Finite element methods in electrical power engineering:
Gespeichert in:
Hauptverfasser: | , |
---|---|
Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2000
|
Ausgabe: | 1. publ. |
Schriftenreihe: | Monographs in electrical and electronic engineering
46 |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XVIII, 292 S. Ill., graph. Darst. |
ISBN: | 0198565046 |
Internformat
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245 | 1 | 0 | |a Finite element methods in electrical power engineering |c A. B. J. Reece and T. W. Preston |
250 | |a 1. publ. | ||
264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2000 | |
300 | |a XVIII, 292 S. |b Ill., graph. Darst. | ||
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490 | 1 | |a Monographs in electrical and electronic engineering |v 46 | |
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650 | 4 | |a Electric engineering | |
650 | 7 | |a Engenharia elétrica |2 larpcal | |
650 | 7 | |a Método dos elementos finitos |2 larpcal | |
650 | 4 | |a Mathematik | |
650 | 4 | |a Electrical engineering |x Mathematics | |
650 | 4 | |a Finite element method | |
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Datensatz im Suchindex
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adam_text | FINITE ELEMENT METHODS IN ELECTRICAL POWER ENGINEERING A. B. J. REECE
FORMERLY DEPUTY DIRECTOR, CEC ALSTIIOM ENGINEERING RESEARCH CENLRE,
SIAFFORD AND VISITING PROFESSOR, UMIST AND T. W. PRESTON HEAD,
EJECTROMAGNEUEES GROUP, ALS TOM RESEARCH AND TECHNOLOGY CENTRE, SIAFFORD
OXPORD UNIVUERSITY PRESS CONTENTS LIST OF SYMBOLS XVII 1 INTRODUCTION OL
1.1 WHY THC NECD COR NUMERICAL AUALYSIS? OL I .2 WHY FMITE ELEMCNTS? 02
1.3 A NOTE ON COORDINALC SYSTEMS 03 1.4 N OMENCLATURE 03 PART I:
RELEVANT THCORY 2 ELCCTROMAGNETICS 07 2.1 MAGNETOSTATICS 07 2.1.1 SCALAR
MAGNETIC POLCNTIAL, 2 07 2.1.2 VECTOR MAGNETIC POLCNTIAL A 09 2.1.3
VOCTOR MAGNETIC POTENTIALS AND FLUX LINES 11 2.1.4 VECTOR MAGNETIC
POTENTIALS AND FLUX LINKAGES 12 2.2 ELCCTROSTATICS AND SCALAR CLCCTRICAL
POTENTIAI V 13 2.3 MAGNET ODYNAMICS 13 2.3.1 THC EFFECTS OF CHANGING
FICLDS 13 2.3.2 SINUSOIDALLY CHANGING FICLDS 14 2.3.3 FLUX PENETRATION
IN SOLID COMPONCNTS 14 2.4 BOUNDARY AND CONTINUITY CONDITIONS 16 2.4.1
BOUNDARY CONDITIONS 16 2.4.2 CONTINUITY CONDITIONS 19 2.4.3 THC SUI FACE
IMPEDANCE BOUNDARY CONDITION 20 2.4.4 DERIVATION OF BASIC EQUATION 22
2.4.5 RESTRICTIONS IMPOSED BY ASSUMPLAEONS 23 2.4.6 SURFACE IMPCDANCE
CONDITION IN TERMS OF POTCNTIALS 25 2.5 APPROXIMATE REPRESCNLALION OF
CURRENTS IN SCALAR POLCNTIAL FORMULATIONS 25 2.6 EQUATIONS FOR
