOUNDARY LAYER . 151 6.4 ZAICHIKS THEORY . 152 6.5 DEPOSITION CORRELATIONS . 153 NOMENCLATURE . 157 REFERENCES . 160 7 INTRODUCTION TO FRAGMENTATION AND COALESCENCE . 163 7.1 INTRODUCTION . 163 7.2 GENERAL REMARKS ABOUT FRAGMENTATION . 166 7.3 GENERAL REMARKS ABOUT COALESCENCE . 167 7.3.1 CONVERGING DISPERSE FIELD . 167 TABLE OF CONTENTS XIII 7.3.2 ANALOGY TO THE MOLECULAR KINETIC THEORY . 168 7.4 SUPERPOSITION OF DIFFERENT DROPLET COALESCENCE MECHANISMS . 173 7.5 SUPERPOSITION OF DIFFERENT BUBBLE COALESCENCE MECHANISMS . 174 7.6 GENERAL REMARKS ABOUT PARTICLE SIZE FORMATION IN PIPES . 175 NOMENCLATURE . 179 REFERENCES . 182 8 ACCELERATION INDUCED DROPLET AND BUBBLE FRAGMENTATION . 185 8.1 CRITICAL WEBER NUMBER . 185 8.2 FRAGMENTATION MODES . 196 8.3 RELATIVE VELOCITY AFTER FRAGMENTATION . 200 8.4 BREAKUP TIME . 203 8.5 PARTICLE PRODUCTION RATE CORRELATIONS . 210 8.5.1 VIBRATION BREAKUP . 210 8.5.2 BAG BREAKUP . 211 8.5.3 BAG AND STAMEN BREAKUP . 212 8.5.4 SHEET STRIPPING AND WAVE CREST STRIPPING FOLLOWING BY CATASTROPHIC BREAKUP . 213 8.6 DROPLETS PRODUCTION DUE TO HIGHLY ENERGETIC COLLISIONS . 221 8.7 ACCELERATION INDUCED BUBBLE FRAGMENTATION . 223 NOMENCLATURE . 227 REFERENCES . 229 9 TURBULENCE INDUCED PARTICLE FRAGMENTATION AND COALESCENCE . 233 9.1. HOMOGENEOUS TURBULENCE CHARACTERISTICS . 233 9.2 REACTION OF A PARTICLE TO THE ACCELERATION OF THE SURROUNDING CONTINUUM . 237 9.3 REACTION OF PARTICLE ENTRAINED INSIDE THE TURBULENT VORTEX - INERTIAL RANGE . 239 9.4 STABILITY CRITERION FOR BUBBLES IN CONTINUUM . 241 9.5 TURBULENCE ENERGY DISSIPATION DUE TO THE WALL FRICTION . 244 9.6 TURBULENCE ENERGY DISSIPATION DUE TO THE RELATIVE MOTION BETWEEN PARTICLES AND CONTINUUM . 246 9.7 BUBBLE COALESCENCE PROBABILITY . 248 9.8 COALESCENCE PROBABILITY OF SMALL DROPLETS . 252 NOMENCLATURE . 254 REFERENCES . 256 10 LIQUID AND GAS JET DISINTEGRATION . 259 10.1 LIQUID JET DISINTEGRATION IN POOLS . 259 10.2 BOUNDARY OF DIFFERENT FRAGMENTATION MECHANISMS . 262 10.3 SIZE OF THE LIGAMENTS . 264 10.4 UNBOUNDED INSTABILITY CONTROLLING JET FRAGMENTATION . 265 10.4.1 NO AMBIENT INFLUENCE . 265 10.4.2 AMBIENT INFLUENCE . 266 XIV TABLE OF CONTENTS 10.4.3 JETS PRODUCING FILM BOILING IN THE AMBIENT LIQUID . 269 10.4.4 AN ALTERNATIVE APPROACH . 271 10.4.5 JETS PENETRATING TWO-PHASE MIXTURES . 272 10.4.6 PARTICLE PRODUCTION RATE . 273 10.5. JET EROSION BY HIGH VELOCITY GAS ENVIRONMENT . 273 10.6. JET FRAGMENTATION IN PIPES . 275 10.7. GAS JET DISINTEGRATION IN POOLS.: . 276 NOMENCLATURE . 279 REFERENCES . 282 11 FRAGMENTATION OF MELT IN COOLANT . 285 11.1 INTRODUCTION . 285 11.2 VAPOR THICKNESS IN FILM BOILING . 