2014-4(13)

Problems of nuclear, radiation and ecological safety

Article NameQuality of Water in Reservoirs of a 30-Kilometer Zone of the Rostov NPP
AuthorsV.V. Sakharov, Y.N. Fomenko, M.S. Govorina, N.V. Oskanian
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: VITIkafAES@mephi.ru

AbstractArticle is devoted to research of parameters of water in reservoirs of a 30-kilometer zone of the Rostov NPP. On the basis of the analysis of the received results distinction in water quality of the considered water bodies which is formed under influence of both natural and man-made factors is shown.
KeywordsTsimlyansk reservoir, salinity, bioindication, BOD5, Rostov NPP
LanguageRussian
References

[1] Gidrohimicheskij institut. Normativnye dokumenty [Hydrochemical institute. Normative documents]. 2014. Available at: http://www.ghi.aaanet.ru/normative_docs (in Russian)

[2] Zasolennye pochvy i solonchaki [The salted soils and saline soils]. 2014. Available at: http://racechrono.ru/pohcvovedenie/2941-zasolenie-pochvy-i-solonchaki-chast-3.html (in Russian)

 [3] Metodika opredelenija obshhej zhestkosti v prirodnyh i stochnyh vodah. PNDF 14.1:2:98-97 [A technique of  of the general rigidity determination in natural and sewage. PNDF 14.1:2:98-97]. 2014. Available at:  www.normacs.ru/Doclist/doc/V73G.html (in Russian)

[4] Metodika opredelenija vodorodnogo pokazatelja v prirodnyh i stochnyh vodah. PNDF 14.1:2:3:4.121-97 [Technique of hydrogen indicator definition in natural and sewage. PNDF 14.1:2:3:4.121-97]. 2014. Available at:  www.normacs.ru/Doclist/doc/UPEG.html (in Russian)

[5] Gidrohimicheskie pokazateli sostojanija okruzhajushhej sredy: spravochnye materialy [Hydrochemical indicators of a state of environment: reference materials] / Pod red. T.V. Gusevoj [Edited by T.V. Guseva]. M. Pub. FORUM: INFRA [FORUM: INFRA], 2007, ISBN 9785911340803, 192 p. (in Russian)

Papers10 - 14
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Research, design, construction and installation of nuclear facilities manufacturing equipment

Article NameScientific – Research Center for Determination of the Physical and Mechanical Characteristics of Constructional Materials
AuthorsV.A. Borisenok (1), E.E. Lomteva (1), A.L. Mikhailov (1,2), M.A. Pukhov (1,2), A.G. Sirotkina (1), V.V. Alexeev (1), Y.V. Butkov (1), E.N. Bogdanov (2), V.A. Volgin (1), K.I. Evlanov (1), A.M. Podurets (1,2), V.G. Simakov (2)
Address

(1) Sarov Physics and Engineering Institute the Branch of National Research Nuclear University «MEPhI»
6 Duhova St., Sarov, Nizhegorodskaya region, Russia 607186

e-mail: sarfti@mephi.ru

(2) Federal state unitary enterprise «The Russian Federal Nuclear Center – the All-Russian Research Institution of Experimental Physics»,
37 Mira Avenue, Sarov, Nizhegorodskaya region, Russia 607188
e-mail: staff@vniief.ru

AbstractThe purposes and tasks of the strategic development plan of NRNU MEPhI concerning formation of an educational and scientific complex for high-quality training of specialists for a nuclear and weapon and nuclear and power complex of the Russian Federation and for other main areas of equipment and technologies are given in article. It is reached by deep integration of involved branches of science and educations on the example of integration of NRNU MEPhI and the federal nuclear centers. The result of such integration is creation of the scientific educational centers (SEC). Descriptions of the main test facilities and measuring techniques of the research center are provided in the article. Characteristics of materials which can be defined by each installation are called. A number of the experimental results is given to show the experimental capacity of the center.
Keywordseducational and scientific complex, weapon complex, nuclear complex, scientific educational center, constructional materials, test machine, chart tension – deformation, speed measurement of sample deformation, generator of a flat shock wave, optical metallography, X-ray diffraction analysis, microhardness measurement, NRNU MEPhI, Sarov Physics and Engineering Institute, Russian federal nuclear center
LanguageRussian
References

[1] Pasport na ispytatel'nuju mashinu Shimadzu serii Autograph AJSOJ [The passport on the test Shimadzu car of the Autograph AJSOJ series]. 2014. (in Russian)

[2] Novikov S.A., Pushkov V.A., Sinicyn V.A., Coj P.A. Issledovanie jeffekta Baushinger pri dinamicheskom nagruzhenii [Research of effect Baushinger at dynamic loading]. PMTF [Applied mechanics and technical physics]. 1995, T.36 [Vol.36], №4, ISSN 0021-8944, pp. 136–169. (in Russian)

[3] Zukas Dzh.A., Nikolas T., Svift H.F. Dinamika udara [Dynamics of blow]. M. Pub. Mir [Mir], 1985. (in Russian)

[4] Kolskij G. Issledovanie mehanicheskih svojstv materialov pri bolshih skorostjah nagruzhenija [Research of material mechanical properties at big speeds of loading]. Mehanika [Mechanics]. 1950, Vyp. 4 [Issue 4], pp. 108–128. (in Russian)

[5] Borisjonok V.A., Simakov V.G., Kuropatkin V.G. etc.PVDF – datchik dinamicheskogo davlenija [A PVDF dynamic pressure gage]. PTJe [Instruments and Experimental Techniques]. 2008, Vol. 51, №4,  ISSN 0020-4412, DOI: 10.1134/S0020441208040167, pp. 593–601. (in English)