CYLINDRICALLY-BASED SYSTEMS 28 2.6.1 SCALAR MAGNETIC POTENTIAI 28 2.6.2
VECTOR MAGNETIC POTENTIAI 30 REFERENCES 30 X CONTENTS 3 APPROACHES TO
THRCE-DIMENSIONAL PROBLEMS 32 3.1 INTRODUCTION 32 3.2 MAGNETOSTATICS 32
3.2.1 TOTAL SCALAR MAGNETIC POTENTIAL FORMULATION 32 3.2.2 REDUCED
SCALAR MAGNETIC POTENTIAL FORMULATION 32 3.2.3 COMBINED TOTAL AND
REDUCED SCALAR MAGNETIC POTENTIAL FORMULATION 33 3.2.4 COMBINED VECTOR
ELECTRIC POTENTIAL (T) AND SCALAR MAGNETIC POTENTIAL (FI) 33 3.3
MAGNCTODYNAMICS 34 3.3.1 COMBINED VECTOR ELECTRIC POTENTIAL (7 ) AND
SCALAR MAGNETIC POTENTIAL (SS) FORMULATION 34 3.3.2 VECTOR MAGNETIC
POTENTIAL AND SCALAR ELECTRIC POTENTIAL FORMULATION 34 REFERENCES 35 4
FORMULATION OF CLCCTROMAGNCTIC CQUATIONS IN FINITE ELEMENT TERMS 37 4.1
INTRODUCTION 37 4.2 SHAPE FUNETIONS 37 4.3 METHODS OF DERIVING THE
NUMERICAL APPROXIMATION 40 4.4 THE NODAL METHOD 40 4.5 THE VARIATIONAL
OR ENERGY METHOD 42 4.5.1 ENERGY AND COENERGY 42 4.5.2 SCALAR MAGNETIC
POTENTIAL 44 4.5.3 VECTOR MAGNETIC POTENTIAL 47 4.6 THE GALCRKIN METHOD
50 4.7 SAMPLE FINITE DEMENT CALCULATION 50 4.7.1 ANALYLICAL SOLUTION 54
4.7.2 COMPARISON 55 4.8 ACCURACY 55 4.9 CONCLUDING COMMENTS 56
REFERENCES 57 5 TREATMENT OF NON-LINEAR MATCRIALS 58 5.1 SOFT MAGNETIC
MATERIALS 58 5.1.1 CYCLIC ADJUSTMENT OF PERMEABILITIES 58 5.1.2
NEWTON-RAPHSON ITERATION 59 5.2 PERMANENT MAGNETS (HARD MATCRIALS) 62
5.2.1 SOME PRINCIPLES 62 5.2.2 VECTOR POTENTIAL FORMULATION 64 5.2.3
SCALAR POTENTIAL FORMULATION 65 REFERENCES 67 CONTENTS XI DERIVED
QUANTITICS 68 6.1 FORCE AND FORCC DISTRIBUTIONS 68 6.1.1 THE
LORENTZ-FORCE (OR BLI) METHOD 68 6.1.2 THE MAXWELL-STRESS
(SURFACE-INTEGRAL) METHOD 68 6.1.3 VIRTUAL-WORK METHOD 70 6.1.4
CONCLUDING COMMENTS 71 6.2 INDUCTANCE 72 6.2.1 SELF-INDUCTANCE 72 6.2.2
MUTUAL INDUCTANCE 73 6.2.3 CAPACITANCE 74 REFERENCES 74 PART II:
PRINCIPLCS OF MODELLING 7 DATA GENERATION (OR PRE-PROECSSING) 79 7.1
INTRODUETION 79 7.2 DISCREUESALION 79 7.2.1 BOUNDARY SETECTION AND
CONDITIONS 79 7.2.2 DISTRIBUTION OF CLEMENTS 81 7.2.3 CARRYING OUT THE
DISCRETISATION 81 7.2.4 SNB-MODELS 82 7.2.5 LABCLLING 82 7.2.6 GEOMETRY
FILC 84 7.3 CONTROL DATA 84 7.3.1 MATERIAL PROPERTIES 84 7.3.2
EXCITATION DATA (MAGNETIC FIELD CALCULATIONS) 85 7.3.3 BOUNDARY
CONDITIONS 86 7.3.4 SOLUTION AND OUTPNT CONTROL 86 REFERENCES 87 8
POST-PROCESSING 88 8.1 THE PURPOSE OF POST-PROCESSING 88 8.2 CONTOUR
PTOTTING 88 8.3 DISPLAY OF STRESSES: FLUX DENSITIES. ELECTRIC (LELDS AND
LOSS INTENSITIES 91 8.4 ARROW DISPLAY LO GIVC DIRECTION AND APPROXIMATE
SLRCNGLH OF STRESSES 94 9 SELECTION OF HARDWARE 95 9.1 INLRODUCTION 95