287 11.3 AMOUNT OF MELT SURROUNDED BY CONTINUOUS WATER . 289 11.4 THERMO-MECHANICAL FRAGMENTATION OF LIQUID METAL IN WATER . 290 11.4.1 EXTERNAL TRIGGERS . 291 11.4.2 EXPERIMENTAL OBSERVATIONS . 296 11.4.3 THE MECHANISM OF THE THERMAL FRAGMENTATION . 302 11.5 PARTICLE PRODUCTION RATE DURING THE THERMAL FRAGMENTATION . 318 11.6 TANG'S THERMAL FRAGMENTATION MODEL . 320 11.7 THEN'S THERMAL FRAGMENTATION MODEL . 323 11.8 OXIDATION . 323 11.9 SUPERPOSITION OF THERMAL FRAGMENTATION . 324 11.9.1 INERT GASES . 324 11.9.2 COOLANT VISCOSITY INCREASE . 325 11.9.3 SURFACTANTS . 325 11.9.4 MELT VISCOSITY . 326 NOMENCLATURE . 327 REFERENCES . 330 12 NUCLEATION IN LIQUIDS . 337 12.1 INTRODUCTION . 337 12.2 NUCLEATION ENERGY, EQUATION OFKLEVIN AND LAPLACE . 338 12.3 NUCLEUS CAPABLE TO GROW . 340 12.4 SOME USEFUL FORMS OF THE CLAUSIUS-CLAPEYRON EQUATION, MEASURES OF SUPERHEATING . 342 12.5 NUCLEATION KINETICS . 343 12.5.1 HOMOGENEOUS NUCLEATION . 343 12.5.2 HETEROGENEOUS NUCLEATION . 345 12.6 MAXIMUM SUPERHEAT . 351 12.7 CRITICAL MASS FLOW RATE IN SHORT PIPES, ORIFICES AND NOZZLES . 355 12.8 NUCLEATION IN THE PRESENCE OF NON-CONDENSABLE GASES . 355 12.9 ACTIVATED NUCLEATION SITE DENSITY - STATE OF THE ART . 357 12.10. CONCLUSIONS AND RECOMMENDATIONS . 362 NOMENCLATURE . 362 REFERENCES . 364 TABLE OF CONTENTS XV 13 BUBBLE GROWTH IN SUPERHEATED LIQUID . 369 13.1 INTRODUCTION . 369 13.2 THE THERMALLY CONTROLLED BUBBLE GROWTH . 370 13.3 THE MIKIC SOLUTION . 373 13.4 HOW TO COMPUTE THE MASS SOURCE TERMS FOR THE AVERAGED CONSERVATION EQUATIONS? . 377 13.4.1 NON-AVERAGED MASS SOURCE TERMS . 377 13.4.2 THE AVERAGED MASS SOURCE TERMS . 378 13.5. SUPERHEATED STEAM . 379 13.6 DIFFUSION CONTROLLED EVAPORATION INTO MIXTURE OF GASES INSIDE THE BUBBLE . 380 13.7 CONCLUSIONS . 381 NOMENCLATURE . 382 REFERENCES . 385 APPENDIX 13.1 RADIUS OF A SINGLE BUBBLE IN A SUPERHEATED LIQUID AS A FUNCTION OF TIME . 386 14 CONDENSATION OF A PURE STEAM BUBBLE IN A SUBCOOLED LIQUID . 393 14.1 INTRODUCTION . 393 14.2 STAGNANT BUBBLE . 393 14.3 MOVING BUBBLE . 395 14.4 NON-AVERAGED SOURCE TERMS . 400 14.5 AVERAGED SOURCE TERMS . 401 14.6 CHANGE OF THE BUBBLE NUMBER DENSITY DUE TO CONDENSATION . 403 14.7 PURE STEAM BUBBLE DRIFTING IN TURBULENT CONTINUOUS LIQUID . 404 14.8 VAPOR CONDENSATION FROM A GAS MIXTURE INSIDE BUBBLES SURROUNDED BY SUBCOOLED LIQUID . 407 14.8.1 THERMALLY CONTROLLED COLLAPSE . 407 14.8.2 DIFFUSION CONTROLLED COLLAPSE . 408 NOMENCLATURE . 409 REFERENCES . 413 15 BUBBLE DEPARTURE DIAMETER . 415 15.1 HOW ACCURATELY CAN WE PREDICT BUBBLE DEPARTURE DIAMETER FOR BOILING ? . 415 15.2 MODEL DEVELOPMENT . 417 15.3 COMPARISON WITH EXPERIMENTAL DATA . 