Incompressible flow turbomachines: design, selection, applications, and theory
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2004
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 341 S. zahlr. Ill., graph. Darst. |
| ISBN: | 0750676035 |
Internformat
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Datensatz im Suchindex
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| adam_text | INCOMPRESSIBLE FLOW TURBOMACHINES LICATIOMS, GEORGE F. ROUND PROFESSOR
EMERITUS MCMASTER UNIVERSITY HAMILTON, ONTARIO CANADA ELSEVIER
BUTTERWORTH HEINEMANN AMSTERDAM BOSTON HEIDELBERG LONDON NEW YORK OXFORD
PARIS SAN DIEGO SAN FRANCISCO SINGAPORE SYDNEY TOKYO CONTENTS PREFACE
XIV NOMENCLATURE XVI DIMENSIONS OF FLUID MECHANICS QUANTITIES XVIII
UNITS XIX FUNDAMENTAL DEFINITIONS XX HISTORICAL BACKGROUND AND PRESENT
STATE OF DEVELOPMENT, 1 1.1 GREEK AND ROMAN MACHINES 1 1.2 THE MIDDLE
AGES 4 1.3 THE RENAISSANCE 4 1.4 THE POST RENAISSANCE 6 1.5 THE
NINETEENTH CENTURY TO THE PRESENT 7 1.6 GENERAL CLASSIFICATION OF
ROTODYNAMIC TURBINES AND PUMPS 10 1.7 THEORETICAL LIMITATIONS 10 1.8
REFERENCES 11 THEORY OF TURBOMACHINES, 12 2.1 EQUATIONS GOVERNING THE
BEHAVIOR OF TURBOMACHINES 12 2.2 CONTINUITY EQUATION 12 2.3 LINEAR
MOMENTUM THEOREM 13 2.4 ANGULAR MOMENTUM EQUATION 14 2.5 EULER TURBINE
EQUATION 15 2.6 BERNOULLI EQUATION 17 2.6.1 EXAMPLE: USE OF BERNOULLI
EQUATION FOR RADIAL FLOW 17 2.7 THE ENERGY EQUATION 18 VII VIII CONTENTS
2.8 SIMILARITY 19 2.9 DIMENSIONAL ANALYSIS 20 2.10 RESTRICTIONS ON
SIMILARITY APPLICATIONS 21 2.11 DIMENSIONLESS GROUPS AND SPECIFIC SPEED
22 2.12 SCALING DISCREPANCIES 22 2.13 GRAPHICAL CORRELATIONS FOR
SPECIFIC SPEED 24 2.14 GENERAL GEOMETRY OF ROTATIONAL, RADIAL, AND AXIAL
FLOWS 26 2.15 CIRCULATION, FREE VORTEX FLOW, AND THE KUTTA-JOUKOWSKI
THEOREM 27 2.16 FORCES ACTING ON AN AXIAL-FLOW TURBINE AND AXIAL-FLOW
PUMP BLADE .... 31 2.17 STREAM FUNCTION AND STREAMLINES 37 2.18 VELOCITY
POTENTIAL 38 2.19 SUPERPOSITION OF STREAMLINES 39 2.20 AXISYMMETRIC
FLOWS AND STOKES S STREAM FUNCTION 41 2.21 MERIDIONAL STREAMLINES AND
VELOCITIES 43 2.22 EFFECTS OF FRICTION ON FLOWS THROUGH TURBOMACHINES 44
2.23 SOLVED PROBLEMS 45 2.24 REFERENCES 54 3 TURBINES, 55 3.1
CLASSIFICATION OF TURBINES 55 3.2 GENERAL OPERATING CONDITIONS 55 3.3
IMPULSE TURBINES-PELTON WHEELS 56 3.3.1 SPEED FACTOR, 4 57 3.3.2
SPECIFIC SPEED OF PELTON WHEELS 59 3.3.3 NOZZLES 60 3.3.4 JET FORCE ON
RUNNER 60 3.3.5 ARRANGEMENT OF NOZZLES AND SIZE OF JETS 61 3.3.6 JET
VELOCITY AND DIAMETER 63 3.3.7 RUNNER 64 3.3.8 TURGO WHEELS 65 3.4
RADIAL-FLOW TURBINES*FRANCIS TURBINES 67 3.4.1 CHOICE OF TURBINE SPEED
70 3.4.2 EFFECT OF GATE OPENING 70 3.5 AXIAL-FLOW TURBINES*PROPELLER AND
KAPLAN TURBINES 71 3.5.1 COMBINATOR 73 3.5.2 EFFECTS OF ROTOR AND
GUIDE-VANE ANGLE 75 3.5.3 SELECTION OF SPEED AND RUNNER DIMENSIONS 75
3.6 OTHER TURBINES 79 3.6.1 PUMP TURBINES 79 3.6.2 DERIAZ TURBINE 80
