ANSI IEEE 987-2001 Guide for Application of Composite Insulators《复合绝缘体的应用指南》.pdf

1、IEEE Std 987-2001(Revision of IEEE Std 987-1985)IEEE Standards987TMIEEE Guide for Application ofComposite InsulatorsPublished by The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USA6 May 2002IEEE Power Engineering SocietySponsored by theTransmission

2、and Distribution CommitteeIEEE StandardsPrint: SH94974PDF: SS94974Recognized as anAmerican National Standard (ANSI)The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USACopyright 2002 by the Institute of Electrical and Electronics Engineers, Inc.All ri

3、ghts reserved. Published 6 May 2002. Printed in the United States of America.Print:ISBN 0-7381-3094-X SH94974PDF:ISBN 0-7381-3095-8 SS94974No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher.

4、IEEE Std 987-2001(Revision of IEEE Std 987-1985)IEEE Guide for Application ofComposite InsulatorsSponsorTransmission and Distribution Committeeof theIEEE Power Engineering SocietyApproved 30 April 2002American National Standards InstituteApproved 6 December 2001IEEE-SA Standards BoardAbstract:A guid

5、e to the application of composite insulators to overhead transmission anddistribution lines is provided. It is based on utility field experience, results of research laboratorytests, and manufacturers recommendations. The guide deals with composite insulators, whichinclude a core, weathersheds, and

6、metal end fittings. The core consists of resin and axially-alignedglass fibres. The weathersheds are of polymeric materials.Keywords:composite insulators, non-ceramic insulators, polymer insulatorsIEEE Standardsdocuments are developed within the IEEE Societies and the Standards Coordinating Committe

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23、 All rights reserved.iiiIntroduction(This introduction is not part of IEEE Std 987-2001, IEEE Guide for Application of Composite Insulators.)Since the first application guide, great strides have been made in the understanding of polymer material prop-erties and composite insulator design characteris

24、tics. Of the few remaining concerns that utilities have todayin using composite insulators, surely the greatest ones are on the aging and life expectancy of these insulators.Initially weathering was considered to be the main factor in limiting life. Although weathering has beenshown to age polymer m

25、aterials, there is a growing body of experience suggesting that composite insulatorlife is more related to design characteristics and/or quality control during their manufacture. With present daypolymer material technology used in good designs and with good quality control during their manufacture,

26、itis entirely feasible to produce composite insulators that will have adequate service life. There are installationswhere polymer insulators have been in service for more than 25 years. This application guide is founded on field experiences, laboratory tests, and on manufacturersrecommendations. It

27、was prepared by a task force of the working group on Non-Ceramic Insulators,Lightning and Insulator Subcommittee, Transmission and Distribution Committee of the IEEE PowerEngineering Society. At the time this guide was approved, G. G. Karady was the chairman of the workinggroup. J. Kuffel served as

28、the chairman of the task force and was instrumental in guiding development of thisguide. The task force members were as follows:G. G. Karady,ChairJ. Kuffel,Chair, Non-Ceramic Insulation Task GroupG. AmburgeyG. BakerT. BakerA. BernstorfG. BolenR. BrownJ. BurnhamT. CarreiraJ. CartwrightE. CherneyL. Co

29、ffeenC. de TourreilR. GemignaniE. GnandtR. GorurW. GuidiJ. HallR HarrbridgeR. HamonR. HartingsT. ImakomaA. S. JagtianiG. KaradyJ. KiseJ. KindersbergerA. KuchlerA. MaiJ. McBrideJ. NichollsT. OrbekL. PargaminG. PowellT. RahillT. RozekA. SchwalmG. StewartJ. StewartS. SundharZ. SzilagyiL. WakefieldQ. J.

30、 YuivCopyright 2002 IEEE. All rights reserved.The following members of the balloting committee voted on this standard. Balloters may have voted forapproval, disapproval, or abstention. When the IEEE-SA Standards Board approved this standard on 6 December 2001, it had the followingmembership:Donald N

31、. Heirman,ChairJames T. Carlo,Vice ChairJudith Gorman,Secretary*Member EmeritusAlso included is the following nonvoting IEEE-SA Standards Board liaison:Alan Cookson, NIST RepresentativeDonald R. Volzka, TAB RepresentativeMichelle TurnerIEEE Standards Associate Project EditorAnthony C. BakerR. Allen

32、BernstorfJoseph F. BuchEd CherneyJames F. ChristensenR. DeckerFrank A. DenbrockClaude deTourreilDale A. DouglassJim DuxburyEdward DziedzicGeorge GelaRobert GemignaniErich GnandtEdwin J. GoodwinRavi GorurStan GrzybowskiRalf HartingsRichard W. HenselGeorge G. KaradyNestor KolcioSamy G. KrishnasamyJohn

33、 KuffelRobert C. LathamKeith E. LindseyJ. David MitchellAbdul M. MousaRonald J. OedemannLaurent PargaminRobert C. PetersT. A. PinkhamOrville J. PlumTim RahillJohn G. ReckleffJerry L. RedingThomas J. RozekJohn RumbleDonald SandellAndy SchwalmMinesh ShahGerald A. StewartSri SundharJohn TorokDaniel J.