423 15.4 SIGNIFICANCE . 426 15.5 SUMMARY AND CONCLUSIONS . 427 NOMENCLATURE . 428 REFERENCES . 429 16 HOW ACCURATELY CAN WE PREDICT NUCLEATE BOILING ? . 433 16.1 INTRODUCTION . 433 16.2 NEW PHENOMENOLOGICAL MODEL FOR NUCLEATE POOL BOILING . 438 XVI TABLE OF CONTENTS 16.2.1 BASIC ASSUMPTIONS . 438 16.2.2 PROPOSED MODEL . 440 16.3 DATA COMPARISON . 442 16.4 SYSTEMATIC INSPECTION OF ALL THE USED HYPOTHESES . 446 16.5 SIGNIFICANCE . 447 16.6 CONCLUSIONS. 447 NOMENCLATURE . 448 REFERENCES . 450 APPENDIX 16.1 STATE OF THE ART OF NUCLEATE POOL BOILING MODELING . 453 APPENDIX 16.2. SOME EMPIRICAL CORRELATIONS FOR NUCLEATE BOILING . 459 17 HETEROGENEOUS NUCLEATION AND FLASHING IN ADIABATIC PIPES . 461 17.1 INTRODUCTION . 461 17.2 BUBBLES GENERATED DUE TO NUCLEATION AT THE WALL . 462 17.3 BUBBLE GROWTH IN THE BULK . 463 17.4 BUBBLE FRAGMENTATION AND COALESCENCE . 464 17.5. FILM FLASHING BUBBLE GENERATION IN ADIABATIC PIPE FLOW . 465 17.6 VERIFICATION OF THE MODEL . 467 17.7 SIGNIFICANCE AND CONCLUSIONS . 477 NOMENCLATURE . 478 REFERENCES . 480 18 BOILING OF SUBCOOLED LIQUID . 483 18.1 INTRODUCTION . 483 18.2 INITIATION OF VISIBLE BOILING ON THE HEATED SURFACE . 483 18.3 LOCAL EVAPORATION AND CONDENSATION . 485 18.3.1 RELAXATION THEORY . 485 18.3.2 BOUNDARY LAYER TREATMENT . 487 NOMENCLATURE . 490 REFERENCES . 491 19 NATURAL CONVECTION FILM BOILING . 493 19.1 MINIMUM FILM BOILING TEMPERATURE . 493 19.2 FILM BOILING IN HORIZONTAL UPWARDS-ORIENTED PLATES . 494 19.3 HORIZONTAL CYLINDER . 496 19.4 SPHERE . 496 NOMENCLATURE . 496 REFERENCES . 498 20 FORCED CONVECTION BOILING . 499 20.1 CONVECTIVE BOILING OF SATURATED LIQUID . 499 20.2 FORCED CONVECTION FILM BOILING . 501 20.2.1 TUBES . 501 20.2.2 ANNULAR CHANNEL . 504 20.2.3 TUBES AND ANNULAR CHANNELS . 505 20.2.4 VERTICAL FLOW AROUND ROD BUNDLES . 505 TABLE OF CONTENTS XVII 20.3 TRANSITION BOILING . 506 20.4 CRITICAL HEAT FLUX . 507 20.4.1 THE HYDRODYNAMIC STABILITY THEORY OF FREE CONVECTION DNB . 508 20.4.2 FORCED CONVECTION DNB AND DO CORRELATIONS . 511 20.4.3 THE 1995 LOOK-UP TABLE . 515 NOMENCLATURE . 515 REFERENCES . 518 21 FILM BOILING ON VERTICAL PLATES AND SPHERES . 521 21.1. PLATE . 521 21.1.1. INTRODUCTION . 521 21.1.2. STATE OF THE ART . 522 21.1.3. PROBLEM DEFINITION . 523 21.1.4. SIMPLIFYING ASSUMPTIONS . 524 21.1.5 ENERGY BALANCE AT THE VAPOR-LIQUID INTERFACE, VAPOR FILM THICKNESS, AVERAGE HEAT TRANSFER COEFFICIENT . 527 21.1.6. ENERGY BALANCE OF THE LIQUID BOUNDARY LAYER, LAYER THICKNESS ' RATIO . 531 21.1.7. AVERAGED HEAT FLUXES . 534 21.1.8. EFFECT OF THE INTERFACIAL DISTURBANCES . 536 21.1.9 COMPARISON OF THE THEORY WITH THE RESULTS OF OTHER AUTHORS . 