1、IEEE Std 524-2003(Revision of IEEE Std 524-1992)IEEE Standards524TMIEEE Guide to the Installation ofOverhead Transmission LineConductorsPublished by The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USA12 March 2004IEEE Power Engineering SocietySponso
2、red by theTransmission +1 978 750 8400. Permission to photocopy portions of any individual standard for educationalclassroom use can also be obtained through the Copyright Clearance Center.NOTEAttention is called to the possibility that implementation of this standard may require use of subjectmatte
3、r covered by patent rights. By publication of this standard, no position is taken with respect to the exist-ence or validity of any patent rights in connection therewith. The IEEE shall not be responsible for identifyingpatents for which a license may be required by an IEEE standard or for conductin
4、g inquiries into the legal valid-ity or scope of those patents that are brought to its attention.Copyright 2004 IEEE. All rights reserved.iiiIntroduction(This introduction is not part of IEEE Std 524-2003, IEEE Guide to the Installation of Overhead Transmission LineConductors.)This guide provides ge
5、neral recommendations for the selection of methods, equipment, and tools that havebeen found to be practical for the stringing and grounding of overhead transmission line conductors andoverhead groundwires. The following revisions have been made and are intended to improve the usefulnessof the docum
6、ent:a) The IEEE Std 524, Guide to the Installation of Overhead Transmission Line Conductors and thesupplemental IEEE Std 524a, Guide to Grounding During the Installation of Overhead TransmissionLine Conductors have been combined into one document.b) The stringing specification for fiber optic cables
7、 has been expandedc) A clause on All Dielectric Self-Supporting (ADSS) cable has been addedd) SSAC conductor type designation has been changed to the current ACSS designatione) Helicopter installation methods have been expandedf) All units have been changed to conform with IEEE metric policyParticip
8、antsAt the time this standard was revised, the membership of the Task Group of the Working Group on the Con-struction of Overhead Lines of the Towers, Poles, and Conductors Subcommittee, was as follows:Neil Schmidt,ChairThe following members of the balloting committee voted on this standard. Ballote
9、rs may have voted forapproval, disapproval, or abstention. Bill CaulkinsJim L. ClarkDenise FreyPhilip GivensRon MagnusDouglas ProctorLarry SlavinFrank R. Thrash, Jr.James ApplequistAnthony BakerRobert BrattonSales CasalsJames ChristensenMichael ClodfelderF. Leonard ConsalvoTommy CooperNicholas DeSan
10、tisFrank A. DenbrockJ. Frederick DoeringRandall DotsonDale DouglassMarcia EblenRobert EmersonLowell FinkMarcel FortinDenise FreyGeorge GelaPhillip GivensCharles W. GroseRandall GrovesRichard HenselEward Horgan Jr.Magdi IshacGael KennedyHenry KientzRobert KlugeDonald KoonceStephen R. LambertJames Lar
11、keyKeith LindseyGregory LuriOtto LynchFaramarz MaghsoodlouThomas McCaffreyThomas McCarthyGary MichelYakov MotlisAbdul MousaGeorge NilesJohn OlenikRobert OswaldPaulette PayneCarlos PeixotoRobert PetersCraig PonDouglas ProctorPatrick QuinnJerry RedingJoseph RenowdenThomas RozekJames RuggieriLluis Ramo
12、n Bob SaintNeil SchmidtFrank R. Thrash, Jr.Cassio VinhalDaniel WardJames WilsonLuis E. Zambrano S.ivCopyright 2004 IEEE. All rights reserved.The final conditions for approval of this standard were met on 17 October 2003. When the IEEE-SA Stan-dards Board conditionally approved this standard on 11 Se
13、ptember 2003, it had the following membership:Don Wright,ChairHoward M. Frazier,Vice ChairJudith Gorman,Secretary*Member EmeritusAlso included are the following nonvoting IEEE-SA Standards Board liaisons:Alan Cookson, NIST RepresentativeSatish K. Aggarwal, NRC RepresentativeDon MessinaIEEE Standards
14、 Project EditorH. Stephen BergerJoe BruderBob DavisRichard DeBlasioJulian Forster*Toshio FukudaArnold M. GreenspanRaymond HapemanDonald M. HeirmanLaura HitchcockRichard H. HulettAnant JainLowell G. JohnsonJoseph L. Koepfinger*Tom McGeanSteve MillsDaleep C. MohlaWilliam J. MoylanPaul NikolichGary Rob
15、insonMalcolm V. ThadenGeoffrey O. ThompsonDoug ToppingHoward L. WolfmanCopyright 2004 IEEE. All rights reserved.vContents1. Overview11.1 Scope11.2 Purpose.11.3 Application.12. References23. Definitions and cross reference of terminology.23.1 Definitions and terminology for conductor stringing equipm
16、ent23.2 Acronyms.214. Conductor stringing methods.224.1 Slack or layout method224.2 Tension method225. Grounding equipment and methods.235.1 Protective grounding principles.235.2 Protection of personnel235.3 Hazards and electrical concepts.245.4Grounding equipment, methods, and testing.245.5 Transmi
17、ssion line construction grounding systems.346. Communications407. Conductor reels407.1 Reel types.407.2 Reel handling.408. Special requirements for mobile equipment408.1 Reel stand.408.2 Helicopter.418.3 Tensioner bullwheel characteristics.418.4Puller and tensioner operating characteristics438.5 Pil
