Verfügbarkeit: Silicone composite insulators

Silicone composite insulators: materials, design, applications

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Bibliographische Detailangaben
Hauptverfasser:	Papailiou, Konstantin O. (VerfasserIn), Schmuck, Frank (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2013
Schriftenreihe:	Power systems
Schlagworte:	Langzeitverhalten Glasfaserverstärkter Kunststoff Bemessung Werkstoffwahl Isolierhülle Hochspannungsisolator Verbundwerkstoff Silicongummi
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIX, 495 S. Ill., graph. Darst.
ISBN:	9783642153198

Internformat

MARC


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Datensatz im Suchindex

_version_	1806325758800429056
adam_text	IMAGE 1 1 INTRODUCTION 1 1.1 ADVANTAGES AND DEVELOPMENT OF COMPOSITE INSULATORS 1 1.2 EXPERIENCE WITH COMPOSITE INSULATORS 2 1.3 USE OF COMPOSITE INSULATORS IN HIGH-VOLTAGE OVERHEAD TRANSMISSION LINES 5 1.4 USE OF COMPOSITE INSULATORS IN ELECTRICAL APPARATUS AND OUTDOOR SUBSTATIONS 5 1.5 CURRENT STATUS OF STANDARDISATION 7 REFERENCES 8 2 COMPOSITE LONG ROD INSULATORS 9 2.1 APPLICATIONS OF COMPOSITE LONG ROD INSULATORS 10 2.2 BEHAVIOUR OF COMPOSITE LONG ROD INSULATORS UNDER MECHANICAL LOAD 11 2.2.1 LONG-TERM BEHAVIOUR OF COMPOSITE LONG ROD INSULATORS 14 2.3 BEHAVIOUR OF COMPOSITE LONG ROD INSULATORS UNDER DYNAMIC LOAD 24 2.4 DESIGN AND ASSEMBLY OF END FITTINGS FOR COMPOSITE LONG RODS 28 2.4.1 DEVELOPMENT AND STATE OF THE ART TECHNOLOGY OF METAL FITTINGS 28 2.4.2 BASIC CONSIDERATIONS REGARDING THE DESIGN OF CRIMPED FITTINGS 29 2.4.3 ASSEMBLY OF CRIMPED FITTINGS 32 2.4.4 CALCULATIONS 32 2.4.5 SIMPLE ANALYTICAL METHOD 33 2.4.6 COMPLEX ANALYTICAL METHOD 34 2.4.7 NUMERICAL SIMULATION METHODS 42 REFERENCES 51 XI HTTP://D-NB.INFO/1005009708 IMAGE 2 XII CONTENTS 3 COMPOSITE POST INSULATORS 53 3.1 KEY PROPERTIES 55 3.2 APPLICATIONS OF COMPOSITE POST INSULATORS 56 3.3 BEHAVIOUR OF COMPOSITE POST INSULATORS WITH BENDING 60 3.3.1 GENERAL CONSIDERATIONS 60 3.3.2 ADOPTION OF A DAMAGE LIMIT 60 3.4 MANUFACTURER SPECIFICATIONS WITH REGARD TO THE SCL/MDCL CONCEPT 68 3.5 SAFE FAILURE MODE OF COMPOSITE POST INSULATORS 70 3.6 COMBINED LOADS 73 3.6.1 LOAD DIAGRAMS 73 3.6.2 EXAMPLES 75 3.6.3 COMPUTER SIMULATION 76 3.6.4 TESTS 77 3.7 DYNAMIC LOADS 77 3.7.1 TEST SPECIMENS 77 3.7.2 TEST METHOD 78 3.7.3 TEST RESULTS 79 3.8 CONSTRUCTIONAL REQUIREMENTS OF THE END FITTINGS 79 3.9 ANALYTICAL CALCULATION METHODS 81 3.9.1 SIMPLE ANALYTICAL METHOD 81 3.9.2 COMPLEX ANALYTICAL METHOD 82 3.10 NUMERICAL SIMULATION 86 3.10.1 FINITE ELEMENT MODEL 87 3.10.2 TESTING ARRANGEMENT 88 3.11 BEHAVIOUR OF COMPOSITE POST INSULATORS IN THE EVENT OF FAILURE 89 3.12 SENSITIVITY ANALYSIS 93 REFERENCES 94 4 INSULATED CROSS-ARMS FOR COMPACT LINES 97 4.1 INTRODUCTION 98 4.2 PRINCIPLES OF COMPACTION 99 4.2.1 INFLUENCE OF CONDUCTOR SUSPENSION ON THE TOWER. . 