Verfügbarkeit: Power distribution system reliability

Power distribution system reliability: practical methods and applications

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Bibliographische Detailangaben
Hauptverfasser:	Chowdhury, Ali A. (VerfasserIn), Koval, Don O. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Piscataway, NJ IEEE Press [u.a.] 2009
Schriftenreihe:	IEEE Press series on power engineering
Schlagworte:	Electric power systems / Reliability Elektrizitätsversorgungsnetz Zuverlässigkeit
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 531 S. graph. Darst.
ISBN:	9780470292280

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Datensatz im Suchindex

_version_	1804142811013971968
adam_text	POWER DISTRIBUTION SYSTEM RELIABILITY PRACTICAL METHODS AND APPLICATIONS ALI A. CHOWDHURY DON O. KOVAL POWER ENGINEERING IEEE PRESS SERIES ON IEEE PRESS WILEY A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE XIX 1 OUTLINE OF THE BOOK 1 1.1 INTRODUCTION 1 1.2 RELIABILITY ASSESSMENT OF POWER SYSTEMS 2 1.2.1 GENERATION SYSTEM RELIABILITY ASSESSMENT 2 1.2.2 TRANSMISSION SYSTEM RELIABILITY ASSESSMENT 3 1.2.3 DISTRIBUTION SYSTEM RELIABILITY ASSESSMENT 4 1.3 ORGANIZATION OF THE CHAPTERS 5 1.4 CONCLUSIONS 10 REFERENCES 11 2 FUNDAMENTALS OF PROBABILITY AND STATISTICS 13 2.1 CONCEPT OF FREQUENCY 13 2.1.1 INTRODUCTION 13 2.1.2 CONCEPT OF CLASS 15 2.1.3 FREQUENCY GRAPHS 15 2.1.4 CUMULATIVE FREQUENCY DISTRIBUTION MODEL 15 2.2 IMPORTANT PARAMETERS OF FREQUENCY DISTRIBUTION 15 2.2.1 MEAN 16 2.2.2 MEDIAN 16 2.2.3 MODE 16 2.2.4 STANDARD DEVIATION 16 2.2.5 VARIANCE 17 2.3 THEORY OF PROBABILITY 17 2.3.1 CONCEPT 17 2.3.2 PROBABILITY LAWS AND THEOREMS 18 2.4 PROBABILITY DISTRIBUTION MODEL 19 2.4.1 RANDOM VARIABLE 19 2.4.2 PROBABILITY DENSITY FUNCTION 20 VLIL CONTENTS 2.4.3 PARAMETERS OF PROBABILITY DISTRIBUTIONS 21 2.4.4 THE BINOMIAL DISTRIBUTION 22 2.4.5 THE POISSON DISTRIBUTION 25 2.4.6 THE EXPONENTIAL DISTRIBUTION 26 2.4.7 THE NORMAL DISTRIBUTION 27 2.5 SAMPLING THEORY 29 2.5.1 CONCEPTS OF POPULATION AND SAMPLE 29 2.5.2 RANDOM SAMPLING MODEL 29 2.5.3 SAMPLING DISTRIBUTIONS 29 2.5.4 CONCEPT OF CONFIDENCE LIMIT 32 2.5.5 ESTIMATION OF POPULATION STATISTIC 32 2.5.6 COMPUTATION OF SAMPLE SIZE 34 2.6 STATISTICAL DECISION MAKING 36 2.6.1 PROCEDURE OF DECISION MAKING 37 2.6.2 TYPES OF ERROR 37 2.6.3 CONTROL OF ERRORS 42 2.7 CONCLUSIONS 42 REFERENCES 42 RELIABILITY PRINCIPLES 45 3.1 FAILURE RATE MODEL 45 3.1.1 CONCEPT AND MODEL 45 3.1.2 CONCEPT OF BATHTUB CURVE 46 3.2 CONCEPT OF RELIABILITY OF POPULATION 47 3.2.1 THEORY OF FIRST PRINCIPLES 