Multiphase flow dynamics: 4 Nuclear thermal hydraulics
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
[2009]
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| Ausgabe: | 1. ed. |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXXII, 745 S. Ill., graph. Darst. |
| ISBN: | 9783540929178 |
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Datensatz im Suchindex
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| adam_text | ALLOWED FOR VARIABLE EFFECTIVE BUBBLE SIZE 60 TABLE OF CONTENTS 1. HEAT
RELEASE IN THE REACTOR CORE 1 1.1 THERMAL POWER AND THERMAL POWERDENSITY
1 1.2 THERMAL POWERDENSITY AND FUEL MATERIAL 4 1.3 THERMAL POWER DENSITY
AND MODERATOR TEMPERATURE 5 1.4 SPATIAL DISTRIBUTION OF THE THERMAL
POWER DENSITY 6 1.5 EQUALIZING OF THE SPATIAL DISTRIBUTION OF THE
THERMAL POWER DENSITY 8 1.6 NOMENCLATURE 12 REFERENCES 13 2. TEMPERATURE
INSIDE THE FUEL ELEMENTS 15 2.1 STEADY STATE TEMPERATURE FIELD 15 2.2
TRANSIENT TEMPERATURE FIELD 23 2.3 INFLUENCE OF THE CLADDING OXIDATION,
HYDROGEN DIFFUSION AND OF THE CORROSION PRODUCT DEPOSITION 28 2.3.1
CLADDING OXIDATION 28 2.3.2 HYDROGEN DIFFUSION 29 2.3.3 DEPOSITION 29
2.4 NOMENCLATURE 30 REFERENCES 31 3. THE SIMPLE STEADY BOITING FLOW IN
A PIPE 33 3.1 MASS CONSERVATION 35 3.2 MIXTURE MOMENTUM EQUATION 36 3.3
ENERGY CONSERVATION 39 3.4 THE IDEA OF MECHANICAL AND THERMODYNAMIC
EQUILIBRIUM 41 3.5 RELAXING THE ASSUMPTION OF MECHANICAL EQUILIBRIUM 42
3.6 RELAXING THE ASSUMPTION OF THERMODYNAMIC EQUILIBRIUM 43 3.7 THE
RELAXATION METHOD 45 3.8 THE BOUNDARY LAYER TREATMENT 50 3.9 THE
BOUNDARY LAYER TREATMENT WITH CONSIDERED VARIABLE EFFECTIVE BUBBLE SIZE
52 3.10 SATURATED FLOW BOILING HEAT TRANSFER 56 3.11 COMBINING THE
ASYMPTOTIC METHOD WITH BOUNDARY LAYER TREATMENT BIBLIOGRAFISCHE
INFORMATIONEN HTTP://D-NB.INFO/991529529 DIGITALISIERT DURCH XXVI TABLE
OF CONTENTS 3.12 SEPARATED MOMENTAN EQUATIONS AND BUBBLE DYNAMICS 60
3.13 NOMENCLATURE 68 REFERENCES 71 APPENDIX 3.1: THE SANI S (1960) DATA
FOR FLOW BOILING IN PIPE 73 4. THE SIMPLE STEADY THREE-FLUID BOILING
FLOW IN A PIPE 77 4.1 FLOW REGIME TRANSITION SLUG TO CHURN TURBULENT
FLOW 78 4.2 INSTANTANEOUS LIQUID REDISTRIBUTION IN FILM AND DROPLETS 79
4.3 RELAXING THE ASSUMPTION FOR INSTANTANEOUS LIQUID REDISTRIBUTION IN
FILM AND DROPLETS, ENTRAINMENT AND DEPOSITION 81 4.4 DRIFT FLUX
CORRELATIONS 84 4.5 SEPARATED MOMENTUM EQUATION 86 4.6 DYNAMIC EVOLUTION
OF THE MEAN DROPLET SIZE 89 4.6.1 DROPLET SIZE STABILITY LIMIT 89 4.6.2
DROPLET PRODUCTION RATE DUE TO FRAGMENTATION 90 4.6.3 DURATION OF THE
FRAGMENTATION 90 4.6.4 COLLISION AND COALESCENCE 92 4.7 HEAT TRANSFER 93
4.8 MASS TRANSFER 95 4.9 COMPARISON WITH EXPERIMENTS 98 4.10
NOMENCLATURE 102 REFERENCES 105 5. CORE THERMAL HYDRAULIC 107 5.1
REACTOR PRESSURE VESSELS 107 5.2 STEADY STATE FLOW IN HEATED ROD BUNDLES
114 5.2.1 THE NUPEC EXPERIMENT 114 5.2.2 THE SIEMENS VOID DATA FOR THE
ATRIUM 10 FUEL BUENDLE 133 5.2.3. THE FRIGG EXPERIMENT 133 5.2.4. THE
THTF EXPERIMENTS: HIGH PRESSURE AND LOW MASS FLOW 139 5.3 PRESSURE DROP
FOR BOILING FLOW IN BUNDLES 144 5.4 TRANSIENT BOILING 147 5.4.1 THE
NUPEC TRANSIENTS IN A CHANNEL SIMULATING ONE SUB-CHANNE TABLEOF CONTENTS
XXVII 6. FLOW BOILING AND CONDENSATION STABILITY ANALYSIS 189 6.1 STATE
OF THE ART 189 6.2 AREVA BOILING STABILITY DATA FOR THE ATRIUM 10B FUEL
BUENDLE 191 6.3 FLOW CONDENSATION STABILITY 196 REFERENCES 204 7.