99 4.2.2 OPTIONS FOR LINE COMPACTION 99 4.3 MECHANICAL DESIGN OF INSULATED CROSS-ARMS 102 4.3.1 RIGID INSULATED CROSS-ARMS 105 4.3.2 PIVOTED INSULATED CROSS-ARMS (HORIZONTAL VS) 107 4.3.3 DYNAMIC LOADS ILL 4.3.4 STABILITY TESTS 113 4.4 INNOVATIVE APPLICATIONS OF COMPACT LINES 120 4.4.1 400 KV LINE WITH HOLLOW CORE INSULATORS IN SWITZERLAND 121 IMAGE 3 CONTENTS XIII 4.4.2 EMERGENCY RESTORATION SYSTEMS WITH COMPOSITE INSULATORS 122 4.4.3 420 KV DOUBLE CIRCUIT LINE WITH SOLID CORE COMPOSITE CROSS-ARMS 124 REFERENCES 125 5 INTERPHASE SPACERS 127 5.1 INTRODUCTION 129 5.2 CIGRE SURVEY 129 5.2.1 ASSESSMENT OF SURVEY RESPONSES 129 5.2.2 OPERATIONAL EXPERIENCE 133 5.3 ATTACHMENT TECHNIQUES 133 5.4 MECHANICAL DESIGN OF INTERPHASE SPACERS 135 5.4.1 GALLOPING 136 5.4.2 SHEDDING OF ICE LOADS 142 5.4.3 ELECTRODYNAMIC SHORT-CIRCUIT LOADS 144 5.4.4 BUCKLING BEHAVIOUR OF INTERPHASE SPACERS 149 5.5 ELECTRICAL DESIGN OF INTERPHASE SPACERS 153 5.5.1 MINIMUM LENGTH 153 5.5.2 CORONA EFFECTS 155 5.5.3 POLLUTION 156 5.6 APPLICATIONS 157 5.6.1 COMPACT LINE FOR MEDIUM VOLTAGE 157 5.6.2 INTERPHASE SPACERS IN THE EVENT OF GALLOPING CAUSED BY ICE SHEDDING 160 5.6.3 THE TENNIS RACKET TOWER 161 REFERENCES 162 6 COMPOSITE HOLLOW CORE INSULATORS 165 6.1 MAIN PROPERTIES OF COMPOSITE HOLLOW CORE INSULATORS 166 6.2 COMPOSITE INSULATORS IN OUTDOOR SUBSTATIONS 167 6.2.1 BUSHINGS 167 6.2.2 SURGE ARRESTERS 168 6.2.3 OUTDOOR TERMINATIONS FOR CABLES WITH EXTRUDED INSULATION 168 6.2.4 CURRENT AND VOLTAGE TRANSFORMERS 169 6.2.5 OUTDOOR CIRCUIT BREAKERS 170 6.3 SERVICE EXPERIENCE 170 6.4 MAIN COMPONENTS OF COMPOSITE HOLLOW CORE INSULATORS . 173 6.4.1 FRP TUBE 173 6.4.2 END FITTINGS 173 IMAGE 4 XIV CONTENTS 6.5 MECHANICAL BEHAVIOUR OF COMPOSITE HOLLOW CORE INSULATORS UNDER BENDING 175 6.5.1 FAILURE MECHANISMS OF COMPOSITE HOLLOW CORE INSULATORS AND DIAGNOSTIC METHODS 175 6.5.2 THE CONCEPT OF THE "DAMAGE LIMIT LOAD" IN COMPOSITE HOLLOW CORE INSULATORS 176 6.6 TESTING OF COMPOSITE HOLLOW CORE INSULATORS 176 6.6.1 DEFINITIONS OF THE LOADS 176 6.6.2 BENDING LOADS 179 6.6.3 PRESSURE LOADS 179 6.6.4 EXAMPLES OF PRACTICAL TESTS ACCORDING TO IEC 61462 182 6.7 MECHANICAL DESIGN OF COMPOSITE HOLLOW CORE INSULATORS. 185 6.7.1 SIMPLE ANALYTICAL METHOD 187 6.7.2 NUMERICAL SIMULATION METHODS 188 REFERENCES 194 7 MATERIAL SELECTION AND MANUFACTURING PROCESSES FOR COMPOSITE INSULATORS WITH SILICONE RUBBER HOUSING 1 97 7.1 INTRODUCTION 198 7.2 COMPONENTS/SEMI-FINISHED PARTS FOR COMPOSITE INSULATORS . . . 