47 3.2.2 RELIABILITY MODEL 50 3.2.3 THE POISSON PROBABILITY DISTRIBUTION 52 3.2.4 RELIABILITY OF EQUAL TIME STEPS 53 3.3 MEAN TIME TO FAILURES 54 3.4 RELIABILITY OF COMPLEX SYSTEMS 55 3.4.1 SERIES SYSTEMS 55 3.4.2 PARALLEL SYSTEMS 56 3.4.3 PARTIALLY REDUNDANT SYSTEMS 58 3.4.4 BAYES THEOREM 60 3.5 STANDBY SYSTEM MODELING 62 3.5.1 BACKGROUND 62 3.5.2 SPARES FOR ONE UNIT 62 3.5.3 SPARES FOR MULTIPLE INTERCHANGEABLE UNITS 63 CONTENTS IX 3.6 CONCEPTS OF AVAILABILITY AND DEPENDABILITY 65 3.6.1 MEAN TIME TO REPAIR 65 3.6.2 AVAILABILITY MODEL 66 3.6.3 MARKOV MODEL 66 3.6.4 CONCEPT OF DEPENDABILITY 67 3.6.5 DESIGN CONSIDERATIONS 68 3.7 RELIABILITY MEASUREMENT 68 3.7.1 CONCEPT 68 3.7.2 ACCURACY OF OBSERVED DATA 69 3.7.3 CONFIDENCE LIMIT OF FAILURE RATE 69 3.7.4 CHI-SQUARE DISTRIBUTION 70 3.8 CONCLUSIONS 77 REFERENCES 77 4 APPLICATIONS OF SIMPLE RELIABILITY MODELS 79 4.1 EQUIPMENT FAILURE MECHANISM 79 4.1.1 INTRODUCTION 79 4.1.2 UTILIZATION OF FORCED OUTAGE STATISTICS 80 4.1.3 FAILURE RATE COMPUTATION 80 4.2 AVAILABILITY OF EQUIPMENT 81 4.2.1 AVAILABILITY CONSIDERATIONS AND REQUIREMENTS 81 4.2.2 AVAILABILITY MODEL 82 4.2.3 LONG-RUN AVAILABILITY 83 4.3 OIL CIRCUIT RECLOSER (OCR) MAINTENANCE ISSUES 85 4.3.1 INTRODUCTION 85 4.3.2 STUDY METHODS 85 4.4 DISTRIBUTION POLE MAINTENANCE PRACTICES 86 4.5 PROCEDURES FOR GROUND TESTING 87 4.5.1 CONCEPT 87 4.5.2 STATISTICAL METHODS FOR GROUND TESTING 87 4.6 INSULATORS MAINTENANCE 87 4.6.1 BACKGROUND 87 4.6.2 INSPECTION PROGRAM FOR INSULATORS 87 4.6.3 VOLTAGE SURGES ON LINES 88 4.6.4 CRITICAL FLASHOVER 89 4.6.5 NUMBER OF INSULATORS IN A STRING 91 4.7 CUSTOMER SERVICE OUTAGES 93 4.7.1 BACKGROUND 93 CONTENTS 4.7.2 POPULAR DISTRIBUTION RELIABILITY INDICES 93 4.7.3 RELIABILITY CRITERIA 94 4.7.4 COST OF INTERRUPTION CONCEPT 95 4.8 CONCLUSIONS 95 REFERENCES 96 ENGINEERING ECONOMICS 97 5.1 INTRODUCTION 97 5.2 CONCEPT OF INTEREST AND EQUIVALENT 98 5.3 COMMON TERMS 98 5.4 FORMULAS FOR COMPUTING INTEREST 98 5.5 ANNUAL COST 101 5.5.1 CONCEPT OF ANNUAL COST 101 5.5.2 ALTERNATIVES WITH DIFFERENT LIFE TIMES 102 5.6 PRESENT VALUE (PV) CONCEPT 103 5.7 THEORY OF RATE OF RETURN 105 5.8 COST-BENEFIT ANALYSIS APPROACH 106 5.9 FINANCIAL RISK ASSESSMENT 107 5.9.1 BASIC CONCEPT 107 5.9.2 PRINCIPLES 107 5.9.3 CONCEPT OF RISK AVERSION 108 5.10 CONCLUSIONS 108 REFERENCES 109 RELIABILITY ANALYSIS OF COMPLEX NETWORK CONFIGURATIONS 111 6.1 INTRODUCTION 111 6.2 STATE ENUMERATION METHODOLOGIES 112 6.2.1 BASIC ASSUMPTIONS: CRITERIA FOR SYSTEM SUCCESSPOWER IS DELIVERED TO ALL LOADS 112 6.3 NETWORK REDUCTION METHODS 115 6.3.1 PATH ENUMERATION