[6] Metody issledovanija svojstv materialov pri intensivnyh dinamicheskih nagruzkah [Methods of research of properties of materials at intensive dynamic loadings] / Pod redakciej M.V. Zhernokletova [Edited by M.V. Zhernokletov]. Sarov. Pub. RFJaC – VNIIJeF [Russian  Federal  Nuclear  Center All-Russian Research Institute Of Experimental Physics], 2003,  ISBN 5-9515-0008-7, 402 p. (in Russian)

[7] Mineev V.N., Pogorelov V.P., Ivanov A.G. Ustanovka dlja issledovanija povedenija materialov i konstrukcij pri dinamicheskih nagruzkah [Installation for research of materials behavior and designs at dynamic loadings].  FGV [Physics of burning and explosion]. 1975, T. 14 [Vol.14], №3, ISSN 0430-6228, pp. 129–133. (in Russian)

[8] Cook M.A., Doran R.L., Moris G.J. Measurements of detonation velocity by Doppler effect at three-centimeter wavelength. J. Appl. Phys., 1955, V. 26, №3, ISSN 0021-8979. (in English)

Papers15 - 27
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Article NameAnalysis of the Reasons of Jamming and Rods Breaking of Pipeline Motorized Fittings
AuthorsI.S. Podrezova, L.V. Shutova, Yu.E. Ulyanova, O.Yu. Pugacheva, Yu.N. Elzhov
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: nii_energomash@mail.ru

AbstractThe analysis of the reasons of jamming and rods breaking of pipeline motorized fittings, which can lead to valves refusals operated as a part of responsible technological systems of the nuclear branch enterprises is presented in article. The clutch failure to function of the torque restriction and fatigue cracks in the valve attachment is the additional factor promoting collapse of a rod. Planning of actions for an exception of breaking and rods jamming assumes prevention of thermopressure testing, the organization of bypass, clutches control of torque restriction, the organization of works on control of a drive gear of fittings by means of the specialized stand of lock fastening. During fittings operation of the fittings it is expedient to collect statistical information about the failures and defects of the fittings for determining of its reliability, maintainability and restorability to develop and justify priorities in the planning and carrying out actions to improve the reliability of the fittings.
Keywordsmain fitting refusal, rod jamming, rod breaking, thermopressure, fatigue cracks, repair valves, installation of the bypass line (bypass), unloading, setting a torque limiting clutch, function check
LanguageRussian
References

[1] Kakuzin V.B., Filippov N.G. Problemy nastrojki jelektroprivodov zadvizhek [Problems of electric drives of latch setup]. AS [AS]. 2008, №4(55). Available at: http://www.valve-industry.ru/pdf_site/55/55_vopr_opit_problems_kakusin.pdf (in Russian)

[2] MT1.2.3.02.999.0085-2010 «Diagnostirovanie truboprovodnoj jelektroprovodnoj armatury. Metodika» [MT1.2.3.02.999.0085-2010 "Diagnosing of pipeline electrowire fittings. Technique"]. 2010. (in Russian)

[3] RD JeO 1.1.2.01.769-2008. Organizacija remonta oborudovanija atomnyh stancij po tehnicheskomu sostojaniju. Osnovnye polozhenija [RD EO 1.1.2.01.769-2008. Organization of repair the  of nuclear power plant equipment for technical condition. Basic provisions]. 2008. (in Russian)

[4] JeMTD 66-069-2014. Metodicheskie rekomendacii «Opredelenie i obespechenie rabotosposobnogo tehnicheskogo sostojanija jelektroprivodnoj armatury. Tehnicheskie predlozhenija po modernizacii i zamene ustarevshih jelektroprivodov [EMTD 66-069-2014. Methodical recommendations "Definition and providing operating technical condition of electrodriving fittings. Technical offers on modernization and replacement of outdated electric drives]. 2014. (in Russian)

Papers32 - 37
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Article NameExtension of the СNC Machines Software During Milling Operations When Producing Power Machine Building Goods
AuthorsYu.N. Kudrikov*1, Yu.N. Kazennov*, S.A. Tomilin**2, R.A. Olkhovskaya**3
Address

* A branch of JSC "AEM-technologies" Atommash, Volgodonsk
1 e-mail: kng_2997@mail.ru
** Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360

2e-mail: SATomilin@mephi.ru ; 3 e-mail: RAOlkhovskaya@mephi.ru

AbstractIn work the G-functions created by means of parametrical programming, expanding the СNC machines software equipped with FMS-3000(3200) during milling operations when producing power machine building goods are offered.
KeywordsFMS-3000(3200) control system, computer numerical control (CNC) machine, milling, parametrical programming, G-functions, power machine building goods
LanguageRussian
References

[1] G-kod. Osnovy CNC (ChPU) programmirovanija [G-code. Bases of CNC (ChPU) of programming]. 2014. Available at:  http://cncexpert.ru/CNC-milling/CNC-programming.php  (in Russian)

Papers45 - 52
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Article NameDiagnostic Certificate as a Controlling Instrument of Equipment Life Cycle
AuthorsI.N. Veselova*, V.G. Beketov**
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
*e-mail: INVeselova@mail.ru ; ** e-mail:
VGBeketov@mephi.ru

AbstractThe instrument for optimization of a control system of equipment life cycle is offered in article. The diagnostic certificate which has to be filled in at all stages of equipment life cycle is offered as the instrument. The structure of the diagnostic certificate of NPP motorized fittings is shown as an example.
Keywordslife cycle control, diagnostic support, diagnostic certificate, motorized fittings, diagnostic parameters
LanguageRussian
References

[1] Sadovskaja T.G., Chernyshova T.N. Sistemy upravlenija zhiznennym ciklom izdelij i vozmozhnosti ih primenenija v otrasli jenergetiki [Control systems of life cycle of products and possibility of their application in branch of power.]. Audit i finansovyj analiz [Audit and the financial analysis]. 2010, №6, ISSN 0236-2988, pp. 1–14. (in Russian)