200 7.2.1 (END) FITTINGS 200 7.2.2 INTERNAL INSULATION 205 7.2.3 OUTER INSULATION-SILICONE RUBBER GRADES FOR THE INSULATOR HOUSING 224 7.3 PROCESSES 247 7.3.1 FITTING ASSEMBLY 247 7.3.2 APPLYING THE INSULATOR HOUSING AND SEAL 255 7.4 SUMMARY 275 REFERENCES 276 8 COMPOSITE INSULATOR DESIGN FROM THE PERSPECTIVE OF CORONA PROTECTION 285 8.1 INTRODUCTION 286 8.2 CORONA AS A DESIGN PROBLEM: RECENT EXAMPLES 288 8.2.1 AN EXAMPLE FOR 525 KV-DOUBLE TENSION SET ON A LATTICE TOWER 288 8.2.2 AN EXAMPLE FOR 245 KV-DOUBLE TENSION STRING AT A STATION ENTRY POINT 290 8.2.3 EXAMPLES FOR 115/138/145 KV-VARIOUS INSULATOR SETS 292 8.3 ANALYSIS OF THE ELECTRICAL FIELD OF COMPOSITE INSULATOR SETS BEING INSTALLED IN SERVICE 295 8.4 CURRENT STANDARDISATION 295 IMAGE 5 CONTENTS XV 8.5 WATER DROPLET CORONA ON HYDROPHOBIC HOUSING MATERIALS . . . 298 8.5.1 FORMATION OF WATER DROPLET CORONA 299 8.5.2 EFFECT OF CORONA ON POLYMERIC SURFACE, ESPECIALLY SILICONE RUBBER 304 8.5.3 CORONA: POTENTIAL FOR DAMAGE 314 8.6 ADDITIONAL REQUIREMENTS FOR COMPOSITE INSULATORS OR COMPOSITE INSULATOR SETS 315 8.6.1 MATERIAL AND GEOMETRY DIFFERENCES 315 8.6.2 CALCULATING THE ELECTRICAL FIELD STRESS 317 8.7 EMPIRICAL THRESHOLD VALUES FOR CORONA PREVENTION 324 8.8 420 KV COMPOSITE INSULATOR SETS AFTER 10 YEARS IN SERVICE 325 8.8.1 OVERMOULDED DESIGN 326 8.8.2 MODULAR DESIGN 330 8.9 SUMMARY 334 REFERENCES 335 9 POWER ARC PROTECTIVE FITTINGS FOR COMPOSITE LONG ROD INSULATORS 339 9.1 INTRODUCTION 340 9.2 POWER ARCS AS A PHYSICAL PHENOMENON 340 9.2.1 CAUSES OF FLASHOVER ON A COMPOSITE INSULATOR STRING/SET 340 9.2.2 THE POWER ARC 341 9.2.3 PRINCIPLES OF POWER ARC PROTECTION 343 9.3 THE POWER ARC EFFECTS 348 9.3.1 PORCELAIN LONG ROD AND PORCELAIN AS WELL AS GLASS CAP AND PIN INSULATORS 348 9.3.2 COMPOSITE INSULATORS 349 9.3.3 SUMMARY COMPARISON OF EFFECTS 353 9.3.4 PERIPHERAL PROTECTION 353 9.4 DESIGNING POWER ARC PROTECTIVE FITTINGS 355 9.4.1 MATERIAL SELECTION 355 9.4.2 DENSITY OF FAULT CURRENT IN THE ELEMENTS OF AN INSULATOR STRING 358 9.5 TESTS RELATED TO POWER ARC PROTECTION 359 9.5.1 MATERIALS TESTING OF HOUSING MATERIALS (DESIGN TEST) 359 9.5.2 STRING/SET TEST FROM A CURRENT DENSITY PERSPECTIVE: SHORT CIRCUIT TEST 362 9.5.3 STRING/SET TEST FROM A POWER ARC EFFECT PERSPECTIVE: POWER ARC TEST 363 IMAGE 6 XVI CONTENTS 9.6 A SELECTION OF PROJECT EXAMPLES 366 9.6.1 MISUSE OF POWER ARC PROTECTIVE FITTINGS FOR CAP AND PIN INSULATOR STRINGS IN COMPOSITE INSULATOR STRINGS 366 9.6.2 COORDINATION BETWEEN A CORONA RING AND POWER ARC PROTECTIVE FITTING 369 9.6.3 DIRECT MOUNTING OF POWER ARC PROTECTIVE FITTINGS ONTO COMPOSITE INSULATOR END FITTINGS 370 9.6.4 EFFECT OF THE STRING/SET DESIGN ON THE TOWER 372 9.7 SUMMARY 375 REFERENCES 376 10 IN-LAB EVALUATION OF COMPOSITE INSULATORS FOLLOWING THEIR WITHDRAWAL FROM THE NETWORK 379 10.1 INTRODUCTION 380 10.1.1 IS IT NECESSARY TO EVALUATE COMPOSITE INSULATORS? . . . 