9.2 CLASSES OF PROBLEM 95 9.3 REQUIRCD MEMORY AND PROCESSOR SPEED 96 XII
CONTENTS 9.4 EXAMPLES OF RELATION BETWEEN COMPULCR PERFORMANCE AND
SOLUTION TIMES 9.4.1 NO-LOAD CHARACTERISTIC 9.4.2 FREQUENCY RESPONSE
CHARACTERISTIC 9.5 COMPUTER PROCESSOR SPEED 10 EXLCNSIONS FOR
STEADY-STATE MACHINE PROBLEMS 10.1 VOLTAGE FED DEVICES: THE INDUETION
MOTOR 10.2 EXCITATION CALCIILATIONS FOR SYNCHRONOUS GENERATORS 10.2.1
COMBINATION OF FINITE DEMENT AND MACHINE CIRCUIL EQUATIONS 10.2.2
CONNECTION OF LOAD IRAPEDANCE 10.2.3 THE SEMI-GRAPHICAL APPROACH 10.3
MACHINC END-REGION FICLDS 10.4 MACHINE IMPEDANCE*FREQUENCY CALCIILATIONS
AND PARAMETER DETERMINATION 10.4.1 BACKGROUND 10.4.2 SIMULATION
PRINCIPLES 10.4.3 STATOR IRON AND EURRENT REPRESENTATION 10.4.4
THREE-DIMENSIONAL EFFECTS 10.4.5 SELECTION OF ROTOR PERMEABILILY 10.4.6
THE GOVERNING EQUATION 10.4.7 ADDILIONAL POSSIBILILICS REFERCNCES 1 I
TIME STEPPING FOR STEADY-STATE AND TRANSIENT PROBLEMS 11.1 THE NEED 11.2
RELATIVE MOTION 11.3 PRINCIPLES OF TIMC-STEPPING WITH INDUCED CURRENTS
11.3.1 PERIODIC CONDITIONS 11.3.2 TRANSICNTS REFCRCNCES 12 THE
IMPORTANCE OF ENGINEERING JUDGEMENT 12.1 INTRODUCTION 12.2 RELEVANT
QUESTIONS 12.3 TWO-DIMENSIONAL APPROXIMATIONS OF THREE-DIMENSIONAL
PROBLEMS 12.3.1 END FRINGING ETC. 12.3.2 UNEQUAL AXIAL LENGTHS 12.3.3
EFFECTS OF ENDS ON INDUCED CURRENTS 12.3.4 LARAINATED STRUCLURES AND
DIRCCLIONAL PARAMETERS REFCRCNCES CONTENTS X 111 PART III: GASE STUDIES
13 STEADY-STALC PERFORMANCE OF LARGC TURBINE GENERALORS: OPEN CIREUIT
AND LOAD EXCITATION AND REAETANCES 133 13.1 THE OPEN-CIREUIT
MAGNETISATION CURVE 133 13.1.1 STUDY I: AN EARLY TRIAL 133 13.1.2 STUDY
2: THE ESTABLISHED PROECSS 139 13.2 LOAD EXCITATION 141 13.2.1
REPRESENTATION OF STATOR CURRENTS 141 13.2.2 RCSULTS 142 13.3
STEADY-STATO REAETANCES 144 13.4 EXAMPLE OF DISCRETISATION PROCEDURE 146
13.5 ADDITIONAL POST-PROECSSING 151 REFERENCES 152 14 TURBINE-GENERATOR
CND-LCAKAGE FIELDS AND LOSSES 153 14.1 INTRODUCTION 153 14.2 660 MW
TURBINE-GENERATOR END REGION 155 14.3 MODELLING OF THE END REGION 155
14.4 END AIR REGION*MODEL A 157 14.4.1 BOUNDARY CONDITIONS 157 14.4.2
STATOR WINDING REPRESENTATION 159 14.4.3 ROTOR WINDING REPRESENTATION
161 14.4.4 END-REGION DISCRETISATION 161 14.4.5 CALCULATIONS AND RESULTS
162 14.5 STATOR CORE REGION MODEL B 164 14.5.1 BOUNDARY CONDITIONS 164
14.5.2 END-REGION DISCRETISATION 167 14.5.3 CALCULATIONS AND RESULTS 167
14.6 OVERALL COMMENT 175 REFERENCES 175 15 TURBINE-GENERATOR IRANSIENT
PARANICTCRS BY SIMULATED FREQUENCY RESPONSE TESTING 176 15.1
INTRODUCTION 176 15.2 MODELLING THE TURBINE GENERATOR 176 15.3
CALCULATION OF OPCRATIONAL IMPEDANCES 177 15.4 CALCULATION OF FIELD