[2] Veselova I.N., Adamenkov A.K. Razrabotka diagnosticheskogo pasporta jelektroprivodnoj armatury [Development of electrodriving fitting diagnostic passport]. Izv. vuzov Sev.-Kavk. region. Tehn. Nauki [News of higher education institutions of North Caucasus region Technical science]. 2006, Pril. №16[Application № 16]. ISSN 0321-2653, pp. 71–76  (in Russian)

[3] Veselova I.N., Adamenkov A.K. Diagnostika tehnicheskogo sostojanija jelektroprivodnoj armatury [Diagnostics of technical condition of electrodriving fittings]. Jelektr. Stancii [Power plants]. 2007, №2, ISSN 0201-4564, pp. 53–56.  (in Russian)

[4] Veselova I.N., Adamenkov A.K. Metod vybora truboprovodnoj armatury AJeS, podlezhashhej remontu po tehnicheskomu sostojaniju [Method of a choice of the NPP pipeline fittings which is subject to repair on technical condition]. Tjazheloe mashinostroenie [Heavy mechanical engineering]. 2008, №10, ISSN 1024-7106, pp. 8–11. (in Russian)

[5] NP-068-05. Truboprovodnaja armatura dlja atomnyh stancij. Obshhie tehnicheskie trebovanija [NP-068-05. Pipeline fittings for nuclear power plants. General technical requirements]. (in Russian)

[6] Rozenberg G.Sh., Madorskij E.Z., Golub E.S. Vibrodiagnostika [Vibration diagnostics]. SPb. Pub. PJeIPK [Petersburg Power Institute Professional Development], 2003, 284 p. (in Russian)

Papers53 - 61
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Nuclear facilities exploitation

Article NameSearch Algorithm of the Heat Carrier Leak of PWR First Contour
AuthorsO.J. Pugachyova, A.K. Pugachyov, E.A. Abidova
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: nii_energomash@mail.ru

AbstractSearch acoustic system of the heat carrier leak in the first contour (SLHD) provides the detection of the heat carrier leak of the first contour with an expense from 3,8 l/min. Time of information delay in case of leak detection is no more than 3 minutes. The main way of increase of efficiency and reliability of system of SLHD is enhancement of leak search algorithm. Authors of article offered approaches to SLHD data processing: regulation of sensors indications, calculation sequent, majorization. In the article much attention is paid to compensation of background noise of the first contour premises and measuring path noise. Offered methods have to provide leak identification by an expense less than 3,8 l/min.
Keywordsbarriers protection of the nuclear power plant, leak detection, acoustic sensor, data regulation, method of sequent, majority function
LanguageRussian
References

[1] Ministerstvo Rossijskoj federacii po atomnoj jenergii. Koncern «Rosjenergoatom». Balakovskaja atomnaja stancija. Centr podgotovki personala. Osnovnoe oborudovanie reaktornogo otdelenija [Ministry of the Russian Federation of atomic energy. Rosenergoatom concern. Balakovo nuclear power plant. Center of the personnel trainig. Capital equipment reactor building]. 2000. 178 p. (in Russian)

[2] Bakirov M.B., Afonosov A.A., Ivanchenko I.Ju., Zabruskov N.Ju., Bogachev A.V., Levchuk V.I. Vnedrenie koncepcii TPR dlja AJeS s VVJeR-440, optimizacija sistem kontrolja techej [Introduction of the TPR concept for the NPP with WWER-440, optimization of monitoring systems of leaks]. OAO «VNIIAJeS», NTC Rostehnadzor [JSC VNIIAES (All-Russian Research Institute for Nuclear Power Plants Operation), STC Rostekhnadzor]. 22 p. (in Russian)

[3] Markosjan G.R. Sovershenstvovanie diagnosticheskoj sistemy «ALJuS» dlja opredelenija techi teplonositelja iz pervogo kontura VVJeR-440 [Improvement of diagnostic ALYuS system for definition  of heat carrier leak from the WWER-440 first contour]. Teplojenergetika [Power system]. 2000, №5, ISSN 0040-3636. (in Russian)

[4] Getman A.F. Koncepcija bezopasnosti «Tech pered razrusheniem» dlja sosudov i truboprovodov davlenija AJeS [The concept of safety "A leak before destruction" for vessels and the NPP pipelines of pressure]. M. Pub. Jenergoatomizdat [Energoatomizdat], 1999, ISBN 5-283-031151-9, 258 p. (in Russian)

Papers62 - 67
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Article NamePassive Wireless Tag-Sensor for Temperature Measurement at Technical Parameters Control of the NPP Physical Protection
AuthorsV.F. Kataev, V.I. Ratushnyj, A.F. Chernozhukova, Zh.A. Khvan
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: VITIkafFizME@mephi.ru

AbstractIn work the temperature detector on the superficial and acoustic waves (SAW), the principle of its work, possibility of reduction of an error in measurement is considered, development of temperature detectors with the combined system of identification is carried out. Sensors can be used for technical parameters control of the NPP physical protection.
Keywordssuperficial and acoustic waves, interdigital transducer counter, passive temperature sensor, NPP
LanguageRussian
References

[1] Pat. №2195069 Rossijskaja Federacija Odnonapravlennyj preobrazovatel' poverhnostnyh akusticheskih voln, na izobretenie [Patent № 2195069 Russian Federation Unidirectional converter of the superficial acoustic waves, on the invention] / G.Ja. Karapetjan, S.A. Bagdasarjan, N.A. Bagdasarjan – opubl. 20.12.2002 [published 20.12.2002]. Bjul. №35. [Bulletin № 35] (in Russian)

[2] Kurnosov A.I. Tehnologija poluprovodnikovyh priborov i izdelij mikrojelektroniki. V 10 kn.: Ucheb. posobie dlja PTU. Kn. 2. Materialy [Technology of semiconductor devices and products of microelectronics. In 10 books: Educational grant for technical training college. Book 2. Materials]. M. Pub. Vyssh. shk. [The higher school], 1989, 96p. (in Russian)