METHODS: MINIMUM TIE SET 116 6.3.2 PATH ENUMERATION METHODS: MINIMUM CUT SET 121 6.4 BAYES THEOREM IN RELIABILITY 129 6.5 CONSTRUCTION OF FAULT TREE DIAGRAM 139 6.5.1 BASIC RULES FOR COMBINING THE PROBABILITY OF INDEPENDENT INPUT FAILURE EVENTS TO EVALUATE THE PROBABILITY OF A SINGLE-OUTPUT FAILURE EVENT 140 CONTENTS 6.6 THE APPLICATION OF CONDITIONAL PROBABILITY THEORY TO SYSTEM OPERATING CONFIGURATIONS 146 6.7 CONCLUSIONS 151 REFERENCES 151 DESIGNING RELIABILITY INTO INDUSTRIALAND COMMERCIAL POWER SYSTEMS 153 7.1 INTRODUCTION 153 7.2 EXAMPLE 1: SIMPLE RADIAL DISTRIBUTION SYSTEM 154 7.2.1 DESCRIPTION OF A SIMPLE RADIAL SYSTEM 155 7.2.2 RESULTS: SIMPLE RADIAL SYSTEM EXAMPLE 1 155 7.2.3 CONCLUSIONS: SIMPLE RADIAL SYSTEM EXAMPLE 1 155 7.3 EXAMPLE 2: RELIABILITY ANALYSIS OF A PRIMARY SELECTIVE SYSTEM TO THE 13.8 KV UTILITY SUPPLY 156 7.3.1 DESCRIPTION: PRIMARY SELECTIVE SYSTEM TO THE 13.8 KV UTILITY SUPPLY 157 7.3.2 RESULTS: A PRIMARY SELECTIVE SYSTEM TO THE 13.8 KV UTILITY SUPPLY 158 7.3.3 CONCLUSIONS: PRIMARY SELECTIVE SYSTEM TO 13.8 KV UTILITY SUPPLY 159 7.4 EXAMPLE 3: A PRIMARY SELECTIVE SYSTEM TO THE LOAD SIDE OF A 13.8 KV CIRCUIT BREAKER 161 7.4.1 DESCRIPTION OF A PRIMARY SELECTIVE SYSTEM TO THE LOAD SIDE OF A 13.8 KV CIRCUIT BREAKER 161 7.4.2 RESULTS: PRIMARY SELECTIVE SYSTEM TO LOAD SIDE OF 13.8 KV CIRCUIT BREAKER 162 7.4.3 CONCLUSIONS: A PRIMARY SELECTIVE SYSTEM TO THE LOAD SIDE OF A 13.8 KV CIRCUIT BREAKER 163 7.5 EXAMPLE 4: PRIMARY SELECTIVE SYSTEM TO THE PRIMARY OF THE TRANSFORMER 163 7.5.1 DESCRIPTION OF A PRIMARY SELECTIVE SYSTEM TO THE PRIMARY OF THE TRANSFORMER 163 7.5.2 RESULTS: A PRIMARY SELECTIVE SYSTEM TO THE PRIMARY OF THE TRANSFORMER 164 7.5.3 CONCLUSIONS: PRIMARY SELECTIVE SYSTEM TO PRIMARY OF TRANSFORMER 164 7.6 EXAMPLE 5: A SECONDARY SELECTIVE SYSTEM 164 7.6.1 DESCRIPTION OF A SECONDARY SELECTIVE SYSTEM 164 7.6.2 RESULTS: A SECONDARY SELECTIVE SYSTEM 165 7.6.3 CONCLUSIONS: A SECONDARY SELECTIVE SYSTEM 165 XII CONTENTS 7.7 EXAMPLE 6: A SIMPLE RADIAL SYSTEM WITH SPARES 166 7.7.1 DESCRIPTION OF A SIMPLE RADIAL SYSTEM WITH SPARES 166 7.7.2 RESULTS: A SIMPLE RADIAL SYSTEM WITH SPARES 167 7.7.3 CONCLUSIONS: SIMPLE RADIAL SYSTEM WITH SPARES 167 7.8 EXAMPLE 7: A SIMPLE RADIAL SYSTEM WITH COGENERATION 168 7.8.1 DESCRIPTION OF A SIMPLE RADIAL SYSTEM WITH COGENERATION 168 7.8.2 RESULTS: SIMPLE RADIAL SYSTEM WITH COGENERATION 168 7.8.3 CONCLUSIONS: A SIMPLE RADIAL SYSTEM WITH COGENERATION 169 7.9 RELIABILITY EVALUATION OF MISCELLANEOUS SYSTEM CONFIGURATIONS 170 7.10 CONCLUSIONS 188 REFERENCES 188 8 ZONE BRANCH RELIABILITY METHODOLOGY 