STATOR TRANSFER FUNETION 179 15.5 RESULTS FOR THE 350 MW GENERATOR 180
15.6 REAETANCES AND URNE CONSTANTS 182 15.7 CONCLUSIONS 183 REFERENCES
184 CONTENTS SIMULATION OF TURBINE-GENERATOR SHORT CIRCUIL AND
APPLICATION TO PARAMETER PREDICTION 185 16.1 .INTRODUCTION 185 16.2 THE
TURBINE GENERATOR 186 16.3 THE FMITE ELEMENT MODEL 186 16.4 TIME
STEPPING 188 16.5 INDUCED CURRENTS 189 16.6 RESULTS 189 16.7 APPLICATION
TO MORE COMPLEX CASES 193 16.8 CONCLUDING COMMENTS 194 REFERENCES 194
PERFORMANCE CALCUTATIONS ON PERMANCNT-MAGNCL D.C. MOTOR 195 17.1
INTRODUCTION 195 17.2 THE TRIAL MOTOR 195 17.3 THE MODEL 195 17.4
RESULTS 197 PERFORMANCE PREDICTION FOR SWITCHED RELUETANEE MOTORS (LWO-
AND IHRCC-DIMENSIONAL) 201 18.1 INTRODUCTION 201 18.2 THE EXPERIMENTAL
S.R.M. 202 18.3 TWO-DIMENSIONAL CALCULALIONS 203 18.3.1 RESULTS 204 18.4
THREE-DIMENSIONAL CALCULATIONS 207 18.4.1 RESULTS 208 REFERENCES 211
TNDUCTION-MOTOR STEADY-STATC PERFORMANCE PREDICTION 212 19.1
INTRODUCTION 212 19.2 SOME FINITE ELEMENT AIDS TO PERFORMANCE PREDICTION
212 19.3 TMPROVED EQ TRIVALENT CIREUIT 213 19.4 TWO-DIMENSIONAL FINITE
ELEMENT METHOD WITH SINUSOIDAL TIME VARIATION 216 19.4.1 THEORY 217
19.4.2 CONSTANT-VOLTAGE EXCITATION 218 19.4.3 ROTOR-BAR CONDUETIVITY 218
19.4.4 MAGNCTIC NON-IINEARITY 218 19.4.5 REPRESENTATION OF THE OUTER
FRAME AND SHAFT 219 19.4.6 STATOR END LEAKAGE REAETANCE 220 19.4.7 IRON
LOSS 221 19.4.S SKEW 221 19.4.9 TRCATMCNT OF SLIP 221 19.4.10
APPLICATION 221 CONTENTS 19.5 COMBINED CIRCUIT/FINITE ELEMENT METHOD
19.6 FUELL TWO-DIMCNSIONAL TIME-STEPPING FLNITE ELEMENT METHOD 19.6.1
TIME-STEPPING METHOD 19.6.2 OPERATION FROM CONSTANT VOLTAGE 19.6.3
MOVEMENT 19.6.4 APPLICATION REFERENCCS 20 TRANSFORMER FLELDS AND
REAETANCES 20.1 TNTRODUCTION 20.2 THE AXI-SYMMETRIC SINGLC-PHASE MODEL
20.2.1 APPLICATION OF AXIALLY-SYMMETRIC MODEL TO FUELL LOAD CALCULATIONS
20.3 THE CARTCSIAN THREE-PHASE MODEL 20.3.1 APPLICATION OF CARTESIAN
MODEL TO A THREE-PHASE TRANSFORMIER 21 ELECTRIC-FIELD ANALYSIS IN POWER
TRANSFORMERS 21.1 INTRODUCTION 21.2 DESIGN OF A STRESS-CONTROL RING ON
AN HV TRANSFORMER WINDING 21.2.1 GENERAL 21.2.2 FINITE ELEMENT MODEL
21.2.3 FINITE ELEMENT MESH 21.2.4 EFFECT OF STRESS-CONTROL RINGS 21.3
ELECTRIC-FIELD CALCULATION IN THE REGION AROUND THE HV LEAD OF A LARGE
SINGLE-PHASE TRANSFORMER 21.4 ELECTRIC-FIELD DISTRIBUTION IN THE
VICINITY OF AN HV LEAD CLAMP 21.4.1 MODELLING 21.4.2 RESULTS 22
FLCCTRIC-STRESS CALCULATIONS IN BUSHINGS AND SURGE ARRESTERS 22.1
INTRODUCTION 22.2 ZINC OXIDE SURGE ARRESTERS 22.2.1 THE AXI-SYMMETRIC