3.6.3 BULB TURBINE 81 CONTENTS IX 3.6.4 BANKI TURBINE 82 3.6.5 MICHELL
TURBINE 82 3.7 CONTROL AND GOVERNING OF TURBINES 84 3.7.1 FUNCTION OF A
GOVERNOR 84 3.7.2 EQUATIONS FOR LOAD CHANGES 84 3.7.3 GOVERNORS 86 3.7.4
RELIEF VALVES 86 3.8 SOLVED PROBLEMS 87 3.9 REFERENCES 102 4 PUMPS, 103
4.1 INTRODUCTION 103 4.1.1 THEORETICAL CHARACTERISTICS OF CENTRIFUGAL
PUMPS 103 4.2 CLASSIFICATION OF ROTARY PUMPS 105 4.3 RADIAL-FLOW PUMPS
108 4.3.1 GEOMETRY 108 4.3.2 POWER 110 4.3.3 THEORETICAL HEAD 114 4.3.4
ENERGY LOSSES 114 4.3.5 HEAD LOSSES 114 4.3.6 LEAKAGE LOSSES 115 4.3.7
DISK FRICTION LOSS 117 4.3.8 MECHANICAL LOSSES 117 4.3.9 SPECIFIC SPEED
AND IMPELLER GEOMETRY 119 4.3.10 MODELING OF FLOW THROUGH AN IMPELLER
119 4.3.11 AXISYMMETRIC FLOW 121 4.3.12 NET POSITIVE SUCTION HEAD (NPSH)
122 4.3.13 SLIP FACTORS 122 4.3.14 EFFECT OF BLADE NUMBER, OUTLET BLADE
ANGLE, AND CIRCULATION IN BLADE PASSAGES 126 4.3.15 CHOICE OF BLADE
NUMBER AND BLADE OVERLAP 129 4.3.16 ENERGY RECOVERY 129 4.3.17 EXAMPLES
OF RADIAL-FLOW PUMPS 130 4.3.18 INSTALLATION OF A TYPICAL CENTRIFUGAL
PUMP 130 4.3.19 SPECIAL-PURPOSE RADIAL-FLOW PUMPS 132 4.4 MIXED-FLOW
PUMPS*DIAGONAL IMPELLER PUMPS 133 4.5 AXIAL AND SEMIAXIAL PUMPS 134
4.5.1 UNBOUNDED AXIAL IMPELLERS OR PROPELLERS 136 4.6 PUMP
CHARACTERISTICS OF CENTRIFUGAL PUMPS 143 4.6.1 SINGLE CENTRIFUGAL
PUMPS*RADIAL- AND MIXED-FLOW IMPELLERS.. 143 4.6.2 EFFECT OF FLUID
PROPERTIES 145 CONTENTS 4.7 SERIES AND PARALLEL CONNECTIONS 145 4.7.1
MULTISTAGE CENTRIFUGAL PUMPS 149 4.8 DISPLACEMENT ROTARY PUMPS 149 4.8.1
VANE PUMPS 149 4.8.2 PERISTALTIC PUMP 150 4.8.3 LOBE PUMPS 151 4.8.4
RVPPUMP 151 4.8.5 WATER RING PUMPS 152 4.9 FLOW CONTROL 153 4.9.1
THROTTLING OF THE FLOW AT INLET OR OUTLET 155 4.9.2 PUMP DISCONNECTION
157 4.9.3 REGULATED FLOW BYPASS 158 4.9.4 SPEED REGULATION 159 4.9.5
IMPELLER BLADE ADJUSTMENT 160 4.9.6 INLET GUIDE-VANE ADJUSTMENT 160
4.9.7 AIR LOCKING 161 4.10 AUTOMATIC PRIMING 161 4.11 FLUID COUPLINGS
165 4.12 SOLVED PROBLEMS 170 4.13 REFERENCES 187 SOME ASPECTS OF DESIGN,
188 5.1 GENERAL REMARKS 188 5.2 APPLICATION TO FLOW 188 5.2.1 AXIAL-FLOW
DESIGN 188 5.3 AXIAL AND RADIAL THRUSTS IN PUMPS AND TURBINES 189 5.3.1
AXIAL 189 5.3.2 CLOSED SINGLE-ENTRY CENTRIFUGAL IMPELLERS 189 5.3.3
MULTISTAGE BALANCING OF SINGLE-ENTRY STAGES 191 5.3.4 RADIAL 191 5.4
CRITICAL SPEEDS 192 5.4.1 LATERAL CRITICAL SPEED OF AN UNBALANCED SIMPLE
ROTOR 193 5.4.2 MULTIPLE DISKS 195 5.4.3 USE OF SINGULARITY FUNCTIONS
198 5.4.4 SOLUTION BY NUMERICAL INTEGRATION 199 5.4.5 TORSIONAL CRITICAL
SPEED 200 5.5 SEALS 201 5.6 COOLING SEALS 203 5.7 GLANDS 204 5.8 SOLVED
PROBLEMS 204 5.9 REFERENCES 208 CONTENTS XI 6 DESIGN OF IMPELLERS AND
RUNNERS OF SINGLE AND DOUBLE CURVATURE, 210 6.1 GENERAL REMARKS ON
DESIGN OF RUNNERS AND IMPELLERS 210 6.2 SINGLE-CURVATURE DESIGN 210
6.2.1 MERIDIONAL VELOCITIES, INLET DIAMETER, AND INLET ANGLE 210 6.2.2
TIP IMPELLER VELOCITY, U2, AND OUTLET DIAMETER, D 2 211 6.2.3 INLET
