Verfügbarkeit: Fault location on power networks

Fault location on power networks:

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Bibliographische Detailangaben
Hauptverfasser:	Saha, Murari Mohan (VerfasserIn), Izykowski, Jan (VerfasserIn), Rosolowski, Eugeniusz (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London [u.a.] Springer 2010
Schriftenreihe:	Power systems
Schlagworte:	Fehlerortung Elektrische Energieübertragung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 425 S. graph. Darst. 235 mm x 155 mm
ISBN:	9781848828858

Internformat

MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS 1 FAULT LOCATION - BASIC CONCEPT AND CHARACTERISTIC OF METHODS ......... 1 1.1 INTRODUCTION ...................................................................................... 1 1.2 AIM OF FAULT LOCATION AND ITS IMPORTANCE ....................................... 2 1.3 FAULT LOCATORS VERSUS PROTECTIVE RELAYS .......................................... 4 1.4 GENERAL DIVISION OF FAULT-LOCATION TECHNIQUES................................ 7 1.5 INPUT SIGNALS OF FAULT LOCATORS ........................................................ 9 1.5.1 PRE-FAULT, FAULT AND POST-FAULT DATA....................................... 9 1.5.2 USE OF DIFFERENT INPUT SIGNALS FOR FAULT LOCATION................. 11 1.6 FAULT-LOCATION ERRORS......................................................................... 14 1.6.1 ACCURACY OF FAULT LOCATION................................................... 14 1.6.2 FACTORS INFLUENCING FAULT-LOCATION ACCURACY ........................ 15 1.7 TRAVELING-WAVE METHOD ................................................................... 17 1.7.1 INTRODUCTION........................................................................... 17 1.7.2 TRAVELING-WAVE FAULT-LOCATION THEORY.................................. 19 1.7.3 DATA AND EQUIPMENT REQUIRED .............................................. 21 1.7.4 CLASSIFICATIONS OF TRAVELING-WAVE METHODS.......................... 23 1.8 HIGH-FREQUENCY METHODS.................................................................. 24 1.8.1 INTRODUCTION........................................................................... 24 1.8.2 BASIC PRINCIPLE AND FAULT-LOCATOR DESIGN.............................. 25 2 NETWORK CONFIGURATIONS AND MODELS..................................................... 27 2.1 INTRODUCTION ...................................................................................... 27 2.2 OVERHEAD LINES................................................................................. 27 2.2.1 SINGLE-CIRCUIT OVERHEAD LINES............................................... 28 2.2.2 DOUBLE-CIRCUIT LINES.............................................................. 29 2.2.3 MULTI-TERMINAL AND TAPPED LINES.......................................... 34 2.2.4 OVERHEAD LINE AND CABLE COMPOSITE NETWORKS ................... 36 2.3 MODELS OF OVERHEAD LINES ............................................................... 37 2.3.1 LUMPED-PARAMETER MODELS ................................................... 38 2.3.2 DISTRIBUTED-PARAMETER MODELS............................................... 48 2.3.3 MODAL TRANSFORMATION .......................................................... 52 2.4 SERIES-COMPENSATED LINES ................................................................ 54 2.5 DISTRIBUTION NETWORKS ...................................................................... 59 2.5.1 BASIC PRINCIPLES OF DISTRIBUTION SYSTEMS .............................. 59 IMAGE 2 VIII CONTENTS 2.5.2 METHODS OF NEUTRAL GROUNDING ............................................. 61 2.5.3 NETWORK REPRESENTATION ........................................................ 64 3 POWER-LINE FAULTS - MODELS AND ANALYSIS .............................................. 67 3.1 INTRODUCTION ...................................................................................... 67 3.2 FAULT ON POWER LINES........................................................................ 68 3.2.1 FAULT TYPES............................................................................ 68 3.2.2 FAULT STATISTICS ....................................................................... 