191 8.1 INTRODUCTION 191 8.2 ZONE BRANCH CONCEPTS 192 8.3 INDUSTRIAL SYSTEM STUDY 196 8.4 APPLICATION OF ZONE BRANCH METHODOLOGY: CASE STUDIES 201 8.4.1 CASE 1: DESIGN A SIMPLE RADIAL SUBSTATION CONFIGURATION 202 8.4.2 CASE 2: DESIGN B DUAL SUPPLY RADIALSINGLE BUS 208 8.4.3 CASE 3: DESIGN C DUAL SUPPLY RADIAL WITH TIEBREAKER 215 8.4.4 CASE 4: DESIGN D DUAL SUPPLY LOOP WITH TIEBREAKER 219 8.4.5 CASE 5: DESIGN E DUAL SUPPLY PRIMARY SELECTIVE 225 8.4.6 CASE 6: DESIGN F DOUBLE BUS/DOUBLE BREAKER RADIAL 232 8.4.7 CASE 7: DESIGN G DOUBLE BUS/DOUBLE BREAKER LOOP 235 8.4.8 CASE 8: DESIGN H DOUBLE BUS/BREAKER PRIMARY SELECTIVE 242 8.5 CONCLUSIONS 251 REFERENCES 252 9 EQUIPMENT OUTAGE STATISTICS 255 9.1 INTRODUCTION 255 9.2 INTERRUPTION DATA COLLECTION SCHEME 256 9.3 TYPICAL DISTRIBUTION EQUIPMENT OUTAGE STATISTICS 259 9.4 CONCLUSIONS 265 REFERENCES 265 10 HISTORICAL ASSESSMENT 267 10.1 INTRODUCTION 267 10.2 AUTOMATIC OUTAGE MANAGEMENT SYSTEM 268 10.2.1 DEFINITIONS OF TERMS AND PERFORMANCE INDICES 269 CONTENTS XIII 10.2.2 CUSTOMER-ORIENTED INDICES 269 10.2.3 CLASSIFICATION OF INTERRUPTION AS TO CAUSES 270 10.3 HISTORICAL ASSESSMENT 271 10.3.1 A UTILITY CORPORATE LEVEL ANALYSIS 272 10.3.2 UTILITY REGION-LEVEL ANALYSIS 279 10.4 CREW CENTER-LEVEL ANALYSIS 282 10.5 DEVELOPMENT OF A COMPOSITE INDEX FOR RELIABILITY PERFORMANCE ANALYSIS AT THE CIRCUIT LEVEL 282 10.6 CONCLUSIONS 283 REFERENCES 283 11 DETERMINISTIC CRITERIA 285 11.1 INTRODUCTION 285 11.2 CURRENT DISTRIBUTION PLANNING AND DESIGN CRITERIA 286 11.2.1 OUTAGE DATA COLLECTION AND REPORTING 287 11.2.2 RELIABILITY INDICES 287 11.2.3 TARGETS FOR CUSTOMER SERVICE RELIABILITY 288 11.2.4 EXAMPLES OF DISTRIBUTION RELIABILITY STANDARDS IN A DEREGULATED MARKET 288 11.3 RELIABILITY COST VERSUS RELIABILITY BENEFIT TRADE-OFFS IN DISTRIBUTION SYSTEM PLANNING 290 11.4 ALTERNATIVE FEED REQUIREMENTS FOR OVERHEAD DISTRIBUTION SYSTEMS 293 11.5 EXAMPLES OF DETERMINISTIC PLANNING GUIDELINES FOR ALTERNATIVE FEED REQUIREMENTS 294 11.5.1 RELIABILITY OF SUPPLY TO 25 KV BUSES 294 11.5.2 RELIABILITY OF SUPPLY TO TOWNS/CITIES 295 11.5.3 RELIABILITY OF SUPPLY TO LARGE USERS AND INDUSTRIAL CUSTOMERS 295 11.6 VALUE-BASED ALTERNATIVE FEEDER REQUIREMENTS PLANNING 295 11.6.1 CUSTOMER INTERRUPTION COST DATA 297 11.6.2 AN ILLUSTRATIVE EXAMPLE FOR JUSTIFICATION OF AN ALTERNATE FEED TO A MAJOR CITY 298 11.7 CONCLUSIONS 299 REFERENCES 299 12 IMPORTANT FACTORS RELATED TO DISTRIBUTION STANDARDS 301 12.1 INTRODUCTION 301 12.2 RELEVANT ISSUES AND FACTORS IN ESTABLISHING DISTRIBUTION RELIABILITY STANDARDS 304 XIV CONTENTS 12.2.1 DATA