CRITICAL MULTIPHASE FLOW 207 7.1 DEFINITION OF THE CRITICALITY CONDITION
207 7.2 GRID STRACTURE 210 7.3 ITERATION STRATEGY 212 7.4 SINGLE PHASE
FLOW IN PIPE 212 7.4.1 NO FRICTION ENERGY DISSIPATION, CONSTANT CROSS
SECTION 212 7.4.2 GENERAL CASE, PERFECT GAS 219 7.5 SIMPLE TWO PHASE
CASES FOR PIPES ANDNOZZLES 221 7.5.1 SUBCOOLED CRITICAL MASS FLOW RATE
IN SHORT PIPES, ORIFICES ANDNOZZLES 224 7.5.1 FROZEN HOMOGENEOUS
NON-DEVELOPED FLOW 225 7.5.2 NON-HOMOGENEOUS DEVELOPED FLOW WITHOUT MASS
EXCHANGE 228 7.5.3 EQUILIBRIUM HOMOGENEOUS FLOW 229 7.5.4 EQUILIBRIUM
NON-HOMOGENEOUS FLOW 248 7.5.5 INHOMOGENEOUS DEVELOPING FLOW IN SHORT
PIPES AND NUZZLES WITH INFINITELY FAST HEAT EXCHANGE AND WITH LIMITED
INTERFACIAL MASS TRANSFER..261 7.6 RECENT STATE OF THE KNOWLEDGE FOR
DESCRIBING CRITICAL FLOW 269 7.6.1 BUBBLES ORIGINATION 269 7.6.2 BUBBLE
FRAGMENTATION 276 7.6.3 BUBBLE COALESCENCES 278 7.6.4 DROPLETS
ORIGINATION 278 7.7 EXAMPLES FOR APPLICATION OF THE THEORY OF THE
CRITICAL FLOW 279 7.7.1 BLOW DOWN FROM INITIALLY CLOSED PIPE 279 7.7.2
BLOW DOWN FROM INITIALLY CLOSED VESSEL 283 7.8 NOMENCLATURE 285
REFERENCE XXVHI TABLEOF CONTENTS 9. MOISTURE SEPARATION 307 9.1
INTRODUCTION 307 9.2 MOISTURE CHARACTERISTICS 311 9.3 SIMPLE METHODS FOR
COMPUTATION OF THE EFFICIENCY OF THE SEPARATION 314 9.3.1 CYCLONE
SEPARATORS 315 9.3.2 VANE SEPARATORS 323 9.4 VELOCITY FIELDS MODELING IN
SEPARATORS 329 9.4.1 KREITH AND SONJU SOLUTION FOR THE DECAY OF
TURBULENT SWIRL IN PIPE 329 9.4.2 POTENTIAL GAS FLOW IN VANES 330 9.4.3
TRAJECTORY OF PARTICLES IN A KNOWN CONTINUUM FIELD 331 9.4.4 CFD
ANALYSES OF CYCLONES 334 9.4.5 CFD ANALYSES OF VANE SEPARATORS 334 9.5
EXPERIMENTS 337 9.5.1 BWR CYCLONES, PWR STEAM GENERATOR CYCLONES 337
9.5.2 OTHER CYCLONE TYPES 349 9.5.3 VANE DRYERS 354 9.6 MOISTURE
SEPARATION IN NPP WITH PWR S ANALYZED BY THREE FLUID MODEIS 365 9.6.1
SEPARATION EFFICIENCY OF THE SPECIFIC CYCLONE DESIGN 367 9.6.2
EFFICIENCY OF THE SPECIFIC VANE SEPARATORS DESIGN 368 9.6.3 UNIFORMITY
OF THE FLOW PASSING THE VANE SEPARATORS 369 9.6.4 EFFICIENCY OF THE
CONDENSATE REMOVAL LOCALLY AND INTEGRALLY 370 9.7 NOMENCLATURE 371
REFERENCES 374 10. PIPE NETWORKS 377 10.1 SOMEBASIC DEFMITIONS 379
10.1.1 PIPES 379 10.1.2 AXIS IN THE SPACE 381 10.1.3 DIAMETERS OF PIPE
SECTIONS 382 10.1.4 REDUCTIONS 383 10.1.5 ELBOWS 383
10.1.6CREATINGALIBRARY OF PIPES 384 10.1. TABLEOF CONTENTS XXIX 11. SOME
AUXILIARY SYSTEMS 405 11.1 HIGH PRESSURE REDUCTION STATION 405 11.2 GAS
RELEASE IN RESEARCH REACTORS PIPING 408 11.2.1 SOLUBILITY OF O 2 , N 2
ANDH 2 UNDER I BAR PRESSURE 409 11.2.2 SOME GENERAL REMARKS ON THE GAS
