ML12334A496
| ML12334A496 | |
| Person / Time | |
|---|---|
| Site: | Indian Point  |
| Issue date: | 12/12/2011 |
| From: | Radatz J IEEE Standards Association |
| To: | Atomic Safety and Licensing Board Panel |
| SECY RAS | |
| References | |
| RAS 21523, 50-247-LR, 50-286-LR, ASLBP 07-858-03-LR-BD01, NYS000010 | |
| Download: ML12334A496 (4) | |
Text
NYS000010 United States Nuclear Regulatory Commission Official Hearing Exhibit Submitted: December 12, 2011 Entergy Nuclear Operations, Inc. EXCERPT In the Matter of:
(Indian Point Nuclear Generating Units 2 and 3) c.\.~P.R REGlJ~" ASLBP #: 07-858-03-LR-BD01
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Docket #: 05000247 l 05000286 i:! " Exhibit #: NYS000010-00-BD01 Identified: 10/15/2012 Ii.'" 0 10/15/2012
~ ~ ! Admitted: Withdrawn:
'1'/10'1) ~O~ Rejected: Stricken:
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Sixth Edition Standards Coordinating Committee 10, Terms and Definitions
. Jane Radatz, Chair This standard is one of a nUmber of information technology dictionaries being developed by standards organizations accrei:lited by the American National Standards Institute: This dictionary was developed under the sponsorship of voluntary standards organizations, using a consensus-based process .
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ISBN 1-55937-833-6
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Introduction Since the first edition in 1941 of the American Standard Defiriitions of Electrical Tenns, the work now known as IEEE Std 100, The IEEE Standard Dictionary of Electrical and Electronics Tenns, has evolved into the unique compendium of tenns that it is today.
The current edition includes all tenns defined in approved IEEE standards through December 1996. Tenns ar~ categorized by their technical subject area. They are also associa'ted with the standards or publications in which they currently appear. In some cases, tenns from withdrawn standards are'included when no current. source can be found. &irlier editions of IEEE Std -100 included terms from sources other than IEEE standards, such as technical journals, books. or conference proceedings. These tennshave been maintained for the sake of consistency and their sources are listed with the standards in the back of the book. ' - -, .....
The practice of defining terms varies from standard to standard. Many working groups that write standards prefer to\work with existing definitions, while others choose to write their own. Thus terms may have several similar, although not identical, definitions. Definitions have been combined wherever it has been possible to do so by making only minor editorial changes. Otherwis.e, they have been left as written in the original standard. '
Users of IEEE Std 100 occasionally comment on the Ilurprising omission of lI: particular term commonly used in an electrical or electronics field. This occurs because the tenns in IEEE Std 100 represent only those defined in the existing or past body of *IEEE standards. To respond to this; some working groups obtain authorization to create a glossary of terms used in their field. All existing, approved stagdard glossaries have been incorporated into this edition of IEEE Std 100, including the most current glossaries of terms for computers and power engineering.
IEEE working groups are encouraged to refer to IEEE Std 100 when developing new or revised standards to avoid redundancy. They are also encouraged to investigate deficiencies in standard terms and create standard glossaries to alleviate them. '
The sponsoring body for this document was Standards Coordinating Committee 10 on Definitions (SCClO), 'which consisted of the following members:
Jane Radati. Chair John W. Balde Chris Heegard F.A.Saal Arthur Ballato' John Horch Ralph M. ~howers Bruce Barrow J. L. Koepfinger Edward N. Skomal William Carey Allen H. Meitzler Kenneth L. Swinth Frank A. Denbrock Frank D. Myers Raymond S. Turgel Jay Forster David E. Roberts Edward F . Vance 1111111)1'111111'-'-)
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When the IEEE Standards Board approved this standard on 10 December 1996, it had the following membership.
Donald C. Loughry, Chair Richard J. Holleman, Vice Chair Andrew G. Salem, Secretary Gilles A. Baril E. G. "AI" Kiener Jose R. Ramos Clyde R. Camp' Joseph L. Koepfinger- Arthur K. Reilly Joseph A. Cannatelli Stephen R. Lambert Ronald H. Reimer Stephen L. Diamond Lawrence V. McCall Gary S. Robinson Harold E. Epstein L. Bruce McClung Ingo Riisch .
Donald C. Fleckenstein Marco W. Migliaro John S. Ryan Jay Forster* . Mary Lou Padgett Chee Kiow Tan Donald N. Heirman John W. Pope Leonard L. Tripp Ben C. Johnson Howard L. Wolfman .