POOL 305 12.2.2 DEFINITIONS OF TERMS 307 12.2.3 SYSTEM CHARACTERISTICS 308 12.2.4 OUTAGE DATA COLLECTION SYSTEMS 308 12.3 PERFORMANCE INDICES AT DIFFERENT SYSTEM LEVELS OF A UTILITY 309 12.4 PERFORMANCE INDICES FOR DIFFERENT UTILITY TYPES 314 12.5 CONCLUSIONS 314 REFERENCES 315 13 STANDARDS FOR REREGULATED DISTRIBUTION UTILITY 317 13.1 INTRODUCTION 317 13.2 COST OF SERVICE REGULATION VERSUS PERFORMANCE-BASED REGULATION 318 13.3 A REWARD/PENALTY STRACTURE IN THE PERFORMANCE-BASED RATES 319 13.4 HISTORICAL SAIFI AND SAIDI DATA AND THEIR DISTRIBUTIONS 322 13.5 COMPUTATION OF SYSTEM RISKS BASED ON HISTORICAL RELIABILITY INDICES 323 13.6 CAUSE CONTRIBUTIONS TO SAIFI AND SAIDI INDICES 329 13.7 CONCLUSIONS 334 REFERENCES 335 14 CUSTOMER INTERRUPTION COST MODELS FOR LOAD POINT RELIABILITY ASSESSMENT 337 14.1 INTRODUCTION 337 14.2 CUSTOMER INTERRUPTION COST 338 14.3 SERIES AND PARALLEL SYSTEM MODEL EQUATIONS 339 14.4 DEDICATED DISTRIBUTION RADIAL FEEDER CONFIGURATION 340 14.5 DISTRIBUTION RADIAL FEEDER CONFIGURATION SERVING MULTIPLE CUSTOMERS 341 14.6 DISTRIBUTION RADIAL FEEDER CONFIGURATION SERVING MULTIPLE CUSTOMERS WITH MANUAL SECTIONALIZING 342 14.7 DISTRIBUTION RADIAL FEEDER CONFIGURATION SERVING MULTIPLE CUSTOMERS WITH AUTOMATIC SECTIONALIZING 345 14.8 DISTRIBUTION SYSTEM LOOPED RADIAL FEEDERS 347 14.8.1 OPERATING PROCEDURES 347 14.8.2 FEEDER CHARACTERISTICS: LOOPED RADIAL FEEDERSMANUAL SECTIONALIZING 347 14.9 CONCLUSIONS 355 REFERENCES 355 CONTENTS XV 15 VALUE-BASED PREDICTIVE RELIABILITY ASSESSMENT 357 15.1 INTRODUCTION 357 15.2 VALUE-BASED RELIABILITY PLANNING 358 15.3 DISTRIBUTION SYSTEM CONFIGURATION CHARACTERISTICS 360 15.4 CASE STUDIES 362 15.5 ILLUSTRATIVE EXAMPLE SYSTEM PROBLEM AND ITS RELIABILITY CALCULATIONS 368 15.5.1 OPERATING PROCEDURES 369 15.6 CONCLUSIONS 373 REFERENCES 374 16 ISOLATION AND RESTORATION PROCEDURES 375 16.1 INTRODUCTION 375 16.2 DISTRIBUTION SYSTEM CHARACTERISTICS 378 16.2.1 DISTRIBUTION LOAD TRANSFER CHARACTERISTICS 379 16.2.2 OPERATING PROCEDURES: LINE SECTION OUTAGES 380 16.2.3 FEEDER CIRCUIT RELIABILITY DATA 380 16.2.4 COST OF LOAD POINT INTERRUPTIONS 381 16.3 CASE STUDIES 381 16.3.1 CASE STUDY 1 381 16.3.2 CASE STUDY 2 384 16.3.3 CASE STUDY 3 388 16.4 MAJOR SUBSTATION OUTAGES 389 16.5 SUMMARY OF LOAD POINT INTERRUPTION COSTS 391 16.6 CONCLUSIONS 392 REFERENCES 393 17 MESHED DISTRIBUTION SYSTEM RELIABILITY 395 17.1 INTRODUCTION 395 17.2 VALUE-BASED RELIABILITY ASSESSMENT IN A DEREGULATED ENVIRONMENT 396 17.3 THE CHARACTERISTICS OF THE ILLUSTRATIVE URBAN DISTRIBUTION SYSTEM 397 17.4 DISCUSSION OF RESULTS 