RELEASE- AND ABSORPTION DYNAMICS 410 11.2.3 GAS RELEASE IN THE SIPHON
SAFETY PIPE 411 11.2.4 RADIOLYSIS GASES: GENERATION, ABSORPTION AND
RELEASE 412 11.2.5 MIXING IN THE WATER POOL 415 11.2.6 COMPUTATIONAL
ANALYSES 415 REFERENCES 421 12. EMERGENCY CONDENSERS 423 12.1
INTRODUCTION 423 12.2 SIMPLE MATHEMATICAL ILLUSTRATION OF THE OPERATION
OF THE SYSTEM 424 12.3 PERFORMANCE OF THE CONDENSER AS A FUNCTION OF THE
WATER LEVEL AND PRESSURE 427 12.4 CONDENSATE REMOVAL 427 13. CORE
DEGRADATION 429 13.1 PROCESSES DURING THE CORE DEGRADATION DEPENDING ON
THE STRUCTURE TEMPERATURE 429 13.2 ANALYTICAL TOOLS FOR ESTIMATION OF
THE CORE DEGRADATION 430 REFERENCES 431 14. MELT-COOLANT INTERACTION 435
14.1 MELT-COOLANT INTERACTION ANALYSIS FOR THE BOILING WATER REACTOR
KARENA 436 14.1.1 INTERACTION INSIDE THE GUIDE TUBES 442 14.1.2
MELT-RELOCATION THROUGH THE LOWER CORE GRID 444 14.1.3 SIDE
MELT-RELOCATION THROUGH THE CORE BARREL 445 14.1. XXX TABLEOF CONTENTS
15.3.5 CRUST FORMATION 462 15.3.6 MELT ENERGY CONSERVATION 464 15.3.7
BUOYANCY DRIVEN CONVECTION 466 15.3.8 FILM BOILING 468 15.4 HEAT
CONDUCTING STRUCTURES 469 15.4.1 HEAT CONDUCTION THROUGH THE STRUCTURES
469 15.4.2 BOUNDARY CONDITIONS 470 15.4.3 OXIDE CRUST FORMATION ON
COLDER HEAT CONDUCTING STRUCTURES 471 15.5 METAL LAYER 474 15.6 TEST
CASE 474 15.6.1 OXIDE OVER METAL 475 15.6.2 OXIDE BESIDES METAL 478 15.7
GRAVITATIONAL FLOODING OF HOT SOLID HORIZONTAL SURFACE BY WATER 479
15.7.1 SIMPLIFYING ASSUMPTIONS 480 15.7.2 CONSERVATION OF MASS AND
MOMENTUM, SCALING 482 15.7.3 EIGEN VALUES, EIGEN VECTORS AND CANONICAL
FORMS 485 15.7.4 STEADY STATE 489 15.8 NOMENCLATURE 491 15.9
NOMENCLATURE TO SECT. 15.7 493 REFERENCES 495 16. EXTERNAL COOLING OF
REACTOR VESSELS DURING SEVERE ACCIDENT 497 16.1 INTRODUCTION 497 16.2
STATE OF THE ART 498 16.3 DRY CORE MELTING SCENARIO, MELT RELOCATION,
WALL ATTACK, FOCUSING EFFECT 500 16.4 MODEL ASSUMPTIONS AND BRIEF MODEL
DESCRIPTION 501 16.4.1 MOLTEN POOL BEHAVIOR 502 16.4.2 TWO DIMENSIONAL
HEAT CONDUCTION THROUGH THE VESSEL WALL 503 16.4.3 BOUNDARY CONDITIONS
504 16.4.4 TOTAL HEAT FLOW FROM THE POOLS INTO THE VESSEL WALL 506
16.4.5 VESSEL WALL ABLATION 507 16.4.6 HEAT FLUXES AND CRUST FORMATION
508 16.4.7 BUOYANCY CONVECTION 509 16. REFERENCES 666 TABLEOF CONTENTS
XXXI 17. THERMO-PHYSICAL PROPERTIES FOR SEVERE ACCIDENT ANALYSIS 549
17.1 INTRODUCTION 551 17.1.1 SUMMARY OF THE PROPERTIES AT THE MELTING
LINE AT ATMOSPHERIC PRESSURE 551 17.1.2 APPROXIMATION OF THE LIQUID
STATE OF MELTS 553 17.1.3 NOMENCLATURE 556 REFERENCES 558 17.2 URANIUM