18、ot line winder operating characteristics.449. Travelers449.1 Sheave diameter.449.2 Configuration of groove.459.3 Bearings.469.4Material and construction. .469.5 Lining.479.6 Electrical characteristics479.7 Bundled configurations479.8 Helicopter travelers48viCopyright 2004 IEEE. All rights reserved.9
19、.9 Uplift rollers and hold-down blocks489.10Traveler suspension.4910. Typical procedures for stringing operations4910.1Pull, tension, anchor, and splicing sites.4910.2Section between snub structures5110.3Conductor splicing.5210.4Stringing procedures5410.5Sagging procedures6010.6Deadending precaution
20、s.6510.7Clipping-in.6510.8Damper installation6610.9Spacer and spacer damper installation.6611. Special conductors.6611.1ACSSsteel supported aluminum conductor.6711.2T-2 Conductortwisted bare conductors6711.3Self-damping conductor (SDC).6911.4Composite overhead groundwire with optical fibers (OPGW)70
21、11.5All-dielectric self supporting fiber cable (ADSS).71Annex A (informative) Bibliography 74Annex B (informative) Electrical theory . 76Annex C (informative) Grounding electrical concepts. 82Annex D (informative) Travelers or snub structure load calculation 96Annex E (informative) Basic analysis fo
22、r clipping offsets and sagging. 98Annex F (informative) Efficiency of travelers during tension stringing . 106Annex G (informative) Recommended bearing pressure on sheave linings. 108Annex H (informative) All aluminum 1350 alloy conductor standard packages . 109Annex I (informative) ACSR conductor s
23、tandard packages. 111Annex J (informative) Drum or reel winding 114Annex K (informative) Drum or reel capacities . 115Annex L (normative) Electric and magnetic field induction computer program presentation with sampleproblems 118Annex M (normative) Source code for the electric field induction progra
24、m (EFINCUC.C) . 124Annex N (normative) Source code for magnetic field induction program (MFINDUC.C) . 134Copyright 2004 IEEE. All rights reserved.1IEEE Guide to the Installation of Overhead Transmission Line Conductors1. Overview1.1 ScopeThis guide provides general recommendations for the selection
25、of methods, equipment, and tools that havebeen found to be practical for the stringing of overhead transmission line conductors and overhead ground-wires. The guide also includes a comprehensive list of definitions for equipment and tools used in stringingand for stringing terms commonly employed. T
26、his guide does not address special conductors such as thoseused for river and canyon crossing. These conductors may be custom designed and often may require specialconsiderations.1.2 PurposeThe purpose of this guide is to present in one document sufficient details of present day methods, materials,a
27、nd equipment to outline the basic considerations necessary for maintaining safe and adequate control ofconductors during stringing operations. References are given in Clause 2 and the bibliography in Annex Afor those desiring more detailed information. Because the terminology used for many hardware
28、items andfor many stringing terms varies from place to place, a list of definitions is included to provide correlationand clarification of the terms most commonly employed.1.3 ApplicationThis guide is broad enough, yet specific enough, to be applicable to the stringing of conventional overheadtransm
29、ission conductors and overhead groundwires (OHGW) of the following types: AAAC, AAC,AACSR, ACAR, ACSR, ACSR/TW, CU, aluminum-clad steel OHGW, and galvanized steel OHGW.1Since stringing practices for different projects will be strongly influenced by the magnitude and nature ofeach project and by loca
30、l circumstances, alternate methods that have been successfully employed are pre-sented. Information contained in this guide may not be sufficient for certain special cases, such as whenstringing extremely long spans, severe line angles, high tensions, or special conductors. In these cases, themanufa
31、cturer should be consulted. The practices that are described in this guide provide for continuous con-trol of the conductor from the initial setup to the ready-for-service condition. Any legal requirements ofnational, state, or local regulations must, of course, be observed.1See 3.2 for definitions
32、of all acronyms.IEEEStd 524-2003 IEEE GUIDE TO THE INSTALLATION OF2Copyright 2004 IEEE. All rights reserved.The approach used within this guide is first to describe, in general terms, the stringing methods most com-monly employed, then the specific requirements of the various tools and equipment use
33、d. Finally, this guidedescribes the application of the methods and equipment used in the stringing process.2. ReferencesThis guide shall be used in conjunction with the following publications. If the following publications aresuperseded by an approved revision, the revision shall apply.ASTM F855-97e