[3] Dzhekson R.G. Novejshie datchiki [The latest sensors] / perevod s anglijskogo pod red. V.V. Luchanika [translated from English, edited by V.V. Luchanik]. M. Pub. Izd-vo «Tehnosfera» [Publishing house "Technosphere"], 2007. ISBN 978-5-94836-111-6 (in Russian)

[4] Filtry na poverhnostnyh akusticheskih volnah (raschet, tehnologija i primenenie): Per. s angl. [Filters on superficial acoustic waves (calculation, technology and application): Translation from English.] / Pod red. G. Mjettjuza [Edited by G. Mettyyuz]. M. Pub. Radio i svjaz [Radio and communication], 1981, 472 p. (in Russian)

[5] Alekseev A., Aleksandrov S. Submikronnaja kontaktnaja metallizacija [Submicronic contact metallization]. Vybor tehnologii: setevoj zhurn [Technology choice: the network  journal]. 2009. Available at: http://www.nanometer.ru (in Russian)

Papers68 - 73
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Article NameEstimating the Probability of Defect Detection In the Equipment Diagnosis by Vibroacoustic Method
AuthorsR.G. Babenko, V.N. Nikiforov, O.Yu. Pugacheva, V.I. Sirotina, A.V. Chernov
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: nii_energomash@mail.ru

AbstractIn this article the approach to equipment diagnosis in terms of the theory of detection, evaluation and modulation of defects in vibroacoustic signal is considered. The results of experimental studies of detection probability of bearings defects by vibroacoustic method are given. The possible options of application of the theory of detection, evaluation and modulation in diagnostic systems are offered.
Keywordsprobability of defects detection, vibroacoustic signal, diagnosing of the NPP equipment
LanguageRussian
References

[1] Van Tris G. Teorija obnaruzhenija, ocenok i moduljacii. Tom I. Teorija obnaruzhenija, ocenok i linejnoj moduljacii. Nju-Jork, 1968 [Theory of detection, estimates and modulation. Volume I. Theory of detection, estimates and linear modulation. New York, 1968]. / G. Tris Van ; per. s angl., pod red. prof. V.I. Tihonova [translated from English, edited by professor V.I. Tikhonov]. M. Pub. «Sovetskoe radio» ["The Soviet radio"], 1972. 744 p. (in Russian)

[2] Arkadov G.V., Pavelko V.I., Finkel B.M. Sistemy diagnostirovanija VVJeR [Systems of WWER diagnosing]. M. Pub. Jenergoatomizdat [Energoatomizdat], 2010, ISBN 978-5-98704-496-4, 391 p.  (in Russian)

[3] Abidova E.A., Chernov A.V. Metody obrabotki informacii v diagnosticheskih sistemah: Uchebnoe posobie [Information processing methods in diagnostic systems: Manual]. Volgodonsk. Pub. VITI NIJaU MIFI [VETI NRNU MEPhI] 2013. 72 p. (in Russian)

Papers74 - 78
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Article NameThe Analysis of Technical and Organizational Actions Made by the Staff of the Operating Russian NPPs to Provide Operating State of Motorized Fittings Produced by JSC «Energomach (Chekhov)»
AuthorsYu.E. Ulyanova, O.Yu. Pugacheva, Yu.N. Elzhov, R.G. Babenko, D.V. Sirotin, S.V. Vasilenko
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: nii_energomash@mail.ru

AbstractInspection of motorized fittings of "Chekhov power machine building plant" in systems of acute steam and feed water at the operating Russian NPPs, and developing of the program of organizational and technical measures for providing its operating state is presented in article.
Keywordsmotorized fittings, information charts, analysis, inspection
LanguageRussian
References

[1] Kalendarnyj plan. Prilozhenie №2 k dogovoru №4/AJeM-14/2010590016/B2013/10/2014-KA ot 18.02.2014 g. na vypolnenie rabot «Povyshenie nadezhnosti, jeffektivnosti, bezopasnosti teplomehanicheskogo oborudovanija» po teme: «Provedenie obsledovanija AJeS v chasti vypolnjaemyh v nastojashhee vremja ispytanij armatury i privoda, primenenija tehnicheskih sredstv, periodichnosti i obema ispytanij»  [Planned schedule. Appendix № 2 to the contract "№ 4/AEM-14/2010590016/B2013/10/2014-KA of 18.02.2014 on performance of work "Increase of reliability, efficiency, safety the heatmechanical equipment" on a subject: "Carrying out inspection of the NPP in part the tests of fittings and drive, application of the technical which are carried out now means, frequency and volume of tests"]. OAO «Koncern Rosjenergoatom» [JSC Rosenergoatom Concern], 2014. (in Russian)

[2] Dogovor №4/AJeM-14/2010590016/B2013/10/2014-KA ot 18.02.2014 g. na vypolnenie rabot «Povyshenie nadezhnosti, jeffektivnosti, bezopasnosti teplomehanicheskogo oborudovanija» po teme: «Provedenie obsledovanija AJeS v chasti vypolnjaemyh v nastojashhee vremja ispytanij armatury i privoda, primenenija tehnicheskih sredstv, periodichnosti i obema ispytanij» [The contract No. 4/AEM-14/2010590016/B2013/10/2014-KA of 18.02.2014 for  work "Increase of reliability, efficiency, safety of the heatmechanical equipment" on a subject: "Carrying out inspection of the NPP regarding the tests of fittings and drive, application of technical means which are carried out now, frequency and the volume of tests"]. OAO «Koncern Rosjenergoatom» [JSC Rosenergoatom Concern], 2014. (in Russian)

[3] RB 030-04 Analiz opyta jekspluatacii pri prodlenii sroka jekspluatacii bloka atomnoj stancii [RB 030-04  Analysis of operating experience at extension of term of nuclear power plant unit operation]. 2009. (in Russian)