71 3.2.3 MODELS OF RESISTIVE FAULTS IN SYMMETRICAL COMPONENTS...... 71 3.2.4 MODELS OF RESISTIVE FAULTS IN PHASE COORDINATES.................. 77 3.2.5 ARCING FAULTS ......................................................................... 81 3.3 FAULT-IDENTIFICATION ALGORITHMS ........................................................ 87 3.3.1 FAULT DETECTION ...................................................................... 87 3.3.2 PHASE SELECTION...................................................................... 90 3.3.3 DIRECTIONAL DETECTION ............................................................ 94 4 SIGNAL PROCESSING FOR FAULT LOCATION ..................................................... 97 4.1 INTRODUCTION ...................................................................................... 97 4.2 TIME- VERSUS FREQUENCY-DOMAIN ANALYSIS........................................ 98 4.3 PHASOR-BASED ALGORITHMS.................................................................. 109 4.3.1 PHASOR MEASUREMENT ............................................................. 111 4.3.2 DC COMPONENT CONSIDERATION .............................................. 129 4.3.3 SYNCHROPHASORS ..................................................................... 139 4.4 TIME-DOMAIN ANALYSIS ..................................................................... 141 4.4.1 DIFFERENTIAL-EQUATION-BASED APPROACH .................................. 141 4.4.2 LAPLACE-TRANSFORM APPLICATION.............................................. 144 4.5 TIME-FREQUENCY ANALYSIS ................................................................. 146 4.5.1 SHORT-TIME FOURIER TRANSFORM ............................................... 146 4.5.2 WAVELET TRANSFORM................................................................ 149 5 MEASUREMENT CHAINS OF FAULT LOCATORS ................................................ 157 5.1 INTRODUCTION ...................................................................................... 157 5.2 VOLTAGE TRANSFORMERS ....................................................................... 158 5.2.1 TRANSIENT PERFORMANCE .......................................................... 159 5.2.2 DYNAMIC COMPENSATION ........................................................ 163 5.2.3 FREQUENCY RESPONSE.............................................................. 169 5.3 CURRENT TRANSFORMERS ....................................................................... 170 5.3.1 BASICS OF CURRENT TRANSFORMERS ............................................ 170 5.3.2 FAULT LOCATION UNDER CT SATURATION ..................................... 172 5.3.3 FREQUENCY RESPONSE.............................................................. 182 5.4 ANALOG ANTI-ALIASING FILTERS ............................................................. 182 6 ONE-END IMPEDANCE-BASED FAULT-LOCATION ALGORITHMS......................... 187 6.1 INTRODUCTION ...................................................................................... 187 6.2 FAULT LOCATION BASED ON IMPEDANCE MEASUREMENT .......................... 187 6.3 FAULT CURRENT DISTRIBUTION FACTORS.................................................... 191 IMAGE 3 CONTENTS IX 6.3.1 TRANSMISSION NETWORK WITH SINGLE-CIRCUIT LINE ................... 191 6.3.2 TRANSMISSION NETWORK WITH DOUBLE-CIRCUIT LINE.................. 193 6.4 MODELS OF FAULT LOOPS ..................................................................... 197 6.5 FAULT LOCATION WITH USE OF FAULT CURRENT DISTRIBUTION FACTORS........ 200 6.6 FAULT LOCATION RELATED TO DISTANCE-PROTECTION MEASUREMENTS......... 202 6.7 FAULT LOCATION WITH USE OF IMPEDANCE DATA OF NETWORK ................. 203 6.8 FAULT LOCATION ON DOUBLE-CIRCUIT LINE USING COMPLETE MEASUREMENTS AT ONE END................................................................ 208 6.9 FAULT LOCATION ON DOUBLE-CIRCUIT LINE WITH LIMITED MEASUREMENTS AT ONE END................................................................ 213 6.10 FAULT LOCATION UTILIZING ONLY PHASE-CURRENT PHASORS ...................... 218 6.11 FAULT LOCATION WITH LIMITED USE OF CURRENT PHASORS ....................... 