DIOXIDE CALORIC AND TRANSPORT PROPERTIES 559 17.2.1 SOLID 560 17.2.2
LIQUID 568 17.2.3 VAPOR 575 REFERENCES 577 17.3 ZIRCONIUM DIOXIDE 579
17.3.1 SOLID 579 17.3.2 LIQUID 584 REFERENCES 587 17.4 STAINLESS STEEL
589 17.4.1 SOLID 589 17.4.2 LIQUID 596 17.4.3 VAPOR 603 REFERENCES 604
17.5 ZIRCONIUM 605 17.5.1 SOLID 605 17.5.2 LIQUID 611 REFERENCES 615
17.6 ALUMINUM 617 17.6.1 SOLID 617 17.6.2 LIQUID 619 REFERENCES 624 17.7
ALUMINUM OXIDE, A1,O, 627 17.7.1 SOLID ... . 627 17.7.2 LIQUID 634
REFERENCES 637 17.8 SILICON DIOXIDE 639 17.8.1 SOLID 639 17.8.2 LIQUID
645 REFERENCES 648 17.9 IRON OXIDE 651 17.9.1 SOLID 651 17.9.2 LIQUID
653 REFERENCES 658 17.10 MOLYBDENUM 659 17.10.1 SOLID 659 17.10.2 LIQUID
663 INDEX 739 XXXII TABLEOF CONTENTS 17.11 BORON OXIDE 667 17.11.1 SOLID
667 17.11.2 LIQUID 669 REFERENCES 675 17.12 REACTOR CORIUM 677 17.12.1
LIQUID 680 17.12.2 SOLID 682 REFERENCES 683 17.13 SODIUM 685 17.13.1
SOME BASIC CHARACTERISTICS 686 17.13.2 LIQUID 690 17.13.3 VAPOR 708
REFERENCES 728 APPENDIX 1 729 17.14 LEAD, BISMUTH AND LEAD-BISMUTH
EUTECTIC ALLOY 731 REFERENCES 737
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| id | DE-604.BV035631753 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:42:01Z |
| institution | BVB |
| isbn | 9783540929178 |
| language | English |
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| spelling | Kolev, Nikolay Ivanov 1951- Verfasser (DE-588)110653262 aut Multiphase flow dynamics 4 Nuclear thermal hydraulics Nikolay I. Kolev 1. ed. Berlin [u.a.] Springer [2009] XXXII, 745 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier (DE-604)BV014569143 4 Erscheint auch als Online-Ausgabe 978-3-540-92918-5 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017686679&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kolev, Nikolay Ivanov 1951- Multiphase flow dynamics |
| title | Multiphase flow dynamics |
| title_auth | Multiphase flow dynamics |
| title_exact_search | Multiphase flow dynamics |
| title_full | Multiphase flow dynamics 4 Nuclear thermal hydraulics Nikolay I. Kolev |
| title_fullStr | Multiphase flow dynamics 4 Nuclear thermal hydraulics Nikolay I. Kolev |
| title_full_unstemmed | Multiphase flow dynamics 4 Nuclear thermal hydraulics Nikolay I. Kolev |
| title_short | Multiphase flow dynamics |
| title_sort | multiphase flow dynamics nuclear thermal hydraulics |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017686679&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV014569143 |
| work_keys_str_mv | AT kolevnikolayivanov multiphaseflowdynamics4 |