34、WardSatish K. AggarwalMark D. BowmanGary R. EngmannHarold E. EpsteinH. Landis FloydJay Forster*Howard M. FrazierRuben D. GarzonJames H. GurneyRichard J. HollemanLowell G. JohnsonRobert J. KennellyJoseph L. Koepfinger*Peter H. LipsL. Bruce McClungDaleep C. MohlaJames W. MooreRobert F. MunznerRonald C

35、. PetersenGerald H. PetersonJohn B. PoseyGary S. RobinsonAkio TojoDonald W. ZipseCopyright 2002 IEEE. All rights reserved.vContents1. Overview 11.1 Scope 12. References 13. Definitions 23.1 Structural terms 23.2 Electrical terms 24. Service experience of composite insulators. 34.1 Service experience

36、 with alternating current (ac) systems 34.2 Service experience with direct current (dc) systems 45. Polymer aging and long-term endurance of high-voltage (HV) composite insulators 45.1 Mechanical aging. 55.2 Electrical aging 55.3 Insulator design and aging . 65.4 Aging tests . 66. Mechanical conside

37、rations for suspension insulators 66.1 Tension ratings. 66.2 Compression loads. 76.3 Bending 76.4 Torsion . 76.5 Combined loads . 77. Mechanical considerations for line post insulators 77.1 Mechanical rating criterion 77.2 Tension loads . 87.3 Compression loads. 87.4 Torsion loads 87.5 Combined load

38、s . 88. Interchangeability of insulators 88.1 Suspension insulators. 88.2 Post insulators 99. Grading devices . 109.1 Suspension insulators. 109.2 Dead-end insulators . 109.3 Phase-to-Phase insulators. 109.4 Post insulators 11viCopyright 2002 IEEE. All rights reserved.10. Maintenance. 1110.1 Insulat

39、or cleaning. 1110.2 Greasing . 1110.3 Damaged insulators 1111. General. 1111.1 Contamination 1111.2 Leakage distance requirements 1211.3 Icing . 1211.4 Temperature limits. 1211.5 Chemical environment. 1311.6 Power arc damage 1312. Handling. 1312.1 Packaging. 1312.2 Removal from packing. 1312.3 Handl

40、ing, transportation, and installation13Annex A (informative) Bibliography. 15Copyright 2002 IEEE. All rights reserved.1IEEE Guide for Application of Composite Insulators1. Overview1.1 Scope This is a guide for the application of composite insulators to overhead transmission and distribution lines. I

41、tis based on utility field experiences, results of research laboratory tests, and manufacturersrecommendations.The guide deals with composite insulators, that include a core, weathersheds, and metal end fittings. Thecore consists of resin and axially-aligned glassfibres. The weathersheds are of poly

42、meric materials.2. ReferencesThis guide shall be used in conjunciton with the following publications. When the following specificationsare superseded by an approved revision, the revision shall apply.ANSI C29.11-1989, Composite Suspension Insulators for Overhead Transmission LinesTests.1IEC 60383-1

43、(1993-04), Insulators for overhead lines with a nominal voltage above 1000 V Part 1:Ceramic or glass insulator units for a.c. systems Definitions, test methods and acceptance criteria.2IEC 61109 (1992-03), Composite Insulators for a.c. overhead lines with a nominal voltage greater than1000 V Definit

44、ions, test methods and acceptance criteria.IEEE Std 1024-1988, IEEE Recommended Practice for Specifying Distribution Composite Insulators.31ANSI publications are available from the Sales Department, American National Standards Institute, 25 West 43rd Street, 4th Floor,New York, NY 10036, USA (http:/

45、www.ansi.org/).2IEC publications are available from the Sales Department of the International Electrotechnical Commission, Case Postale 131, 3, ruede Varemb, CH-1211, Genve 20, Switzerland/Suisse (http:/www.iec.ch/). IEC publications are also available in the United Statesfrom the Sales Department,

46、American National Standards Institute, 11 West 42nd Street, 13th Floor, New York, NY 10036, USA.3IEEE publications are available from the Institute of Electrical and Electronics Engineers, 445 Hoes Lane, P.O. Box 1331, Piscataway,NJ 08855-1331, USA (http:/standards.ieee.org/).IEEEStd 987-2001 IEEE G

47、UIDE FOR 2Copyright 2002 IEEE. All rights reserved.3. DefinitionsThese definitions apply specifically to composite insulators. The Authoritative Dictionary of IEEE StandardsTerms, Seventh Edition B144, should be referenced for terms not defined in this clause.3.1 Structural termsThe following terms

48、apply to the physical composition of the insulator:3.1.1 core: The axially aligned fibre reinforced resin rod that forms the mechanical load-bearing componentof the insulator.3.1.2 end fittings:The insulator attachment hardware that is connected to the core.3.1.3 grading device:A device for controll

49、ing the potential gradient at the end fittings, such as a metal ringor various semiconductive polymeric devices.3.1.4 housing:The external polymeric covering installed over the core to afford it protection. Dependingupon the design of the insulator the housing may comprise a separate or integral sheath-weathershed system.In both cases, the weathersheds provide the wet electrical strength and leakage distance, while the sheathprovides the core with protection between weathersheds and near the end fittings.3.1.5 phase-to-phase insulator:An insulator coupling two pha