MODEL 22.2.2 RESULTS 22.3 HIGH-VOLTAGE INSTRUMENL TRANSFORMER BUSHMG
ASSCMBLY 22.4 HIGH-VOLTAGE INSULATING COLUMN XVI CONTENTS 23 FUTURE
DEVELOPMENTS 277 23.1 THE STORY SO FAR 277 23.2 POSSIBLC FUTURE
DEVELOPMENTS 279 23.2.1 AUTOMATIC MESH GENERATION AND ADAPTIVE MESHING
279 23.2.2 DEVELOPMENT OF IMPROVCD SOLVERS, PARTICULARLY FOR
TBREE-DIMENSIONAL MAGNETODYNAMIC PROBLEMS 279 23.2.3 FURTHER DEVELOPMCNT
OF LIMC-STCPPING MCTHODS 279 23.2.4 DEVELOPMENT OF SOLUTIONS FOR EOUPLCD
(C.G. MAGNETIC, THERMAL, MECHANICAL) FIELD PROBLEMS 279 23.2.5 FURTBER
DEVELOPMCNT OF EDGE CLEMENTS 280 23.2.6 DEVELOPMENT OF BOUNDARY CLEMENT
AND OTHER INTEGRAL METHODS 280 23.2.7 COMPUTER DEVELOPMENTS 280 23.3
CONCLUDING COMMENTS 280 APPENDIX 1 283 DEFINITION OF SOME VECTOR
OPERATORS USED 283 APPENDIX 2 288 VERIFICATION OF TBE ENERGY FUNCLIONAL
FOR SCALAR MAGNETIC POTENTIAL USING EULER S CQUATION 288 BIBLIOGRAPHY
289 INDEX 291
|
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author | Reece, A. B. J. Preston, T. W. |
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building | Verbundindex |
bvnumber | BV012791244 |
callnumber-first | T - Technology |
callnumber-label | TK153 |
callnumber-raw | TK153 |
callnumber-search | TK153 |
callnumber-sort | TK 3153 |
callnumber-subject | TK - Electrical and Nuclear Engineering |
classification_rvk | ZN 3070 ZN 8100 |
ctrlnum | (OCoLC)41388737 (DE-599)BVBBV012791244 |
dewey-full | 621.3/01/51 |
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dewey-ones | 621 - Applied physics |
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dewey-search | 621.3/01/51 |
dewey-sort | 3621.3 11 251 |
dewey-tens | 620 - Engineering and allied operations |
discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
edition | 1. publ. |
format | Book |
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id | DE-604.BV012791244 |
illustrated | Illustrated |
indexdate | 2024-07-09T18:33:45Z |
institution | BVB |
isbn | 0198565046 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008700361 |
oclc_num | 41388737 |
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physical | XVIII, 292 S. Ill., graph. Darst. |
publishDate | 2000 |
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publisher | Oxford Univ. Press |
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series | Monographs in electrical and electronic engineering |
series2 | Monographs in electrical and electronic engineering Oxford science publications |