381 10.1.2 INTERFACE AREAS AS A KEY DIFFERENCE FOR COMPOSITE INSULATORS 382 10.2 REASONS FOR EVALUATING COMPOSITE INSULATORS FOLLOWING THEIR WITHDRAWAL FROM THE NETWORK 382 10.2.1 EVALUATION OF AN INSULATOR INSTALLATION IN TERMS OF ITS (AGEING) STATE 382 10.2.2 EVALUATION OF AN INSULATOR FAILURE OR INSULATOR TYPE WITH A HIGH RISK OF FAILURE 383 10.2.3 EVALUATION OF COMPOSITE INSULATORS FOR RESEARCH PURPOSES 385 10.3 COMPOSITE INSULATOR FAILURE RATE AND FAILURES 385 10.3.1 USA/EPRI 385 10.3.2 CIGRE SURVEY, PUBLISHED IN 2000 386 10.3.3 SERVICE EXPERIENCES IN CHINA 388 10.4 COMMONLY USED TEST STRATEGIES 389 10.4.1 IDENTIFICATION OF TEST SPECIMENS 389 10.4.2 TEST SEQUENCE 390 10.4.3 SUMMARY OF TEST METHODS AND FAILURE CRITERIA 409 10.5 EXAMPLES OF TESTING PROGRAMMES AND THEIR RESULTS 409 10.5.1 EXAMPLE 1-A 420 KV COMPOSITE INSULATOR (STEPPED INJECTION MOULDING VARIANT) AFTER 10 YEARS IN SERVICE 410 10.5.2 EXAMPLE 2-A 420 KV COMPOSITE INSULATOR (MODULAR VARIANT) AFTER 10 YEARS IN SERVICE 420 10.5.3 EXAMPLE 3-15 KV COMPOSITE INSULATORS AFTER 15 YEARS IN SERVICE IN A RAILWAY TUNNEL SYSTEM. . . . 429 IMAGE 7 CONTENTS XVII 10.5.4 EXAMPLE 4-ANALYSIS OF ZINC LAYER THICKNESSES AND THE HYDROPHOBIC EFFECT AFTER 30 YEARS IN A 15 KV SERVICE IN A RAILWAY TUNNEL 434 10.5.5 EXAMPLE 5-EVALUATION OF 123 KV INSULATORS FOR THE PURPOSE OF PRODUCT QUALIFICATION 439 10.5.6 EXAMPLE FOR DERIVING RELIABILITY FIGURES 444 10.6 SUMMARY 447 REFERENCES 447 11 OVERVIEW OF STANDARDS AND TESTS CONCERNING COMPOSITE INSULATORS 451 11.1 INTRODUCTION 452 11.2 CURRENT IEC STANDARDISATION FOR COMPOSITE INSULATORS AND SIMILARITIES IN COMPARISON TO CONVENTIONAL INSULATORS AND INSULATOR STRINGS/SETS 454 11.3 SPECIAL FLAME RESISTANCE TESTS 456 11.4 TEST METHODS FOR EVALUATING CERTAIN PROPERTIES OF POLYMERIC HOUSING MATERIALS 456 11.5 INCLINED PLANE TEST 459 11.5.1 EROSION AND TRACKING RESISTANCE 459 11.5.2 INCLINED PLANE TEST PRINCIPLE FOR EVALUATING THE RESISTANCE OF HYDROPHOBICITY 473 11.5.3 THE INCLINED PLANE TEST PRINCIPLE FOR EVALUATING THE HYDROPHOBICITY TRANSFER 474 11.6 FINGER-PRINT ANALYSIS OF POLYMERIC HOUSING MATERIALS 476 11.6.1 BACKGROUND 476 11.6.2 OVERVIEW OF PROCESSES 477 11.6.3 PROCESSES AND EXAMPLES: A CLOSER LOOK 478 11.7 SUMMARY 482 REFERENCES 484 INDEX 489
any_adam_object	1
author	Papailiou, Konstantin O. Schmuck, Frank
author_facet	Papailiou, Konstantin O. Schmuck, Frank
author_role	aut aut
author_sort	Papailiou, Konstantin O.
