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本文(ANSI IEEE C57.136-2000 Guide for Sound Level Abatement and Determination for Liquid-Immersed Power Transformers and Shunt Reactors Rated over 500 kVA《额定功率大于500kVA的油浸式电力变压器和并联电抗器的声级.pdf)为本站会员(proposalcash356)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ANSI IEEE C57.136-2000 Guide for Sound Level Abatement and Determination for Liquid-Immersed Power Transformers and Shunt Reactors Rated over 500 kVA《额定功率大于500kVA的油浸式电力变压器和并联电抗器的声级.pdf

1、The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USACopyright 2001 by the Institute of Electrical and Electronics Engineers, Inc.All rights reserved. Published 30 March 2001. Printed in the United States of America.Print: ISBN 0-7381-2629-2 SH94887PD

2、F: ISBN 0-7381-2630-6 SS94887No 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.IEEE Std C57.136-2000 (R2005)IEEE Guide for Sound LevelAbatement and Determination forLiquid-Immersed Power Tr

3、ansformers and Shunt Reactors Rated Over 500 kVASponsorTransformers Committeeof theIEEE Power Engineering SocietyApproved 8 January 2001Reaffirmed 29 December 2005American National Standards InstituteApproved 21 September 2000Reaffirmed 22 September 2005IEEE-SA Standards BoardAbstract: Guidelines ar

4、e provided for the selection of suitable sound reduction methods in oil-im-mersed power transformers and shunt reactors over 500 kVA. Sound-producing sources withintransformers and reactors are discussed. Sound abatement procedures are described for achievingvarious levels of sound reduction in tran

5、sformer and shunt reactor installations.Keywords: liquid-immersed power transformers and shunt reactors, sound, sound abatement,sound reduction methodsIEEE Standardsdocuments are developed within the IEEE Societies and the Standards Coordinating Commit-tees of the IEEE Standards Association (IEEE-SA

6、) Standards Board. The IEEE develops its standards through aconsensus development process, approved by the American National Standards Institute, which brings togethervolunteers representing varied viewpoints and interests to achieve the nal product. Volunteers are not necessarilymembers of the Inst

7、itute and serve without compensation. While the IEEE administers the process and establishesrules to promote fairness in the consensus development process, the IEEE does not independently evaluate, test,or verify the accuracy of any of the information contained in its standards.Use of an IEEE Standa

8、rd is wholly voluntary. The IEEE disclaims liability for any personal injury, property orother damage, of any nature whatsoever, whether special, indirect, consequential, or compensatory, directly orindirectly resulting from the publication, use of, or reliance upon this, or any other IEEE Standard

9、document.The IEEE does not warrant or represent the accuracy or content of the material contained herein, and expresslydisclaims any express or implied warranty, including any implied warranty of merchantability or tness for a spe-cic purpose, or that the use of the material contained herein is free

10、 from patent infringement. IEEE Standardsdocuments are supplied “AS IS.”The existence of an IEEE Standard does not imply that there are no other ways to produce, test, measure, pur-chase, market, or provide other goods and services related to the scope of the IEEE Standard. Furthermore, theviewpoint

11、 expressed at the time a standard is approved and issued is subject to change brought about throughdevelopments in the state of the art and comments received from users of the standard. Every IEEE Standard issubjected to review at least every ve years for revision or reafrmation. When a document is

12、more than ve yearsold and has not been reafrmed, it is reasonable to conclude that its contents, although still of some value, do notwholly reect the present state of the art. Users are cautioned to check to determine that they have the latest edi-tion of any IEEE Standard.In publishing and making t

13、his document available, the IEEE is not suggesting or rendering professional or otherservices for, or on behalf of, any person or entity. Nor is the IEEE undertaking to perform any duty owed by anyother person or entity to another. Any person utilizing this, and any other IEEE Standards document, sh

14、ould relyupon the advice of a competent professional in determining the exercise of reasonable care in any given circum-stances.Interpretations: Occasionally questions may arise regarding the meaning of portions of standards as they relate tospecic applications. When the need for interpretations is

15、brought to the attention of IEEE, the Institute will ini-tiate action to prepare appropriate responses. Since IEEE Standards represent a consensus of concerned interests,it is important to ensure that any interpretation has also received the concurrence of a balance of interests. For thisreason, IEE

16、E and the members of its societies and Standards Coordinating Committees are not able to provide aninstant response to interpretation requests except in those cases where the matter has previously received formalconsideration. Comments for revision of IEEE Standards are welcome from any interested p

17、arty, regardless of membership afl-iation with IEEE. Suggestions for changes in documents should be in the form of a proposed change of text,together with appropriate supporting comments. Comments on standards and requests for interpretations shouldbe addressed to:Secretary, IEEE-SA Standards Board4