AREAS AND IMPELLER WIDTHS 212 6.2.4 DIMENSION CALCULATIONS, CONTINUITY
ADJUSTMENTS 213 6.3 EXAMPLE OF DESIGN*BLADE OF SINGLE CURVATURE 213 6.4
DESIGN OF BLADES OF DOUBLE CURVATURE 224 6.4.1 IMPELLER BLADES WITH
DOUBLE CURVATURE 224 6.5 DESIGN OF DOUBLE-CURVATURE BLADES BY CONFORMAL
MAPPING 228 6.6 REFERENCES 230 7 INLET AND OUTLET ELEMENTS, 231 7.1
INLET ELEMENTS OF TURBINES 231 7.1.1 SURGE TANKS 231 7.1.2 BASIC
EQUATIONS FOR DIFFERENTIAL SURGE TANKS 232 7.1.3 INSTABILITY OF THE
SURGE TANK 233 7.2 INLET ELEMENTS OF PUMPS 233 7.3 OUTLET ELEMENTS OF
TURBINES 235 7.3.1 DRAFT TUBES 235 7.4 OUTLET ELEMENTS OF PUMPS 237
7.4.1 VOLUTE DESIGN 239 7.4.2 VELOCITY DISTRIBUTIONS IN DIFFERENT VOLUTE
CROSS SECTIONS 241 7.4.3 DESIGN OF A VOLUTE 242 7.4.4 RELATION BETWEEN
VOLUTE VELOCITY AND SPECIFIC SPEED 244 7.5 SOLVED PROBLEM 244 7.6
REFERENCES 246 8 HEAD LOSSES IN COMPONENTS OF TURBINE AND PUMP SYSTEMS,
247 8.1 PIPES 247 8.1.1 FRICTION FACTOR 247 8.1.2 HYDRAULIC DIAMETER 249
8.2 LOSSES THROUGH OTHER ELEMENTS 249 8.2.1 DISCHARGE, VELOCITY, AND
CONTRACTION COEFFICIENTS 249 8.2.2 NOZZLE LOSS 253 8.2.3 FITTINGS,
VALVES, AND JOINTS 253 XM CONTENTS 8.2.4 EXPANSIONS AND CONTRACTIONS 254
8.2.5 LOSSES IN PIPE BRANCHES 254 8.3 TOTAL FRICTIONAL LOSS IN A PIPE
SYSTEM 254 8.4 SOLVED PROBLEMS 255 8.5 REFERENCES 268 9 CAVITATION, 269
9.1 CAUSES OF CAVITATION AND PARTS AFFECTED 269 9.1.1 METHODS OF
DETECTING CAVITATION 270 9.2 CAVITATION IN TURBINES 270 9.2.1 THOMA
NUMBER, A 272 9.3 CAVITATION IN PUMPS 273 9.3.1 CAVITATION AND SPECIFIC
SPEED 274 9.4 DETERMINATION OF LIMITS OF CAVITATION 275 9.5 LIMITATIONS
OF SIMILARITY LAWS 278 9.6 METHODS OF PREVENTION OF CAVITATION 279 9.7
CONCLUSIONS ABOUT CAVITATION 279 9.8 REFERENCES 280 JO WATER HAMMER, 281
10.1 INTRODUCTION 281 10.2 EQUATIONS DESCRIBING WAVE GENERATION AND
PROPAGATION 282 10.2.1 VALVE OPENING OR CLOSURE POSITION AS A FUNCTION
OF TIME 284 10.3 GRAPHICAL SOLUTION 287 10.4 OTHER WAVE REFLECTIONS 291
10.4.1 REFLECTION AT THE CLOSED END OF A PIPE 291 10.4.2 EFFECT OF
CHANGE OF AREA CROSS SECTION 291 10.4.3 JUNCTIONS AND BRANCHES 292
10.4.4 PUMP FAILURE 293 10.5 SOLVED PROBLEMS 293 10.6 REFERENCES 298 11
CORROSION, 299 11.1 INTRODUCTION 299 11.2 THERMODYNAMICS OF THE
CORROSION PROCESS 299 11.3 CORROSION OF IRON AND STEEL 302 11.3.1 EFFECT
OF TEMPERATURE 303 11.3.2 EFFECT OF PH 303 11.3.3 ACTION OF ANAEROBIC
BACTERIA 303 11.3.4 PITTING AND CREVICE CORROSION 303 11.4 CORROSION
RESISTANCE OF STEEL ALLOYS 304 CONTENTS XIII 11.5 STRESS CORROSION
CRACKING AND CORROSION FATIGUE 306 11.6 GALVANIC OR BIMETALLIC CORROSION
306 11.7 CATHODIC PROTECTION 307 11.7.1 SACRIFICIAL ANODES 307 11.7.2
PROTECTION AND OVERPROTECTION 308 11.8 EFFECT OF FLOW RATE OF THE
ENVIRONMENTAL FLUID 308 11.9 REFERENCES 309 APPENDICES 310 AL EQUATIONS
310 A2 SPECIFIC GRAVITY AND VISCOSITY OF WATER AT ATMOSPHERIC PRESSURE
313 A3 VAPOR PRESSURE CHART FOR VARIOUS LIQUIDS 315 A4 DENSITIES OF