400 17.5 FEEDER AND TRANSFORMER LOADING LEVELS 401 17.6 BUS AND FEEDER TIE ANALYSIS 402 17.6.1 TIE COSTS AND DESCRIPTIONS 402 17.7 MAINTENANCE 403 17.7.1 SINGLE TRANSFORMER 403 17.7.2 CONDUCTOR SIZING 403 XVI CONTENTS 17.8 FEEDERS WITH NONFUSED (LATERAL) THREE-PHASE BRANCHES 404 17.9 FEEDER TIE PLACEMENT 404 17.10 FINDING OPTIMUM SECTION LENGTH 406 17.10.1 DEFINITION OF TERMS 407 17.11 FEEDER AND TRANSFORMER LOADING 408 17.12 FEEDER TIE COST CALCULATION 409 17.13 EFFECTS OF TIE MAINTENANCE 410 17.14 ADDITIONAL TIES FOR FEEDERS WITH THREE-PHASE BRANCHES 411 17.14.1 DEFINITION OF TERMS 412 17.15 CONCLUSIONS 413 REFERENCES 413 18 RADIAL FEEDER RECONFIGURATION ANALYSIS 415 18.1 INTRODUCTION 415 18.2 PREDICTIVE FEEDER RELIABILITY ANALYSIS 416 18.3 RELIABILITY DATA AND ASSUMPTIONS 418 18.4 RELIABILITY ASSESSMENT FOR AN ILLUSTRATIVE DISTRIBUTION FEEDER 419 18.4.1 BASE CASE CIRCUIT DESCRIPTION 419 18.4.2 CIRCUIT TIE 47-2 419 18.4.3 CIRCUIT TIE 46-1 420 18.4.4 CIRCUIT TIE 43-2 421 18.4.5 CIRCUIT TIE 102-3 421 18.4.6 BASE CASE RELIABILITY 421 18.5 ALTERNATIVE IMPROVEMENT OPTIONS ANALYSIS 422 18.5.1 INCREMENTAL IMPROVEMENT ALTERNATIVE 1: ADD DISTRIBUTION AUTOMATION SWITCH 422 18.5.2 INCREMENTAL IMPROVEMENT ALTERNATIVE 2: ADD SECTIONALIZING SWITCH 423 18.5.3 INCREMENTAL ALTERNATIVE 3: RELOCATE RECLOSER 255 424 18.5.4 INCREMENTAL IMPROVEMENT ALTERNATIVE 4: PLACE 2 NEW SWITCHES 425 18.6 SUMMARY OF THE ILLUSTRATIVE FEEDER RELIABILITY PERFORMANCE IMPROVEMENT ALTERNATIVES 425 18.7 CONCLUSIONS 426 REFERENCES 426 19 DISTRIBUTED GENERATION 427 19.1 INTRODUCTION 427 19.2 PROBLEM DEFINITION 428 CONTENTS XVII 19.3 ILLUSTRATIVE DISTRIBUTION SYSTEM CONFIGURATION CHARACTERISTICS 430 19.4 RELIABILITY ASSESSMENT MODEL 432 19.4.1 RELIABILITY INDICES 433 19.4.2 RELIABILITY DATA 433 19.5 DISCUSSION OF RESULTS 433 19.5.1 EQUIVALENT DISTRIBUTED GENERATION REINFORCEMENT ALTERNATIVE 434 19.6 CONCLUSIONS 438 REFERENCES 438 20 MODELS FOR SPARE EQUIPMENT 441 20.1 INTRODUCTION 441 20.2 DEVELOPMENT OF PROBABILISTIC MODELS FOR DETERMINING OPTIMAL NUMBER OF TRANSFORMER SPARES 442 20.2.1 RELIABILITY CRITERION MODEL FOR DETERMINING THE OPTIMAL NUMBER OF TRANSFORMER SPARES 442 20.2.2 MEAN TIME BETWEEN FAILURES (MTBFJ CRITERION MODEL FOR DETERMINING THE OPTIMAL NUMBER OF TRANSFORMER SPARES 443 20.2.3 DETERMINATION OF OPTIMAL TRANSFORMER SPARES BASED ON THE MODEL OF STATISTICAL ECONOMICS 444 20.3 OPTIMAL TRANSFORMER SPARES FOR ILLUSTRATIVE 72 KV DISTRIBUTION TRANSFORMER SYSTEMS 445 20.3.1 DETERMINATION OF OPTIMAL TRANSFORMER SPARES BASED ON THE MINIMUM RELIABILITY CRITERION 446 20.3.2 