[4] PNAJe G-7-008-89 Pravila ustrojstva i bezopasnoj jekspluatacii oborudovanija i truboprovodov atomnyh jenergeticheskih ustanovok [PNAE G-7-008-89 Rules for the construction and safe  of the nuclear power station equipment and pipelines  operation]. (in Russian)

[5] OPB-88/97 NP-001-97 (PNAJeG-01-011-97) Obshhie polozhenija obespechenija bezopasnosti atomnyh stancij [OPB-88/97 NP-001-97 (PNAEG-01-011-97) General provisions of nuclear power plant safety]. (in Russian)

[6] NP-068-05 Truboprovodnaja armatura dlja atomnyh stancij. Obshhie tehnicheskie trebovanija [NP-068-05 Pipeline fittings for nuclear power plants. General technical requirements]. (in Russian)

[7] RD JeO 0648-2005 Polozhenie o tehnicheskom diagnostirovanii jelektroprivodnoj truboprovodnoj promyshlennoj armatury na jenergoblokah atomnyh stancij [RD EO 0648-2005 the Provision on technical diagnosing of electrodriving pipeline industrial fittings at of nuclear power plant units]. (in Russian)

[8] MT1.2.3.02.999.0085-2010 Diagnostirovanie truboprovodnoj jelektroprovodnoj armatury.Metodika [MT1.2.3.02.999.0085-2010 Diagnosing of pipeline electrowire fittings.Technique]. (in Russian)

Papers79 - 85
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Article NameTechnique of Subcrane Way Sections Acceptance Control of Circular Action Crane
AuthorsV.A. Naugolnov*I.Y. Pimshin**
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
* e-mail: naugolnov53@mail.ru ; ** e-mail: geodez@aaanet.ru

AbstractThe technique of geometrical parameters control of track sections of the special bridge electric crane of circular operation is described in work. The proposed technique provides the geometry of the track in accordance with regulatory requirements.
Keywordstrack, bridge crane of circular operation, the electronic instrument
LanguageRussian
References

[1] Burak K.E. O kontrole za sostojaniem podkranovogo puti poljarnogo krana reaktornogo otdelenija AJeS [About control of a condition of a subcrane way of the polar crane of the NPP reactor building]. Geodezija i kartografija [Geodesy and cartography]. 1993, № 5, ISSN 0016-7126, pp. 20–22.  (in Russian)

[2] Burak K.E., Shpakovskij P.F., Molov V.P.  Geodezicheskie raboty dlja raschjota rihtovki puti poljarnyh kranov AJeS [Geodetic works for aligning calculation of the NPP polar cranes]. Geodezija i kartografija [Geodesy and cartography]. 1996, №12, ISSN 0016-7126, pp. 22–25. (in Russian)

[3] Shehovcov G.A. Sovremennye metody geodezicheskogo kontrolja hodovoj chasti i putej mostovyh kranov [Modern methods of geodetic control of a running gear and ways of bridge cranes]. Nizhnij Novgorod. Pub. Nizhegorodskij gosudarstvennyj arhitekturno stroitelnyj universitet [Nizhny Novgorod State University of Architecture and Civil Engineering], 1999, 164 p. (in Russian)

[4] Seroshtan V.I., Ogar Ju.S., Golovin A.I. etc. Diagnostirovanie gruzopodjomnyh mashin [Diagnosing of load-lifting cars]. M. Pub. Mashinostroenie [Mechanical engineering], 1992,  ISBN 5-217-01404-0, 192 p. (in Russian)

[5] Naugolnov V.A., Kozlovcev V.M. Modelirovanie sistemy metallicheskaja podkranovaja balochnaja konstrukcija - mostovoj poljarnyj kran [Modeling of system a metal subcrane frame design - the bridge polar crane]. Matematicheskie metody v tehnike i tehnologijah: materialy mezhdunar. konf. MMTT-19Voronezh, 30 maja-2 ijunja 2006g [Mathematical methods in equipment and technologies: materials of the international MMTT-19 conference Voronezh, on May-2 30 June, 2006]. Voronezh. Pub. Voronezh. gos. tehnol. Akad. [Voronezh State Technology Academy], 2006, T. 5 [Volume 5], pp. 122–125. (in Russian)

[6] Pat. № 2382347 Rossijskaja Federacija, MPK G01M 17/06, V66S 13/16. Sposob diagnostiki geometricheskih parametrov hodovoj chasti mostovyh kranov  [Patent № 2382347 Russian Federation, MPK G01M 17/06, B66C 13/16. Way of diagnostics of geometrical parameters o fbridge cranes running gear] / Ju.I. Pimshin, I.Ju.Pimshin, V.A. Naugolnov; zajavitel i patentoobladatel Ju.I. Pimshin, I.Ju. Pimshin, V.A. Naugol'nov – № 2008145829/11; zajavl. 19.11.08; opubl. 20.02.2010 [Yu.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov; applicant and patent holder Yu.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov – № 2008145829/11; declared 19.11.08; published 20.02.2010], Bjul. № 5 [Bulletin № 5]. 7 p. (in Russian)

[7] Pat. № 2425348 Rossijskaja Federacija, MPK G01M 17/06, V66S 13/16. Sposob diagnostiki geometricheskih parametrov hodovoj chasti mostovogo krana krugovogo dejstvija [Patent № 2425348 Russian Federation, MPK G01M 17/06, B66C 13/16. Way of diagnostics geometrical parameters of a running gear of the bridge crane of circular action] / Ju.I. Pimshin, I.Ju. Pimshin, V.A. Naugolnov; zajavitel i patentoobladatel Ju.I.Pimshin, I.Ju. Pimshin, V.A. Naugolnov – №2008145829/11; zajavl. 15.02.10; opubl. 27.07.2011[Yu.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov; applicant and patent holder YU.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov – №  2008145829/11; declared 15.02.10; published 27.07.2011], Bjul. № 21[Bulletin № 21]. – 8 p. (in Russian)