author_variant	k o p ko kop f s fs
building	Verbundindex
bvnumber	BV041257263
classification_rvk	ZN 8460
ctrlnum	(OCoLC)824604319 (DE-599)DNB1005009708
dewey-full	621.31937
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	621 - Applied physics
dewey-raw	621.31937
dewey-search	621.31937
dewey-sort	3621.31937
dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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id	DE-604.BV041257263
illustrated	Illustrated
indexdate	2024-08-03T00:54:41Z
institution	BVB
isbn	9783642153198
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026231170
oclc_num	824604319
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	XIX, 495 S. Ill., graph. Darst.
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Springer
record_format	marc
series2	Power systems
spelling	Papailiou, Konstantin O. Verfasser aut Silicone composite insulators materials, design, applications Konstantin O. Papailiou ; Frank Schmuck Berlin [u.a.] Springer 2013 XIX, 495 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Power systems Literaturangaben Langzeitverhalten (DE-588)4120653-8 gnd rswk-swf Glasfaserverstärkter Kunststoff (DE-588)4021156-3 gnd rswk-swf Bemessung (DE-588)4005461-5 gnd rswk-swf Werkstoffwahl (DE-588)4136338-3 gnd rswk-swf Isolierhülle (DE-588)4362616-6 gnd rswk-swf Hochspannungsisolator (DE-588)4160242-0 gnd rswk-swf Verbundwerkstoff (DE-588)4062670-2 gnd rswk-swf Silicongummi (DE-588)4378328-4 gnd rswk-swf Hochspannungsisolator (DE-588)4160242-0 s Verbundwerkstoff (DE-588)4062670-2 s Glasfaserverstärkter Kunststoff (DE-588)4021156-3 s Isolierhülle (DE-588)4362616-6 s Silicongummi (DE-588)4378328-4 s Werkstoffwahl (DE-588)4136338-3 s Bemessung (DE-588)4005461-5 s Langzeitverhalten (DE-588)4120653-8 s DE-604 Schmuck, Frank Verfasser aut Erscheint auch als Online-Ausgabe 978-3-642-15320-4 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3517479&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026231170&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Papailiou, Konstantin O. Schmuck, Frank Silicone composite insulators materials, design, applications Langzeitverhalten (DE-588)4120653-8 gnd Glasfaserverstärkter Kunststoff (DE-588)4021156-3 gnd Bemessung (DE-588)4005461-5 gnd Werkstoffwahl (DE-588)4136338-3 gnd Isolierhülle (DE-588)4362616-6 gnd Hochspannungsisolator (DE-588)4160242-0 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Silicongummi (DE-588)4378328-4 gnd
subject_GND	(DE-588)4120653-8 (DE-588)4021156-3 (DE-588)4005461-5 (DE-588)4136338-3 (DE-588)4362616-6 (DE-588)4160242-0 (DE-588)4062670-2 (DE-588)4378328-4
title	Silicone composite insulators materials, design, applications
title_auth	Silicone composite insulators materials, design, applications
title_exact_search	Silicone composite insulators materials, design, applications
title_full	Silicone composite insulators materials, design, applications Konstantin O. Papailiou ; Frank Schmuck
title_fullStr	Silicone composite insulators materials, design, applications Konstantin O. Papailiou ; Frank Schmuck
title_full_unstemmed	Silicone composite insulators materials, design, applications Konstantin O. Papailiou ; Frank Schmuck
title_short	Silicone composite insulators
title_sort	silicone composite insulators materials design applications
title_sub	materials, design, applications
topic	Langzeitverhalten (DE-588)4120653-8 gnd Glasfaserverstärkter Kunststoff (DE-588)4021156-3 gnd Bemessung (DE-588)4005461-5 gnd Werkstoffwahl (DE-588)4136338-3 gnd Isolierhülle (DE-588)4362616-6 gnd Hochspannungsisolator (DE-588)4160242-0 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Silicongummi (DE-588)4378328-4 gnd
topic_facet	Langzeitverhalten Glasfaserverstärkter Kunststoff Bemessung Werkstoffwahl Isolierhülle Hochspannungsisolator Verbundwerkstoff Silicongummi
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3517479&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026231170&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT papailioukonstantino siliconecompositeinsulatorsmaterialsdesignapplications AT schmuckfrank siliconecompositeinsulatorsmaterialsdesignapplications

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