220 6.12 FAULT LOCATION WITH ARC-VOLTAGE ESTIMATION .................................... 221 6.13 FAULT LOCATION ON UNTRANSPOSED LINES ............................................. 222 6.14 FAULT LOCATION ON SERIES-COMPENSATED LINES ................................... 227 6.14.1 REPRESENTATION OF COMPENSATING BANK ................................. 227 6.14.2 FAULT LOCATION ON SINGLE SERIES-COMPENSATED LINE .............. 237 6.14.3 FAULT LOCATION ON LINE COMPENSATED AT BOTH ENDS .............. 244 6.14.4 FAULT LOCATION ON DOUBLE-CIRCUIT SERIES-COMPENSATED LINE . 245 6.14.5 DIFFERENTIAL-EQUATION-BASED ALGORITHM ................................. 251 6.15 ACCURACY IMPROVEMENT BY APPLICATION OF DISTRIBUTED-PARAMETER LINE MODEL ....................................................................................... 260 7 TWO-END AND MULTI-END FAULT-LOCATION ALGORITHMS ............................. 263 7.1 INTRODUCTION ...................................................................................... 263 7.2 USE OF TWO-END SYNCHRONIZED MEASUREMENTS ................................. 264 7.2.1 PHASOR-BASED APPROACH......................................................... 264 7.2.2 TIME-DOMAIN APPROACH ........................................................ 265 7.3 USE OF TWO-END UNSYNCHRONIZED MEASUREMENTS............................. 267 7.3.1 FAULT LOCATION WITH MEASUREMENT OF SYNCHRONIZATION ANGLE..................................................................................... 267 7.3.2 ELIMINATION OF SYNCHRONIZATION ANGLE.................................. 273 7.3.3 ANALYTICAL DETERMINATION OF SYNCHRONIZATION ANGLE ............ 276 7.3.4 OPTIMAL TWO-END UNSYNCHRONIZED FAULT-LOCATION ALGORITHM .............................................................................. 277 7.3.5. SYNCHRONIZATION OF MEASUREMENTS OF DISTANCE RELAYS ......... 284 7.3.6 USE OF UNSYNCHRONIZED MEASUREMENTS OF DISTANCE RELAYS.. 295 7.4 USE OF INCOMPLETE TWO-END MEASUREMENTS ..................................... 298 7.4.1 USE OF TWO-END VOLTAGES...................................................... 298 7.4.2 USE OF TWO-END VOLTAGES AND ONE-END CURRENT ................... 300 7.4.3 USE OF TWO-END CURRENTS AND ONE-END VOLTAGE ................... 306 7.4.4 FAULT LOCATION WITH EXCHANGE OF LIMITED INFORMATION......... 309 7.5 TWO-END FAULT LOCATION ON SERIES-COMPENSATED LINES.................... 310 7.5.1 INTRODUCTION........................................................................... 310 7.5.2 FAULT-LOCATION SUBROUTINES .................................................... 311 IMAGE 4 X CONTENTS 7.5.3 SELECTION OF VALID SUBROUTINE ............................................... 313 7.6 RECENT DEVELOPMENTS OF TWO-END FAULT LOCATION ........................... 317 7.7 FAULT LOCATION ON THREE-TERMINAL LINES ........................................... 318 7.7.1 USE OF THREE-END MEASUREMENTS........................................... 319 7.7.2 FAULT LOCATION ASSOCIATED WITH CURRENT DIFFERENTIAL PROTECTIVE RELAYS................................................................... 322 7.7.3 USE OF TWO-END MEASUREMENTS............................................. 325 7.7.4 USE OF MINIMAL MEASUREMENTS ............................................. 328 7.8 FAULT LOCATION ON MULTI-TERMINAL AND TAPPED LINES........................ 329 8 FAULT LOCATION IN DISTRIBUTION NETWORKS............................................... 333 8.1 INTRODUCTION ...................................................................................... 333 8.2 FAULTS IN DISTRIBUTION SYSTEM ........................................................... 334 8.2.1 SOLIDLY GROUNDED NETWORKS.................................................. 335 8.2.2 LOCATING FAULTS ON COMPENSATED DISTRIBUTION NETWORKS...... 337 8.2.3 LOCATING FAULTS ON UNDERGROUND AND PARALLELED CABLES ....... 338 8.3 REVIEW OF THE STANDARD FAULT-LOCATION TECHNIQUES FOR DISTRIBUTION SYSTEMS................................................................... 339 8.3.1 METHOD BASED ON LUMPED-PARAMETERS NETWORK MODEL ....... 339 8.3.2 TECHNIQUE WITH TWO-PORT NETWORK SECTION REPRESENTATION . 