[8] Pat. № 2384831 Rossijskaja Federacija, MPK G01M 17/06, V66S 13/16. Sposob diagnostiki geometricheskih parametrov hodovoj chasti mostovyh kranov radial'nogo dejstvija [Patent № 2384831 Russian Federation, MPK G01M 17/06, B66C 13/16. Way of diagnostics geometrical parameters of a running gear of bridge cranes of radial action] / Ju.I. Pimshin, I.Ju. Pimshin, V.A. Naugol'nov; zajavitel' i patentoobladatel' Ju.I. Pimshin, I.Ju. Pimshin, V.A. Naugol'nov. – №2008145825/11; zajavl. 19.11.08; opubl. 20.03.2010 [Yu.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov; applicant and patent holder YU.I. Pimshin, I.Yu. Pimshin, V.A. Naugolnov. – №  2008145825/11; declared 19.11.08; published 20.03.2010], Bjul. №21[Bulletin № 21]. – 8 p. (in Russian)

[9] Naugolnov V.A. Analiz hodovoj chasti kranov krugovogo dejstvija, imejushhih cilindricheskie koljosa [The analysis of crane running gear of the circular action having cylindrical wheels]. Bjul. Sojuza geodezistov [Bulletin of the Surveyor union]. Rostov n/D. 2010, №3. pp. 21–24. (in Russian)

[10] Pimshin Ju.I., Naugolnov V.A., Pimshin I.Ju. Osobennosti dvizhenija kranov mostovogo tipa s konicheskimi koljosami [Features of the movement of bridge type cranes  with conic wheels]. Globalnaja jadernaja bezopasnost [Global Nuclear Safety]. 2011, №1, ISSN 2305-414X, pp. 71–78 (in Russian)

[11] Pimshin, Ju.I. i dr. Obshhie principy tehnicheskoj diagnostiki mostovyh kranov [General principles of bridge crane technical diagnostics]. Inzhenernyj vestnik Dona : jelektron. nauch. zhurn [Engineering bulletin of Don: electronic scientific journal]. 2012, №4/2, ISSN 2073-8633. Available at:  http://www.ivdon.ru (in Russian)

[12] Pimshin Ju.I., Naugolnov V.A., Pimshin I.Ju. Sposob diagnostiki geometricheskih parametrov hodovoj chasti mostovyh kranov radial'nogo dejstvi [Way of diagnostics of geometrical parameters of a running gear of bridge cranes of radial action]. Inzhenernyj vestnik Dona : jelektron. nauch. Zhurn [Engineering bulletin of Don: electronic scientific journal]. 2012, №4/2, ISSN 2073-8633. Available at:  http://www.ivdon.ru (in Russian)

[13] Pimshin Ju.I., Naugolnov V.A., Pimshin I.Ju. Sposob diagnostiki geometricheskih parametrov hodovoj chasti mostovyh kranov radial'nogo dejstvija [Way of diagnostics of geometrical parameters of a running gear of bridge cranes of radial action]. Inzhenernyj vestnik Dona : jelektron. nauch. Zhurn [Engineering bulletin of Don: electronic scientific journal]. 2012, №4/2. ISSN 2073-8633. Available at:  http://www.ivdon.ru (in Russian)

[14] Pimshin Ju.I., Naugolnov V.A., Pimshin I.Ju. Metodologicheskie osnovy tehnicheskoj diagnostiki kranov mostovogo tipa [Methodological bases of technical diagnostics of bridge type cranes]. Izv. vuzov. Sev.-Kavk. region. Tehn. nauki [News of higher education institutions of North Caucasus region Technical science]. 2008, Spec. vyp. [Special issue]. ISSN 0321-2653, pp. 135–137. (in Russian)

[10] Pimshin Ju.I., Naugolnov V.A., Pimshin I.Ju. Analiz hodovoj chasti kranov radial'nogo dejstvija pri dvizhenii ih po okruzhnosti [The analysis of a running gear cranes of radial action at their movement on a circle]. Izv. vuzov. Sev.- Kavk. region. Tehn. Nauki [News of higher education institutions of North Caucasus region Technical science]. 2009, Spec. vyp [Special issue]. ISSN 0321-2653, pp. 95–100 (in Russian)

Papers86 - 89
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Article NameThe Analysis of Motor Loading Transition Process Influence to Increase the Reliability and Profitability of Electric Motors of Own Needs at the Electric Station using Laboratory Equipment
AuthorsO.V. Fomenko
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: ovyl@mail.ru

AbstractThe article covers the questions of increasing of reliability and economy of motor loading in the system of own needs at the electric station. These questions are considered on the base of transition process analysis with the help of laboratory equipment of nuclear power plants department, Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University "MEPhI".
Keywordsself-triggering, induction motor, high-voltage frequency converter, frequency regulation
LanguageRussian
References

[1] Kulikov Ju.A. Perehodnye processy v jelektricheskih sistemah: ucheb. posobie [Transition processes in electric systems: manual]. Novosibirsk. Pub. Izd-vo NGTU [Novosibirsk State Technical University publishing house], 2006, ISBN 5-7782-0723-9, 286 p. (in Russian)

[2] Krjuchkov I.P. Jelektromagnitnye perehodnye processy v jelektrojenergeticheskih sistemah: uchebnoe posobie dlja vuzov [Electromagnetic transition processes in electrical power systems: for higher education textbook]. M. Pub. Izdatel'stvo MJeI [MPEI publishing house], 2000. (in Russian)

[3] Krjuchkov I.P., Neklepaev B.N., Starshinov V.A. Raschet korotkih zamykanij i vybor jelektrooborudovanija: ucheb. posobie dlja stud. vyssh. ucheb. zavedenij [Calculation of short circuits and choice of electric equipment: higher education textbook] / pod red. Krjuchkova I.P., Starshinov V.A. [Edited by Kryuchkov I.P. and Starshinov V.A]. 2-e izd. [2nd edition]. M. Pub. Izdatel'skij centr «Akademija» [Publishing center "Academia"], 2006, ISBN 5-7695-1998-3, 416 p. (in Russian)