18、45 Hoes LaneP.O. Box 1331Piscataway, NJ 08855-1331USAIEEE is the sole entity that may authorize the use of certication marks, trademarks, or other designations to indi-cate compliance with the materials set forth herein.Note: Attention is called to the possibility that implementation of this standar

19、d may require use of subject mat-ter covered by patent rights. By publication of this standard, no position is taken with respect to the existence orvalidity of any patent rights in connection therewith. The IEEE shall not be responsible for identifying patentsfor which a license may be required by

20、an IEEE standard or for conducting inquiries into the legal validity orscope of those patents that are brought to its attention.Copyright 2001 IEEE. All rights reserved.iiiIntroduction(This introduction is not part of IEEE Std C57.136-2000, IEEE Guide for Sound Level Abatement and Determination forL

21、iquid-Immersed Power Transformers and Shunt Reactors Rated Over 500 kVA.)This introduction provides some background information to aid in the understanding and usage of this guide.The proximity of residential areas to some substations and the increasing prevalence of local ordinancesspecifying prope

22、rty line sound levels have made sound radiation from transformers a factor of increasingsignicance. Thus, it is of considerable importance that information be available regarding the choice anddesign of effective methods of sound abatement, which provide a reasonable margin of safety and minimizethe

23、 probability of community complaints.In some cases, even recently installed transformers may require the use of sound reduction methods due toresidential complaints or changes in the residential zoning codes.The principal sources of sound radiated by transformers are a) The core, b) The windings (an

24、d tank), andc) The cooling equipment. The core sound, primarily consisting of a double power frequency tone and its harmonics, is generally dom-inant in overall level. However, on some transformers with forced air cooling, the cooling equipment soundcan dominate.Once the sound levels have been deter

25、mined at locations of concern, there are various sound level measure-ments and data manipulation techniques for calculating the desired sound levels to accurately dene theproblem areas.ParticipantsAt the time of completion, the Working Group for developing the IEEE Guide for Sound Level Abatementand

26、 Determination for Liquid-Immersed Power Transformers and Shunt Reactors Rated Over 500 kVA hadthe following membership:Alan W. Darwin,ChairGregory W. AndersonStephen AntoszPeter M. BalmaEnrique BetancourtGene BlackburnBill W. ChiuDonald ChuJohn C. CrouseRobert C. DegeneffPierre FeghaliJoseph Foldi

27、Harry D. GianakourosRamsis S. GirgisRobert L. GrubbErnst HaniqueLars-Erik JuhlinDave KeithlyBarin KumarJohn G. Lackey Klaus PappDhiru PatelShashi Patel Paulette A PayneDonald W. PlattsJeewan PuriGeorge J. ReitterKenneth R. SkingerRonald W. StonerSubhash C. TuliivCopyright 2001 IEEE. All rights reser

28、ved.Karen Weissman, Chair, 19971999Jack W. McGill,Chair, 19951997Other individuals who contributed review and comments are:The following members of the balloting committee voted on this standard:When the IEEE-SA Standards Board approved this standard on 21 September 2000, it had the followingmembers

29、hip:Donald N. 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 RepresentativeNoelle D. HumenickIEEE Standards Project EditorDan B. de la CruzAnd

30、rew P. DickeRichard F. Dudley Donald J. FallonA. C. (Sam) HallS. H. AguirrePaul AhrensDennis J. AllanRaymond AllustiartiGlenn AndersenJim AntweilerPeter M. BalmaRon L. BarkerMartin BaurB. L. BeasterEdward A. BertoliniThomas E. Blackburn, IIIAlain BolligerJohn D. BorstSimon R. ChanoBill W. ChiuJerry

31、L. CorkranJohn C. CrouseF. DavidRobert C. DegeneffDieter DohnalRichard F. DudleyFred E. ElliottDonald J. FallonHarry D. GianakourosRichard D. GrahamRobert L. GrunertE. G. Hager, Jr.Ernst HaniqueN. Wayne HansenR. R. HayesKeith R. HightonPhilip J. HopkinsonJames D. Huddleston, IIITim HuffRowland I. Ja

32、mesAnthony J. JonnattiLars-Erik JuhlinLawrence A. KirchnerBrian KlaponskiNeil J. KranichJohn G. LackeyStephen R. LambertJ. P. LazarThomas LundquistWilliam A. MaguireJohn W. MatthewsNigel P. McQuinJoe MelansonGary L. MichelC. Kent MillerHarold R. MooreDaniel H. MulkeyPaul E. OrehekGerald A. PaivaKlau

33、s PappB. K. PatelDhiru S. PatelSanjay Y. PatelWesley F. PattersonJesse M. PattonCarlos O. PeixotoDan D. PercoMark D. PerkinsLinden W. PiercePaul PillitteriR. Leon PlasterG. PreiningerE. PurraPierre RiffonPeter G. RisseJohn R. RossettiSubhas SarkarRick SawyerPat ScullyDilipkumar ShahHyeong Jin SimChu