DETERMINATION OF OPTIMAL TRANSFORMER SPARES BASED ON THE MINIMUM MTBF U CRITERION 447 20.3.3 DETERMINATION OF OPTIMAL TRANSFORMER SPARES BASED ON THE CRITERION OF STATISTICAL ECONOMICS 448 20.4 CONCLUSIONS 450 REFERENCES 451 21 VOLTAGE SAGS AND SURGES AT INDUSTRIAL AND COMMERCIAL SITES 453 21.1 INTRODUCTION 453 21.2 ANSI/IEEE STANDARD 446IEEE ORANGE BOOK 454 21.2.1 TYPICAL RANGE FOR INPUT POWER QUALITY AND LOAD PARAMETERS OF MAJOR COMPUTER MANUFACTURERS 454 21.2.2 TYPICAL DESIGN GOALS OF POWER CONSCIOUS COMPUTER MANUFACTURERS (OFTEN CALLED THE CBEMA CURVE) 454 21.3 IEEE STANDARD 493-2007*IEEE GOLD BOOK 455 21.3.1 BACKGROUND 455 XVIII CONTENTS 21.3.2 CASE STUDY: RADIAL DISTRIBUTION SYSTEM 459 21.4 FREQUENCY OF VOLTAGE SAGS 461 21.4.1 INDUSTRIAL CUSTOMER GROUP 462 21.4.2 COMMERCIAL CUSTOMER GROUP 463 21.5 EXAMPLE VOLTAGE SAG PROBLEM: VOLTAGE SAG ANALYSIS OF UTILITY AND INDUSTRIAL DISTRIBUTION SYSTEMS 464 21.5.1 UTILITY DISTRIBUTION SYSTEMS 464 21.5.2 INDUSTRIAL DISTRIBUTION SYSTEM 470 21.6 FREQUENCY AND DURATION OF VOLTAGE SAGS AND SURGES AT INDUSTRIAL SITES: CANADIAN NATIONAL POWER QUALITY SURVEY 472 21.6.1 BACKGROUND 472 21.6.2 VOLTAGE SAGS AND SURGES (TIME OF DAY) 473 21.6.3 VOLTAGE SAGS AND SURGES (DAY OF WEEK) 475 21.6.4 FREQUENCY OF DISTURBANCES MONITORED ON PRIMARY AND SECONDARY SIDES OF INDUSTRIAL SITES 478 21.7 SCATTER PLOTS OF VOLTAGE SAG LEVELS AS A FUNCTION OF DURATION 479 21.8 SCATTER PLOTS OF VOLTAGE SURGE LEVELS AS A FUNCTION OF DURATION 479 21.9 PRIMARY AND SECONDARY VOLTAGE SAGES STATISTICAL CHARACTERISTICS 480 21.10 PRIMARY AND SECONDARY VOLTAGE SURGES STATISTICAL CHARACTERISTICS 481 21.11 CONCLUSIONS 486 REFERENCES 486 SELECTED PROBLEMS AND ANSWERS 489 PROBLEM SET FOR CHAPTERS 2 AND 3 489 ANSWERS TO PROBLEM SET FOR CHAPTERS 2 AND 3 493 PROBLEM SET FOR CHAPTER 4 494 ANSWERS TO PROBLEM SET FOR CHAPTER 4 496 PROBLEM SET FOR CHAPTER 5 497 ANSWERS TO PROBLEM SET FOR CHAPTER 5 497 PROBLEM SET FOR CHAPTER 6 498 ANSWERS TO PROBLEM SET FOR CHAPTER 6 504 PROBLEM SET FOR CHAPTER 7 505 ANSWERS TO PROBLEM SET FOR CHAPTER 7 509 PROBLEM SET FOR CHAPTER 8 510 ANSWERS TO PROBLEM SET FOR CHAPTER 8 512 PROBLEM SET FOR CHAPTER 21 512 ANSWERS TO PROBLEM SET FOR CHAPTER 21 516 INDEX 519
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author	Chowdhury, Ali A. Koval, Don O.
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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id	DE-604.BV036344998
illustrated	Illustrated
indexdate	2024-07-09T22:37:41Z
institution	BVB
isbn	9780470292280
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-020217782