[4] Pravila tehnicheskoj jekspluatacii jelektroustanovok JeS i PS [Rules of technical operation of the ES and PS electroinstallations]. SPb. Pub. Izdatel'stvo DEAN [Dean Press publishing house], 2003,  ISBN: 978-5-93630-668-6, 304 p. (in Russian)

[5] Senigov P.N., Karpesh M.A. Perehodnye processy v jelektrojenergeticheskih sistemah. Rukovodstvo po vypolneniju bazovyh jeksperimentov. PPJeJeS.001 RBJe (932) [Transition processes in electrical power systems. The management on to performance of basic experiments. PPEES.001 RBE (932)]. Cheljabinsk. Pub. Izhenerno-proizvodstvennyj centr «Uchebnaja tehnika» [Engineering production center "Educational Equipment"], 2007. 139 p. (in Russian)

Papers90 - 95
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Safety culture, socio and legal aspects of territorial development of nuclear facilities location

Article NameCompetitive Advantages of Russia in the Nuclear Fuel Waste World Market
AuthorsN.A. Efimenko*, I.A. Uhalina**
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
* e-mail: A2919@yandex.ru ; **e-mail: uhalina@yandex.ru

AbstractThe competitive advantages of Russia in the use of advanced technologies for recycling nuclear waste, safe ways of nuclear fuel burial, creation of new reactors are analyzed in the article.
Keywordsnuclear fuel waste, competitive advantages, closed nuclear fuel cycle, safe radioactive waste burial
LanguageRussian
References

[1] Krupnov Ju.V. Jadernaja doktrina Rossii [Nuclear doctrine of Russia] / Ju.V. Krupnov. M. Pub. Institut mirovogo razvitija [Institute of world development], 2005. Available at:  http://www.proektnoegosudarstvo.ru/project/zamikanie_yadernogo_toplivnogo_tcikla (in Russian)

[2] Solonin M.I. Obrashhenie s obluchjonnym jadernym toplivom 2002: novye iniciativy Rossii: tez. [The treatment of the irradiated nuclear fuel 2002: new initiatives of Russia: theses]. 2002. Available at: http://www.metal-profi.ru/library/ecology/t_dokladov_mej.htm (in Russian)

[3] Jekonomika i novosti atomnogo rynka: ezhenedelnik sobytij [Economy and news of the nuclear market: weekly of events] / Fakul'tet upravlenija i jekonomiki vysokih tehnologij Nacional'nogo issledovatel'skogo jadernogo universiteta «MIFI», SKC Rosatoma, Izdatel'skij dom «Ruda i Metally», 21-27 janvarja 2013 g [Faculty of management and economy of high technologies, National research nuclear university "MEPhI", SCC Rosatom, "Ore and Metals" Publishing house, 21-27 January, 2013]. Available at: mephi.ru/upload/economika_novosti/21-27_13.doc (in Russian)

[4] Vasilev B. Tehnologija BN pokazala svoju nadezhnost' i vozmozhnosti sovershenstvovanija [The BN technology showed the reliability and possibilities of improvement]. Rossijskoe atomnoe soobshhestvo [Russian nuclear community], 11 sentjabrja [September] 2012.  Available at: http://www.atomic-energy.ru/interviews/2012/09/11/35926 (in Russian)

[5] Muraveva M. Radioothody – v keramicheskie matricy [Radio waste – in ceramic matrixes]. Nauka i tehnika: setevoj zhurn. 25.02.2013. [Science and equipment: the network journal]. Available at: http://www.strf.ru/material.aspx CatalogId=222&d_no=52343#.U_RWOfl_svs (in Russian)

Papers96 - 98
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Article NameControl System Analysis of the Quality at the Rostov NPP
AuthorsV.E. Dovbysh
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: VEDovbysh@mephi.ru

AbstractThe general characteristic of activity of Rosenergoatom Concern branch of JSC «Rostov nuclear power plant» (the Rostov NPP) in the field of quality is given in article, the General program of ensuring quality at the Rostov NPP is considered, the assessment of efficiency of functioning of quality management system at the Rostov NPP is given.
Keywordsensuring quality program, Rostov NPP, ensuring quality systems, JSC «Rosenergoatom Concern»
LanguageRussian
References

[1] Gerasimov B.I., Zlobina N.V., Spiridonov S.P. Upravlenie kachestvom: uchebnoe posobie [Quality management: manual]. M. Pub. KNORUS [KNORUS], 2007, ISBN 978-5-85971-759-0, 372 p. (in Russian)

[2] Kudinov V.V. Optimizacija programm tehobsluzhivanija jadernyh jenergoblokov [Optimization of programs of nuclear power unit servicing]. Atomnaja tehnika za rubezhom [Nuclear equipment abroad]. 2006, №12, ISSN 0320-9326, pp. 3–11. (in Russian)

[3] Obshhaja programma obespechenija kachestva Rostovskoj AJeS POKAS (O), RK 01 [General program of the Rostov NPP ensuring quality POKAS (O), PK 01]. 2011. (in Russian)

Papers99 - 105
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Article NameTechnical University Students’ Independent Work in the Process of Training a Foreign Language
AuthorsL.A. Gunina*, L.V. Zakharova**
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
*e-mail: LAGunina@mephi.ru; ** e-mail:zakharova11@mail.ru

AbstractThe article is devoted to the role of technical university students’ independent work in the education of safety culture in the process of foreign language training in accordance to the FSES 3-rd generation. It is pointed out that nuclear safety culture is a priority subject of international cooperation, and the role of nuclear education and training is considered in the article as an essential mechanism to solve this problem. The importance of the human factor as an important criterion in assessing the level of safety culture at nuclear facilities is discussed. The role of foreign language training and education is stressed. The experience of the educational programs implementation in the disciplines of "Foreign language", “Language communication in the professional field" is described. Credit-modular system of independent work evaluation is positively characterized in the article. Steps in the process of organization of students’ independent work in technical universities are described in detail.
Keywordssafety culture, nuclear safety culture education, the role of nuclear education, the role of foreign language in the process of nuclear education, independent work, the human factor
LanguageRussian
References

