IEEE 334-2006 en Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations《核电站用1E级连续工作发动机的资格鉴定》.pdf
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1、IEEE Std 334-2006(Revision ofIEEE Std 334-1994)IEEE Standard for QualifyingContinuous Duty Class 1E Motors for Nuclear Power Generating StationsI E E E3 Park Avenue New York, NY10016-5997, USA31 January 2007IEEE Power Engineering SocietySponsored by theNuclear Power Engineering CommitteeIEEE Std 334
2、-2006(R2012) (Revision of IEEE Std 334-1994) IEEE Standard for Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations Sponsor Nuclear Power Engineering Committee of the IEEE Power Engineering Society Approved 15 September 2006 Reaffirmed 29 March 2012 IEEE-SA Standards Boar
3、d Abstract: It is required that Class 1E motors, with their interfaces, meet or exceed the specified performance requirements throughout their service life. This is accomplished through a program that includes, but is not limited to, design, qualification, production quality control, shipping, stora
4、ge, installation, operation, maintenance, periodic testing, and surveillance. This standard addresses the qualification portion of the program. It discusses the requirement for maintenance, repair, and surveillance of motors to maintain qualification of motors throughout their installed life but doe
5、s not provide detailed guidance about how these programmatic items must be implemented and maintained. The qualification requirements of this standard, when met, demonstrate and document the ability of the motor and/or insulation system to perform its safety function(s) under specified service condi
6、tions. Keywords: age conditioning, age sensitive, aging, condition monitoring, design basis event, formette, harsh environment, insulation, insulation system, interfaces, margin, mild environment, motor, motor qualification, motorette, qualification, qualified life, radiation, safety-related functio
7、n, significant aging mechanism, test plan, test sequence, type testing _ The Institute of Electrical and Electronics Engineers, Inc. 3 Park Avenue, New York, NY 10016-5997, USA Copyright 2007 by the Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 31 January 200
8、7. Printed in the United States of America. IEEE is a registered trademark in the U.S. Patent +1 978 750 8400. Permission to photocopy portions of any individual standard for educational classroom use can also be obtained through the Copyright Clearance Center. Introduction This introduction is not
9、part of IEEE Std 334-2006, IEEE Standard for Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations. This revision of IEEE Std 334 is a daughter standard of IEEE Std 323-2003 and, for seismic qualification, of IEEE Std 344-2004. This revision is a result of a review of the
10、changes to IEEE Std 323-2003 as they affect motor qualification. As a daughter standard to IEEE Std 323-2003 and IEEE Std 344-2004, this standard is intended to be used in conjunction with, and not in lieu of, those standards. This revision of IEEE Std 334 also includes specific guidance for insulat
11、ion system qualification; more guidance concerning the use of, and reason for, load during type testing; and guidance for use of insulation system models (motorettes and/or formettes) for use in type testing. Specific items that were added or changed in this revision include the following: Removal o
12、f two peaks during the simulated design basis event as a substitute for margin. General guidance for the performance of condition-based qualification. Inclusion of insulation system models for use in type testing. Inclusion of thermal requirements for the application of load. Inclusion of loading re
13、quirements for insulation system models. Replacement of the design-basis-event example from the previous revision with worst-case conditions in which the motor must operate. Clarification of the documentation requirements. Condition-based qualification is a qualification method that was introduced i
14、n IEEE Std 323-2003, and, because this standard is a daughter standard, the method has been included in this standard. It must be noted, however, that at the time of this revision, for motors and motor insulation systems, no condition indicators have been established that will reliably trend the cur
15、rent state of insulation system degradation and provide sufficient notice to ensure that corrective action can be taken prior to equipment failure. Therefore, only general, and not specific, guidance concerning the methods of establishing a qualified condition using condition monitoring has been inc
16、luded in this standard. Notice to users Errata Errata, if any, for this and all other standards can be accessed at the following URL: http:/ standards.ieee.org/reading/ieee/updates/errata/index.html. Users are encouraged to check this URL for errata periodically. Interpretations Current interpretati
17、ons can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/interp/ index.html. iv Copyright 2007 IEEE. All rights reserved. Patents Attention is called to the possibility that implementation of this standard may require use of subject matter covered by patent rights. By publicat
18、ion of this standard, no position is taken with respect to the existence or validity of any patent rights in connection therewith. The IEEE shall not be responsible for identifying patents or patent applications for which a license may be required to implement an IEEE standard or for conducting inqu
19、iries into the legal validity or scope of those patents that are brought to its attention. Participants At the time this standard was completed, the Working Group on Qualification of Motors (SC2.2) had the following membership: William G. Newell, Chair James Dean, Vice-chair Satish Aggarwal Anup K.
20、Behera Tom Brewington Philip DiBenedetto James F. Gleason James Parello Robert Minadeo The Subcommittee on Qualification (SC2) of Nuclear Power Engineering Committee that recommended approval of this standard had the following membership: Satish K. Aggarwal, Chair Patrick Gove, Secretary Bohumil Bar
21、tonicek Paul D. Baughman Anup K. Behera Steven D. Benson Brij Bharteey Thomas Brewington Nissen M. Burstein Steve Casadevall Suresh Channarasappa Garry V. Chapman Javier A. Chicote Sun Yeong Choi Choon-Hoon Chung James M. Dean Liviu Nicolae Delcea Dennis E. Dellinger Philip DiBenedetto Michael Dough
22、erty Quang H. Duong Frank Drumm Yasutaka Eguchi Walter Emerson Artur J. Faya Wells D. Fargo Robert Francis James F. Gleason William L. Hadovski Hideo Harada Peter Helander Thomas R. Hencey III Jerrell C. Henley Dirk C. Hopp David A. Horvath Yao-Tung Hsu In-Koo Hwang Craig S. Irish Serena A. Jagtiani
23、 Frank W. Kloer Sushant Kapur Mohsin Khan Henry Leung Bruce M. Lory P. G. McQuillan Daniel R. Mikow Todd Mitton Asif Mohiuddin Edward Mohtashemi Carole Monchy-Leroy William G. Newell James Parello Janez Pavsek Jan S. Pirrong Daniel J. Pomerening Robert Queenan Edward L. Quinn John M. Richards Fred R
24、oy Steve Sandberg Glen E Schinzel Roderick Simms Kjell Spang Richard G. Starck Hirotsugu Suzuki Marek Tengler Marco Van Uffelen Laszlo Varga Carl Weber John Wheless John White Toni Wittamore Richard T. Wood Toshio Yamamoto v Copyright 2007 IEEE. All rights reserved. At the time this standard was app
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