oclc_num	698947905
open_access_boolean
owner	DE-83 DE-523
owner_facet	DE-83 DE-523
physical	XXI, 531 S. graph. Darst.
publishDate	2009
publishDateSearch	2009
publishDateSort	2009
publisher	IEEE Press [u.a.]
record_format	marc
series2	IEEE Press series on power engineering
spelling	Chowdhury, Ali A. Verfasser aut Power distribution system reliability practical methods and applications Ali A. Chowdhury ; Don O. Koval Piscataway, NJ IEEE Press [u.a.] 2009 XXI, 531 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier IEEE Press series on power engineering Electric power systems / Reliability Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd rswk-swf Zuverlässigkeit (DE-588)4059245-5 gnd rswk-swf Elektrizitätsversorgungsnetz (DE-588)4121178-9 s Zuverlässigkeit (DE-588)4059245-5 s DE-604 Koval, Don O. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020217782&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Chowdhury, Ali A. Koval, Don O. Power distribution system reliability practical methods and applications Electric power systems / Reliability Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd Zuverlässigkeit (DE-588)4059245-5 gnd
subject_GND	(DE-588)4121178-9 (DE-588)4059245-5
title	Power distribution system reliability practical methods and applications
title_auth	Power distribution system reliability practical methods and applications
title_exact_search	Power distribution system reliability practical methods and applications
title_full	Power distribution system reliability practical methods and applications Ali A. Chowdhury ; Don O. Koval
title_fullStr	Power distribution system reliability practical methods and applications Ali A. Chowdhury ; Don O. Koval
title_full_unstemmed	Power distribution system reliability practical methods and applications Ali A. Chowdhury ; Don O. Koval
title_short	Power distribution system reliability
title_sort	power distribution system reliability practical methods and applications
title_sub	practical methods and applications
topic	Electric power systems / Reliability Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd Zuverlässigkeit (DE-588)4059245-5 gnd
topic_facet	Electric power systems / Reliability Elektrizitätsversorgungsnetz Zuverlässigkeit
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020217782&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT chowdhuryalia powerdistributionsystemreliabilitypracticalmethodsandapplications AT kovaldono powerdistributionsystemreliabilitypracticalmethodsandapplications

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