"Member Emeritus Also included are the foUowing nonvoting IEEE Standards Board liaisons:
SatishK. Aggarwal Alan H. Cookson ChesterC. Taylor Kim Breitfeldei' (1995-present), IEEE SId /00 Editor Stephen Huffman (1993-1995), IEEE SId 100 Editor
" !1. .
Assistance was prcivide(j by the IEEE Standards editorial staff.
How to use this dictionary The terms defined in this dictionary are listed in letter-by-letter alphabetical order. Spaces are ignored in this style of alphabetization, so cable value will come before cab signal. Descriptive categories associated with* the term in earlier editions of IEEE Std 100 will folIow the term in parentheses. New categories appear after the definitions (see Categories, below), folIowed by the designation of the standard or stan- -
danls that include the definition. If a standard designation is followed by the letter s, it means that edition of the, stiUldard was superseded by a newer revision and the term was not included in the revision. If a designation is followed by the letter w, it means that edition of the standard was withdrawn and not replaced by a revision. A bracketed number refers to the non-IEEE'standard sources given in the back of.the book. '
Acronyms imd abbreviations are no longer listed in a separate section in the dictionary; rather, they are incorporated alphabetically with other terms. Each acronym or abbreviatio.r;l refers to its expanded term, where it is defined. Acronyms and abbreviations for which no definition was included in past editions have been deleted from this edition of IEEE Sid 100. .
Abstracts of the current set of approved IEEE standards are provided in the back of the book. It should be noted that Updated information about IEEE standards can be obtained at any time from the IEEE Standards World Wide Web site at http://standards.ieee.org/.
Categories The.category abbreviations that are used in this edition of IEEE Std 100 are defined below. This infor-mation is provided to help elucidate the context of the definition. Older terms for which no category could be found h~e had the category "StdIOO" assigned to them. Note that terms from sources other than IEEE standards, such as the National Electrical Code (NEe) or the National Fire Protection Association, may not be from the most recent editions; the reader is cautioned to check the latest editions of all sources for the mOst up-to-date terminology.
iv OAGI0001222_00003
transfer trip 11) I transformer, ideal transfer trip A form of remote trip in which a communication hours, divided by the marked'nltio, Note: The transformer channel is used to transmit a trip signalfromthe relay,location correction factor for a current or voltage transfonner is the
[0 a remote location (PE/SWG) C37.100-1992 ratio correction factor mUltiplied by the ph"-,e angle correc-transform analysis A. software development technique in which tion factor for a spec~fiedprimary circuit power factor. The
[he structure of a system is derived from analyzing the How true primary wans or walthours are equal to the walls or of data through the system and the transformations that must warthours measured, multiplied by the transformer correction be pertormed on the data. Synonyms: transfonn-centere4 de-" factor and the marked ralio. The true primary walts or walt-sign; transformation analysis. See also: data structure-<:en- hours, when measured using both current and voltage trans-tered design; input-process-ou'tput; modular decomposition; formers, are equal to the current transformer ratio correction object-oriented design; rapid prototyping; stepwisere- factor multiplied by the voltage transfonner ratio correction finement; structured design; IranSaction analysis. factor mUltiplied by the marked ratios of the current and volt-(C) 610.12-1990 age transfonners multiplied by the observed watts or walt-transformation A seg"';ent attribute that determines the trans- hours. It is usually sufficiently aCCurate to cal~ulate true walts lation. scaling, and rotation applied to a segment when it is or wauhourS as equaHo the product of the two transformer' displayed on a display surtace. ' (C) 610.6-1991 correction factors multiplied by the marked ratios multiplied transformation analysis See: transform'analysis. by the observed wans or watthouTS.
(PE) [57], C57.12.80-197Br, C57.13-I99) tr,ansformation function A mapping function that pertonns graphical coordinate transformations such as scaling, rotation, transformer coupled (electrical heating applications to melting and translation. (C) 610.6-1991 furnaces and forehearths in the glass industry) The power modulation device is connected in the primary circuit' of a transform-centered design Sue transform analysis.
transformer whose secondary circuit is connected to the glass.
transformer (1) A device, which when used, will raise or lower (IA) 668-1987w the voltage of alternating current of the Original source.
transformer, dry-type See: dry-type transformer.