spelling | Reece, A. B. J. Verfasser aut Finite element methods in electrical power engineering A. B. J. Reece and T. W. Preston 1. publ. Oxford [u.a.] Oxford Univ. Press 2000 XVIII, 292 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Monographs in electrical and electronic engineering 46 Oxford science publications Electric engineering Engenharia elétrica larpcal Método dos elementos finitos larpcal Mathematik Electrical engineering Mathematics Finite element method Finite-Elemente-Methode (DE-588)4017233-8 gnd rswk-swf Elektrische Energietechnik (DE-588)4113411-4 gnd rswk-swf Elektrische Energietechnik (DE-588)4113411-4 s Finite-Elemente-Methode (DE-588)4017233-8 s DE-604 Preston, T. W. Verfasser aut Monographs in electrical and electronic engineering 46 (DE-604)BV001902153 46 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008700361&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Reece, A. B. J. Preston, T. W. Finite element methods in electrical power engineering Monographs in electrical and electronic engineering Electric engineering Engenharia elétrica larpcal Método dos elementos finitos larpcal Mathematik Electrical engineering Mathematics Finite element method Finite-Elemente-Methode (DE-588)4017233-8 gnd Elektrische Energietechnik (DE-588)4113411-4 gnd |
subject_GND | (DE-588)4017233-8 (DE-588)4113411-4 |
title | Finite element methods in electrical power engineering |
title_auth | Finite element methods in electrical power engineering |
title_exact_search | Finite element methods in electrical power engineering |
title_full | Finite element methods in electrical power engineering A. B. J. Reece and T. W. Preston |
title_fullStr | Finite element methods in electrical power engineering A. B. J. Reece and T. W. Preston |
title_full_unstemmed | Finite element methods in electrical power engineering A. B. J. Reece and T. W. Preston |
title_short | Finite element methods in electrical power engineering |
title_sort | finite element methods in electrical power engineering |
topic | Electric engineering Engenharia elétrica larpcal Método dos elementos finitos larpcal Mathematik Electrical engineering Mathematics Finite element method Finite-Elemente-Methode (DE-588)4017233-8 gnd Elektrische Energietechnik (DE-588)4113411-4 gnd |
topic_facet | Electric engineering Engenharia elétrica Método dos elementos finitos Mathematik Electrical engineering Mathematics Finite element method Finite-Elemente-Methode Elektrische Energietechnik |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008700361&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
volume_link | (DE-604)BV001902153 |
work_keys_str_mv | AT reeceabj finiteelementmethodsinelectricalpowerengineering AT prestontw finiteelementmethodsinelectricalpowerengineering |