537 21.1.10. VERIFICATION USING THE EXPERIMENTAL DATA . 539 1 21.1.11. CONCLUSIONS . 540 21.1.12. PRACTICAL SIGNIFICANCE . 540 ; 21.2 SPHERE . 541 21.2.1. INTRODUCTION . 541 21.2.2. PROBLEM DEFINITION . 541 ' 21.2.3. SOLUTION METHOD . 541 21.2.4 MODEL . 542 ' 21.2.5 DATA COMPARISON . 552 21.2.5 CONCLUSIONS . 555 NOMENCLATURE . 555 REFERENCES . 559 APPENDIX 21.1 NATURAL CONVECTION - VERTICAL PLATE . 561 APPENDIX 22.2 PREDOMINANT FORCED CONVECTION ONLY - VERTICAL PLATE . 562 22 LIQUID DROPLETS . 563 22.1 SPONTANEOUS CONDENSATION OF PURE SUBCOOLED STEAM - NUCLEATION . 563 22.1.1 CRITICAL NUCLEATION SIZE . 564 22.1.2 NUCLEATION KINETICS, HOMOGENEOUS NUCLEATION . 567 22.1.3 DROPLET GROWTH . 569 22.1.4 SELF-CONDENSATION STOP . 571 22.2 HEAT TRANSFER ACROSS DROPLET INTERFACE WITHOUT MASS TRANSFER . 572 22.3 DIRECT CONTACT CONDENSATION OF PURE STEAM ON SUBCOOLED DROPLET . 578 22.4 SPONTANEOUS FLASHING OF SUPERHEATED DROPLET . 580 XVIII TABLE OF CONTENTS 22.5 EVAPORATION OF SATURATED DROPLETS IN SUPERHEATED GAS . 585 22.6 DROPLET EVAPORATION IN GAS MIXTURE . 588 NOMENCLATURE . 594 REFERENCES . 595 23 HEAT AND MASS TRANSFER AT THE FILM-GAS INTERFACE . 599 23.1 GEOMETRICAL FILM-GAS CHARACTERISTICS . 599 23.2 CONVECTIVE HEAT TRANSFER . 601 23.2.1 GAS SIDE HEAT TRANSFER . 602 23.2.2 LIQUID SIDE HEAT TRANSFER DUE TO CONDUCTION . 605 23.2.3 LIQUID SIDE HEAT CONDUCTION DUE TO TURBULENCE . 607 23.3 SPONTANEOUS FLASHING OF SUPERHEATED FILM . 615 23.4 EVAPORATION OF SATURATED FILM IN SUPERHEATED GAS . 616 23.5 CONDENSATION OF PURE STEAM ON SUBCOOLED FILM . 617 23.6 EVAPORATION OR CONDENSATION IN PRESENCE OF NON-CONDENSABLE GASES 618 NOMENCLATURE . ? . 621 REFERENCES . 623 24 CONDENSATION AT COOLED WALLS . 625 24.1 PURE STEAM CONDENSATION . 625 24.1.1 ONSET OF THE CONDENSATION . 625 24.1.2 CONDENSATION FROM STAGNANT STEAM (NUSSELT 1916) AT LAMINAR LIQUID FILM . 626 24.1.3 CONDENSATION FROM STAGNANT STEAM AT TURBULENT LIQUID FILM (GRIGUL 1942) . 626 24.2. CONDENSATION FROM FORCED CONVECTION TWO-PHASE FLOW AT LIQUID FILM. 628 24.2.1 DOWN FLOW OF VAPOR ACROSS HORIZONTAL TUBES . 628 24.2.2 COLLIER CORRELATION . 629 24.2.3 BOYKO AND KRUJILIN APPROACH . 629 24.2.4 THE SHAH MODIFICATION OF THE BOYKO AND KRUJILIN APPROACH . 630 24.3 STEAM CONDENSATION FROM MIXTURE CONTAINING NON-CONDENSING GASES. 630 24.3.1 COMPUTATION OF THE MASS TRANSFER COEFFICIENT . 632 NOMENCLATURE . 634 REFERENCES . 636 25 IMPLEMENTATION OF THE DISCRETE ORDINATE METHOD FOR RADIATION TRANSPORT IN MULTI-PHASE COMPUTER CODES . 639 25.1 INTRODUCTION. 639 25.1.1 DIMENSIONS OF THE PROBLEM . 639 25.1.2 MICRO VERSUS MACRO-INTERACTIONS . 