(NEC/NESC) [86)
(2) (power and distribution transformers) A static electric transformer. energy-limiting A transfonner that is intended device consisting of a winding, or two Or m()re coupled wind- for use on an approximately constant-voltage supply circuit ings, with or without a magnetic core, for introducing murual and that has Sufficient inherent impedance to limit the output coupling between electric circuits. Transforlners are exten- current to a thennaJly safe maximum value. Set! a/so: trans-sively used in electric power systems to transfer power by former, specialty. (PE) [57)
,electromagnetic induction between circuits at the same fre- , transformer equipment rating A volt-ampere output together quency, usually with changed values of voltage and current. with any other'characieristics, such as VOltage, current, fre-(PE) C57.l2.80-1978r quency, and power factor, assigned to it by the manufacrurer.
(3) (failure data for power transformers and shunt reae~ Note: J[ is regarded as a test rating that defines an output thai tors) A static electric device consisting of a winding, or twO can be taken from the item of transfonrier equipment without or more coupled windings, with, or without a magnetic core, exceeding established temperatJre-rise limitations, under pre-for introducing, mutual coupling between electric circuits. scribed conditions of test and within the limitations of estab-Note: "The uansfonner includes all transfonner-related com- lished standards. See also: duty. (PE) i57]
ponents, such as bushings, L TCs, fans, temperature gauges, transronner, grounding Set!: grounding transformer.
etc, and excludes all system-related components, such as transformer, grounding switch' and gap (capacitance poten-surge arresters, grounding resistors, high voltage switches, tial devices) Consists of a protective gap connected across low-voltage switches, and house service equipment the capacitance potential device and transformer unit 10 limit
, (PE) C57.117-1986r the voltage impressed on the transformer and the auxiliary or (4) An inductive electrical device which uses electromagnetic shunt capacitor, when used; and a switch that when closed energy to transform voltage and current levels within, a circuit. removes voltage from the potential device to permit adjust-(C) '610.10-1994 ment of the potential device without interrupting high-VOltage (5) See also: dry-type encapsulated water-cooled transformer; line operation and carrier-<:urrent operation when used. See, ,
dry-type transformer; liquid-filled; or liquid-<:ooled trans- also: outdoor coupling capacitor. (PE) 43-1974r
,former; transformer coupled. (IA) 668-1987w transrormer. group-series loop insulating An insulating trans-transformer, alternating-currenl are welder ,A transformer former whose secondary isarrang~d to operate a group of with isolated primarY' and secondary windings and suitable ,series lamps andlor'a series group of individual-lamp trans-stabilizing, regulating, and indicating devices required for fonners, Su also: transformer, speCialty. (PEl [57J transfonning alternating current from nonnal supply voltages transformer, high-power-faetor A high-reactarice transfonner to an a1ternating-<:urrent OUlpUl suitable for are welding. that has a power-factor-correc[ing device such as a capacitor, (EEC) [91J so thaI the input current is at a power factor of not less [han transformer category definitions (distribution, power and 90% when .the transfonner delivers rated current to its in-
, regulating transrormers) Note:' AII,kVA ratings are mini- ' tended load device. See also: transfonner, specialty.
mum nameplate kVA for the principal windings. Category I (PEl {I16J includes distribution transfonners manufacrured in accord- transrormer, high-reactance (1) (output limiting) An energy-ance with ANSI C57.12.20-1974, Requirements for Over- limiting transformer ,hal has sufficient inherent reactance to head-Type Distribution Transfol"l1ers 67 000 Volts and limit the output current to a maximum value. See also: trans-Below; 500 kVA and Smaller, up through 500 kVA, single fonner, specialty. (PE) [57) phase or three phase, In addition, autotransformers of 500 (2) (secondary short-circuit current rating) The current in equivalent two-winding leV A Or less that are manufactured the secondary winding when the primary winding is con-as distribution transformers in accordance with ANSI nected to a circuit of rated r-i'llary voltage and frequency and
,C57.1220-\974 are included in Category I, even through when the secondary terminals are short-circuited. See also:
their nameplate kV As may exceed 500. transfonner, specjalty. (PE) [57]
(PEl C57.12.00-1987s (3) (kilovolt-ampere or voltampere short-<:ircuit input rating) transrormer' class designations See: transformer, oil- The input kilovolt-amperes or volt-amperes at rated primary immersed. voltage with the secondary terminals short-<:ircuited. See transformer, constant-voltage See: constant-voltage trans- also: transformer, special[y. ' (PE) [57) fonner, transformer. 'ideal A hypothetical 'transfonner that neither transformer correction' factor (TCF) The ratio of the true stores nor dissipateS energy. Note: An ideal transformer has walls or watthours to the measured secondary watts or ';"an- the following properties: Its self and mutual impedances are OAGI0001222_00004