[1] Vasilenko N.P., Rudenko V.A. Metodicheskie rekomendacii po organizacii samostojatel'noj raboty studentov: uchebno-metodicheskoe posobie [Methodical recommendations about the organization of student independent work: educational and methodical textbook]. M., 2012. 72 p. (in Russian)

[2] Viktor Murogov: o roli veteranov v razvitii jadernoj kultury [Victor Murogov: about a role of veterans in nuclear culture development]. 2014. Available at:  http://www.atominfo.ru/newsi/p0644.htm (in Russian)

[3] Gunina L.A., Zaharova L.V., Zarochinceva I.V. Rol kompetencij vladenija jazykom v formirovanii kultury proizvodstva. [Role of mastery language competences in forming of production culture.]. Globalnaja jadernaja bezopasnost [Global Nuclear Safety]. 2013, №4(9), ISSN 2305-414X, pp. 72–76.  (in Russian)

[4] Gunina L.A., Zaharova L.V., Zarochinceva I.V.  Problemy sovershenstvovanija obuchenija inostrannym jazykam v tehnicheskom vuze (v svete novyh trebovanij FROS 3 pokolenija) [Problems of improvement of foreign language training in technical university (new requirements of FROS 3)]. Vestn. un-ta ros. akad. obrazovanija [Bulletin of university of the Russian Academy of Education]. 2013, №3(66), ISSN 2072-5833, pp. 64–68. (in Russian)

[5] Diskussija [Discussion]: online journal. 2014. Available at: //www.rsuh.ru/article.html?id=42899 (in Russian)

[6] Zarochinceva I.V., Gunina L.A., Zaharova L.V. Opyt realizacii programm urovnevogo vysshego professionalnogo obrazovanija po inostrannomu jazyku v tehnicheskom vuze [Experience of implementation of programs of-level higher education for a foreign language in technical university]. Vestn. Ros. un-ta druzhby narodov. Ser. Russkij i inostrannye jazyki i metodika ih prepodavanija [Bulletin of People's Friendship University of Russia. Series Russian and foreign languages and technique of their teaching]. 2014, №2, ISSN 2313-2264, pp. 85–92. (in Russian)

[7] Zaharova L.V., Gunina L.A., Zarochinceva I.V. Jazykovaja kommunikacija v professionalnoj oblasti v tehnicheskom vuze, opyt realizacii [Language communication in professional area in technical university, experience of realization]. Ser. Socialno-gumanitarnye nauki [Series Social humanities]. 2014, №1.1(49), pp. 507–520. (in Russian)

[8] Nastolnaja kniga prepodavatelja inostrannogo jazyka [Reference book of a foreign language teacher]. Minsk. 1999. 522 p. (in Russian)

[9] Obshheevropejskie kompetencii vladenija inostrannym jazykom: izuchenie, obuchenie, ocenka [All-European competences of foreign language skills: studying, training, assessment]. Strasburg. Pub. Departament po jazykovoj politike [Department on language policy], 2001, 256 p. (in Russian)

[10] Organizacija samostojatelnoj raboty studentov [Organization of independent work of students]. 2008. Available at: http://firstmanager.ru/2008/01/11/organizaciya-samostoyatelnoj-raboty-studentov (in Russian)

[11] Orlova S.S. Samostojatel'naja dejatelnost studentov, metody ejo organizacii na sovremennom jetape [Independent activity of students, methods of its organization at the present]. 2014. Available at: http://iet.hersen.spb.ru/iet/index.php?id=672 (in Russian)

[12] Otchjot ob jekologicheskoj bezopasnosti za 2012 god [The report on ecological safety, 2012]. 2013, p. 3. (in Russian)

[13] Polozhenie ob organizacii vneauditornoj samostojatelnoj raboty studentov v Moskovskom gosudarstvennom oblastnom universitete [The provision on the organization of out-of-class independent work of students in Moscow state regional university]. M. 2007, №1. (in Russian)

[14] Rudenko V.A., Vasilenko N.P. Cennostnaja sostavljajushhaja kul'tury bezopasnosti [Valuable component of safety culture]. Globalnaja jadernaja bezopasnost [Global Nuclear Safety]. 2013, №4(9), ISSN 2305-414X, pp. 82–86. (in Russian)

[15] Rylov M.I., Tihonov M.N. Kultura bezopasnosti na obektah atomnoj jenergii [Safety culture on atomic energy objects]. 2014. Available at: http://www.proatom.ru/modules.php?name=News&file=article&sid=4789 (in Russian)

[16] Ter-Minasova S.G., Solovova E.N. "Inostrannyj jazyk" dlja nejazykovyh vuzov i fakultetov: primernaja programma nauchno-metodicheskogo soveta po inostrannym jazykam ["Foreign language" for not language higher education institutions and faculties: the approximate program of scientific and methodical council for foreign languages]. M. Pub. M-vo obrazovanija i nauki RF [Ministry of Education and Science of the Russian Federation], 2009. (in Russian)

[17] Hripunov I.A. O razrabotke koncepcii jadernogo prava Rossii s uchetom rekomendacij MAGATJe v sfere organizacionnoj kultury [About development of the concept of the nuclear right of Russia taking into account recommendations of IAEA in the sphere of organizational culture]. 2014. Available at: http://www.atomic-energy.ru/articles/2011/06/28/23910 (in Russian)

[18] Shalamov V.V. Organizacija samostojatelnoj raboty v obrazovatelnyh uchrezhdenijah [The organization of independent work in educational institutions]. 2014. Available at: http:/mmj.ru/education_ahey.html (in Russian)

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