640 25.1.3 THE RADIATION TRANSPORT EQUATION - RTE . 640 25.2 DISCRETE ORDINATE METHOD . 641 25.2.1 DISCRETIZATION OF THE COMPUTATIONAL DOMAIN FOR THE DESCRIPTION OF THE FLOW . 643 25.2.2 FINITE VOLUME REPRESENTATION OF THE RADIATION TRANSPORT EQUATION . 644 25.2.3 BOUNDARY CONDITIONS . 650 TABLE OF CONTENTS XIX ! 25.3 MATERIAL PROPERTIES . 652 25.3.1 SOURCE TERMS - EMISSION FROM HOT SURFACES WITH KNOWN J TEMPERATURE . 652 ( 25.3.2 SPECTRAL ABSORPTION COEFFICIENT OF WATER . 653 J 25.3.3 SPECTRAL ABSORPTION COEFFICIENT OF WATER VAPOR AND OTHER GASES . 657 25.4 SPECTRAL AND VOLUME-AVERAGED TRANSPORT PROPERTIES FOR SOME ' PARTICULAR CASES OCCURRING IN MELT-WATER INTERACTION . 657 , 25.4.1 SPHERICAL CAVITY OF GAS INSIDE A MOLTEN MATERIAL . 658 I 25.4.2 CONCENTRIC SPHERES OF WATER DROPLETS, SURROUNDED BY VAPOR, SURROUNDED BY MOLTEN MATERIAL . 659 25.4.3 CLOUDS OF SPHERICAL PARTICLES OF RADIATING MATERIAL SURROUNDED BY A LAYER OF VAPOR SURROUNDED BY WATER - LANZENBERGER ' S SOLUTION . 663 25.4.4 CHAIN OF INFINITE NUMBER OF WIGNER CELLS . 679 25.4.5 APPLICATION OF LANZENBERGERS ' S SOLUTION . 680 NOMENCLATURE . 682 REFERENCES . 683 26 VALIDATION OF MULTI-PHASE FLOW MODELS BY COMPARISON WITH EXPERIMENTAL DATA AND ANALYTICAL BENCHMARKS (ON CD ATTACHED TO VOL.L) . 1 26.1 INTRODUCTION . 3 26.2 MATERIAL RELOCATION - GRAVITATIONAL WAVES (2D) . 8 26.2.1 U-TUBE BENCHMARKS . 8 ' 26.2.2 GRAVITATIONAL 2D WAVES . 13 26.3 STEADY STATE SINGLE-PHASE NOZZLE FLOW . 14 26.4 PRESSURE WAVES - SINGLE PHASE . 16 26.4.1 GAS IN A SHOCK TUBE . 16 26.4.2 WATER IN A SHOCK TUBE . 19 26.5 2D N 2 EXPLOSION IN SPACE FILLED PREVIOUSLY WITH AIR (SGI DLL EXPERIMENTAL 26.6 2D N 2 EXPLOSION IN SPACE WITH INTERNALS FILLED PREVIOUSLY WITH WATER (SGI 93 EXPERIMENT) . 23 26.7 FILM ENTRAINMENT IN PIPE FLOW . 27 26.8 WATER FLASHING IN NOZZLE FLOW . 29 26.9 PIPE BLOW-DOWN WITH FLASHING . 33 26.9.1 SINGLE PIPE . 33 26.9.2 COMPLEX PIPE NETWORK . 37 26.10 BOILING IN PIPES AND ROD BUNDLES, CRITICAL HEAT FLUX, POST CRITICAL HEAT FLUX HEAT TRANSFER . 37 26.11 FILM BOILING . 46 26.12 BEHAVIOR OF CLOUDS OF COLD AND VERY HOT SPHERES IN WATER . 48 26.13 EXPERIMENTS WITH DYNAMIC FRAGMENTATION AND COALESCENCE . 52 26.13.1 L14 EXPERIMENT . 53 26.13.2 L20 AND L24 EXPERIMENTS . 56 ' 26.13.3 UNCERTAINTY IN THE PREDICTION OF NON-EXPLOSIVE MELT-WATER INTERACTIONS . 58 26.13.4 CONCLUSIONS . 59 XX TABLE OF CONTENTS 26.14 L28, L31 EXPERIMENT . 60 26.15 PREMIX 13 EXPERIMENT . 64 26.16 RIT AND IKE EXPERIMENTS . 69 26.17 ASSESSMENT FOR DETONATION ANALYSIS . 70 26.18 EXAMPLES OF 3D CAPABILITIES . 72 26.18.1 CASE 1 RIGID BODY STEADY ROTATION PROBLEM . 72 26.18.2 CASE 2 PURE RADIAL SYMMETRIC FLOW . 73 26.18.3 CASE 3 RADIAL-AZIMUTHAL SYMMETRIC FLOW . 75 26.18.4 CASE 4 SMALL BREAK LOSS OF COOLANT . 77 26.18.5 CASE 5 ASYMMETRIC STEAM-WATER INTERACTION IN VESSEL [65] . 79 26.18.6 CASE 6 MELT RELOCATION IN PRESSURE VESSEL . 83 26.19 GENERAL CONCLUSIONS . 85 REFERENCES . 85