VARIOUS LIQUIDS 316 A5 MATHEMATICAL AND PHYSICAL CONSTANTS 317 A6
CONVERSION FACTORS 318 A7 BEAM FORMULAS AND FIGURES 321 A8 CHARTS FOR
FLOWS THROUGH FITTINGS 324 A9 FRICTION FACTOR: REYNOLDS NUMBER CHART
(MOODY DIAGRAM) 334 A10 VALUES OF PIPE ROUGHNESS, E FOR VARIOUS
MATERIALS 335 ALL CHARACTERISTIC VALUES OF WATER IN THE SATURATION
STATES 336 INDEX 338
|
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| illustrated | Illustrated |
| indexdate | 2024-07-09T20:01:31Z |
| institution | BVB |
| isbn | 0750676035 |
| language | English |
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| physical | XXII, 341 S. zahlr. Ill., graph. Darst. |
| publishDate | 2004 |
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| publisher | Elsevier |
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| spelling | Round, George F. Verfasser aut Incompressible flow turbomachines design, selection, applications, and theory George F. Round Amsterdam [u.a.] Elsevier 2004 XXII, 341 S. zahlr. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Turbomachines Design and construction Inkompressible Strömung (DE-588)4129759-3 gnd rswk-swf Strömungsmaschine (DE-588)4058079-9 gnd rswk-swf Strömungsmaschine (DE-588)4058079-9 s Inkompressible Strömung (DE-588)4129759-3 s DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012950936&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Round, George F. Incompressible flow turbomachines design, selection, applications, and theory Turbomachines Design and construction Inkompressible Strömung (DE-588)4129759-3 gnd Strömungsmaschine (DE-588)4058079-9 gnd |
| subject_GND | (DE-588)4129759-3 (DE-588)4058079-9 |
| title | Incompressible flow turbomachines design, selection, applications, and theory |
| title_auth | Incompressible flow turbomachines design, selection, applications, and theory |
| title_exact_search | Incompressible flow turbomachines design, selection, applications, and theory |
| title_full | Incompressible flow turbomachines design, selection, applications, and theory George F. Round |
| title_fullStr | Incompressible flow turbomachines design, selection, applications, and theory George F. Round |
| title_full_unstemmed | Incompressible flow turbomachines design, selection, applications, and theory George F. Round |
| title_short | Incompressible flow turbomachines |
| title_sort | incompressible flow turbomachines design selection applications and theory |
| title_sub | design, selection, applications, and theory |
| topic | Turbomachines Design and construction Inkompressible Strömung (DE-588)4129759-3 gnd Strömungsmaschine (DE-588)4058079-9 gnd |
| topic_facet | Turbomachines Design and construction Inkompressible Strömung Strömungsmaschine |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012950936&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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