34、ck SimmonsDavid C. SingletonJames E. SmithRonald J. StaharaPeter G. StewartRonald W. StonerThomas P. TraubSubhash C. TuliJohn VandermaarJoseph J. VaschakRobert A. VeitchBarry H. WardSatish K. AggarwalMark D. BowmanGary R. EngmannHarold E. EpsteinH. Landis FloydJay Forster*Howard M. FrazierRuben D. G

35、arzonJames H. GurneyRichard J. HollemanLowell G. JohnsonRobert J. KennellyJoseph L. Koepnger*Peter H. LipsL. Bruce McClungDaleep C. MohlaJames W. MooreRobert F. MunznerRonald C. PetersenGerald H. PetersonJohn B. PoseyGary S. RobinsonAkio TojoDonald W. ZipseCopyright 2001 IEEE. All rights reserved.vC

36、ontents1. Scope 12. References 13. Sources of sound 23.1 General characteristics. 23.2 Transformers 23.3 Shunt reactors. 33.4 Fans and pumps 44. Factors affecting sound levels in field operation . 44.1 Load power factor 44.2 Loading beyond nameplate rating 44.3 Harmonics 54.4 DC magnetization 54.5 R

37、esonances. 55. Factory-installed sound abatement methods 55.1 Typical design methods for sound abatement 75.2 Other factory-installed sound abatement methods. 86. Field-installed sound abatement methods 96.1 Typical field-installed sound abatement methods 146.2 Other field-installed sound abatement

38、methods. 157. Active sound cancellation 167.1 Sound cancellation on or near the tank 167.2 Other active sound cancellation techniques. 168. Useful sound level information 178.1 Sound pressure level 178.2 Sound power level 188.3 A-weighting sound scale 188.4 Sound level calculations 18Annex A (inform

39、ative) Bibliography. 21Annex B (informative) Estimation of far-eld transformer sound levels . 22viCopyright 2001 IEEE. All rights reserved.Copyright 2001 IEEE. All rights reserved.1IEEE Guide for Sound LevelAbatement and Determination forLiquid-Immersed Power Transformers and Shunt Reactors Rated Ov

40、er 500 kVA1. ScopeThis document is intended to provide guidelines for selecting suitable methods for sound reduction in liquid-immersed power transformers and shunt reactors rated over 500 kVA. Many sound abatement procedures are described that are presently available for achieving various levels of

41、sound reductions in transformer and shunt reactor installations. For background information, this guide willalso discuss the sound-producing sources within transformers and reactors.2. ReferencesThis guide should be used in conjunction with the following publications:IEEE Std C57.12.00-2000, IEEE St

42、andard General Requirements for Liquid-Immersed Distribution, Power,and Regulating Transformers.1IEEE Std C57.12.90-1999, IEEE Standard Test Code for Liquid-Immersed Distribution, Power, and Regu-lating Transformers.IEEE Std C57.21-1990 (Reafrmed 1995), IEEE Standard Requirements, Terminology, and T

43、est Code forShunt Reactors Rated Over 500 kVA.NEMA TR1-1993, NEMA Standard Publication on Transformers, Regulators, and Reactors.21IEEE 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.

44、ieee.org/).2NEMA publications are available from Global Engineering Documents, 15 Inverness Way East, Englewood, Colorado 80112, USA(http:/ C57.136-2000 IEEE GUIDE FOR SOUND LEVEL ABATEMENT AND DETERMINATION2Copyright 2001 IEEE. All rights reserved.3. Sources of sound3.1 General characteristicsSound

45、 coming from the transformer itself, as opposed to cooling fan or pump sound, is tonal in nature,consisting of even harmonics of the power frequency. The predominant source of transformer sound is thecore. The low-frequency, tonal nature of this sound makes it harder to mitigate than the broad-band,

46、 higherfrequency sound that is produced by cooling fans, pumps, and other sources. Not only do low frequenciespropagate farther with less attenuation, but also tonal sound is more annoying to the public even in a highsound level ambient. This combination of low attenuation and high perception makes

47、tonal sound thedominant problem in the neighboring community around the transformer. To address this problem, mostcommunity sound ordinances impose penalties or stricter requirements for tonal sound. A site may be incompliance with overall sound levels, but out of compliance with tonal levels. In si

48、ting a transformer it is, therefore, critical to consider the dominant tones in the sound spectra, and not justthe overall sound levels. These tones will not only dictate the severity of the problem, but also the type of soundmitigation approach that is necessary. For example, if low-frequency tones

49、 such as the second and fourthharmonics of the power frequency are present, these are difcult to attenuate with simple sound abatementmethods such as a single side wall. In this case an active control system or a full enclosure may be necessary.If very high frequency tones, such as the tenth or twelfth harmonics of the power frequency, are present in thenear eld, there is a chance that they will attenuate naturally, and no treatment may be necessary if the nearestneighbor is far enough away. Tones are best measured on a narrow-band s

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