341 8.3.3 ALGORITHM BASED ON FAULT-RECORDER DATA .............................. 345 8.3.4 GENERAL FORM OF IMPEDANCE-BASED ALGORITHMS .................... 352 8.4. REVIEW OF NON-STANDARD FAULT-LOCATION TECHNIQUES FOR DISTRIBUTION SYSTEMS................................................................... 358 8.4.1 DMS-BASED FAULT LOCATION ................................................... 359 8.4.2 ARTIFICIAL INTELLIGENT FAULT-LOCATION TECHNIQUES FOR DISTRIBUTION SYSTEMS........................................................ 360 9 ARTIFICIAL INTELLIGENCE APPLICATION .......................................................... 361 9.1 INTRODUCTION ...................................................................................... 361 9.2 ARTIFICIAL INTELLIGENCE METHODS......................................................... 362 9.2.1 EXPERT SYSTEMS...................................................................... 363 9.2.2 FUZZY LOGIC........................................................................... 364 9.2.3 ARTIFICIAL NEURAL NETWORKS.................................................... 375 9.2.4 GENETIC ALGORITHMS ............................................................... 386 9.3 APPLICATION EXAMPLES....................................................................... 389 9.3.1 PHASE SELECTION...................................................................... 389 9.3.2 FAULT-DIRECTION DETECTION....................................................... 395 9.3.3 FAULT LOCATION USING ANN ................................................... 395 9.3.4 WAVELET-TRANSFORM APPLICATION ............................................. 400 9.3.5 GENETIC ALGORITHMS APPLICATION ........................................... 405 REFERENCES ........................................................................................................ 407 INDEX ................................................................................................................. 423
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author	Saha, Murari Mohan Izykowski, Jan Rosolowski, Eugeniusz
author_facet	Saha, Murari Mohan Izykowski, Jan Rosolowski, Eugeniusz
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format	Book
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series2	Power systems
spelling	Saha, Murari Mohan Verfasser aut Fault location on power networks Murari Mohan Saha ; Jan Izykowski ; Eugeniusz Rosolowski London [u.a.] Springer 2010 X, 425 S. graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Power systems Fehlerortung (DE-588)4236030-4 gnd rswk-swf Elektrische Energieübertragung (DE-588)4134708-0 gnd rswk-swf Elektrische Energieübertragung (DE-588)4134708-0 s Fehlerortung (DE-588)4236030-4 s DE-604 Izykowski, Jan Verfasser aut Rosolowski, Eugeniusz Verfasser aut Erscheint auch als Online-Ausgabe 978-1-84882-886-5 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021115197&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Saha, Murari Mohan Izykowski, Jan Rosolowski, Eugeniusz Fault location on power networks Fehlerortung (DE-588)4236030-4 gnd Elektrische Energieübertragung (DE-588)4134708-0 gnd
subject_GND	(DE-588)4236030-4 (DE-588)4134708-0
title	Fault location on power networks
title_auth	Fault location on power networks
title_exact_search	Fault location on power networks
title_full	Fault location on power networks Murari Mohan Saha ; Jan Izykowski ; Eugeniusz Rosolowski
title_fullStr	Fault location on power networks Murari Mohan Saha ; Jan Izykowski ; Eugeniusz Rosolowski
title_full_unstemmed	Fault location on power networks Murari Mohan Saha ; Jan Izykowski ; Eugeniusz Rosolowski
title_short	Fault location on power networks
title_sort	fault location on power networks
topic	Fehlerortung (DE-588)4236030-4 gnd Elektrische Energieübertragung (DE-588)4134708-0 gnd
topic_facet	Fehlerortung Elektrische Energieübertragung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021115197&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT sahamurarimohan faultlocationonpowernetworks AT izykowskijan faultlocationonpowernetworks AT rosolowskieugeniusz faultlocationonpowernetworks

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