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author	Kolev, Nikolay Ivanov 1951-
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illustrated	Illustrated
indexdate	2024-08-24T00:30:39Z
institution	BVB
isbn	3540430172
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-009906278
oclc_num	76337613
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physical	692 S. Ill., graph. Darst.
publishDate	2002
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publishDateSort	2002
publisher	Springer
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series2	Engineering online library
spelling	Kolev, Nikolay Ivanov 1951- Verfasser (DE-588)110653262 aut Multiphase flow dynamics 2 Thermal and mechanical interactions Nikolay I. Kolev Berlin [u.a.] Springer 2002 692 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Engineering online library Numerische Strömungssimulation (DE-588)4690080-9 gnd rswk-swf Mehrphasenströmung (DE-588)4169315-2 gnd rswk-swf Mehrphasenströmung (DE-588)4169315-2 s Numerische Strömungssimulation (DE-588)4690080-9 s DE-604 (DE-604)BV014569143 2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009906278&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kolev, Nikolay Ivanov 1951- Multiphase flow dynamics Numerische Strömungssimulation (DE-588)4690080-9 gnd Mehrphasenströmung (DE-588)4169315-2 gnd
subject_GND	(DE-588)4690080-9 (DE-588)4169315-2
title	Multiphase flow dynamics
title_auth	Multiphase flow dynamics
title_exact_search	Multiphase flow dynamics
title_full	Multiphase flow dynamics 2 Thermal and mechanical interactions Nikolay I. Kolev
title_fullStr	Multiphase flow dynamics 2 Thermal and mechanical interactions Nikolay I. Kolev
title_full_unstemmed	Multiphase flow dynamics 2 Thermal and mechanical interactions Nikolay I. Kolev
title_short	Multiphase flow dynamics
title_sort	multiphase flow dynamics thermal and mechanical interactions
topic	Numerische Strömungssimulation (DE-588)4690080-9 gnd Mehrphasenströmung (DE-588)4169315-2 gnd
topic_facet	Numerische Strömungssimulation Mehrphasenströmung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009906278&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV014569143
work_keys_str_mv	AT kolevnikolayivanov multiphaseflowdynamics2

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