34、1, Standard Specifications for Temporary Protective Grounds to Be Used on De-energizedElectric Power Lines and Equipment.IEC 61230 (1993-09), Live workingPortable equipment for earthing or earthing and short-circuiting.IEEE Std 80-2000, IEEE Guide for Safety in AC Substation Grounding.IEEE Std 935-1
35、989 (Reaff 2001), IEEE Guide on Terminology for Tools and Equipment to Be Used inLive Line Working.NOTEThe IEEE standards or products referred to in this clause are trademarks of the Institute of Electrical and Elec-tronics Engineers, Inc.3. Definitions and cross reference of terminologyTerminology
36、for equipment and procedures associated with the installation of overhead transmission lineconductors varies widely throughout the utility industry. Therefore, definitions (see 3.1) have been includedto provide a correlation between the terminology used in this guide and industry synonyms. Note that
37、 thesesynonyms are terms that are commonly used in the industry and, because many are not necessarily goodusage, they should therefore not be taken as equivalents to the guide terminology.For the purposes of this guide, the following terms and definitions apply. The Authoritative Dictionary ofIEEE S
38、tandards Terms B132should be referenced for terms not defined in this clause.3.1 Definitions and terminology for conductor stringing equipment3.1.1 Aerex:Seeexplosives.3.1.2 aerial platform: A device designed to be attached to the boom tip of a crane or aerial lift and supporta worker in an elevated
39、 working position. Platforms may be constructed with surrounding railings that arefabricated from aluminum, steel, or fiber reinforced plastic. Occasionally, a platform is suspended from theload line of a large crane. Syn: cage, platform.3.1.3 alive:Seeenergized.3.1.4 all terrain vehicle:Seeoff-road
40、 vehicle.3.1.5 alligator:Seerunning board.2The numbers in brackets correspond to those of the bibliography in Annex A.IEEEOVERHEAD TRANSMISSION LINE CONDUCTORS Std 524-2003Copyright 2004 IEEE. All rights reserved.33.1.6 aluminum alloy conductor, steel reinforced:A composite conductor made up of a co
41、mbination ofaluminum alloy and coated steel wires. In the usual construction, the aluminum wires surround the steel.3.1.7 aluminum conductor, aluminum alloy reinforced:A composite conductor made up of a combina-tion of aluminum and aluminum alloy wires. In the usual construction, the aluminum wires
42、surround the alu-minum alloy.3.1.8 aluminum conductor, steel reinforced:A composite conductor made up of a combination of alumi-num and coated steel wires. In the usual construction, the aluminum wires surround the steel.3.1.9 aluminum conductor, steel supported:An ACSR with the aluminum wires annea
43、led.3.1.10 American Society for Testing and Materials:Founded in 1898, the society is a scientific and tech-nical organization formed for the development of standards on characteristics and performance of materials,products, systems, and service; and the promotion of related knowledge.3.1.11 America
44、n Wire Gage: Also known as the Brown and Sharp gage, the gage was devised in 1857 by J.R. Brown. This gage has the property such that its sizes represent approximately the successive steps in theprocess of wire drawing. Also, its numbers are retrogressive; a larger number denotes a smaller wire corr
45、e-sponding to the operations of drawing. These gage numbers are not arbitrarily chosen, but follow themathematical law upon which the gage is founded.3.1.12 anchor:A device that serves as a reliable support to hold an object firmly in place. The general term“anchor” is normally associated with cone,
46、 plate, screw, or concrete anchors. The terms snub, deadman, andanchor log are usually associated with pole stubs or logs set or buried in the ground to serve as temporaryanchors. The latter are often used at pull and tension sites. Syn:anchor log, deadman, andsnub.3.1.13 anchor log:Seeanchor.3.1.14
47、 anchor site:The location along the line where anchors are installed to temporarily hold the conduc-tors in facilitating splicing, pulling, or tensioning.3.1.15 Baker board: Seelinepersons platform.3.1.16 basket: Seebucket, woven wire grip.3.1.17 bicycle:Seecable car.3.1.18 binder: Seeload, binder.3
48、.1.19 bird: Seerunning board.3.1.20 birdie:See running board.3.1.21 block:A device designed with one or more single sheaves, a wood or metal shell, and an attachmenthook or shackle. When rope is reeved through two of these devices, the assembly is commonly referred to asa block and tackle. A set of
49、fours refers to a block and tackle arrangement utilizing two 10 cm double sheaveblocks to obtain four load-bearing lines. Similarly, a set of fives or a set of sixes refers to the same numberof load-bearing lines obtained using two 12.5 cm or two 15 cm double sheave blocks, respectively. Syn:setof fours, set of fives, set of sixes.3.1.22 block ground: Seetraveler ground.IEEEStd 524-2003 IEEE GUIDE TO THE INSTALLATION OF4Copyright 2004 IEEE. All rights reserved.3.1.23 boatswains chair:A seat designed to be suspended on a line reeved through a block and attached toa pulli
