2015-3(16)

Nuclear, radiation and environmental safety

Article NameMathematical Model of Radiation Safety Technology when Watering the Soil by Small Differentiated Standards in the NPP Sanitary Protection Zone
AuthorsV.I. Veprikov*1, Yu.V. Veprikov**2, Yu.V. Veprikova***2
Address

1 Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University «MEPhI», 73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
2 Institute of services industry and business branch of "Don State Technical University", 147, Shevchenko St., Shakhty, Rostov region 346500
* e-mail: vv_@list.ru ; ** e-mail: veprikow@mail.ru ; *** e-mail:  sw_@list.ru

AbstractThe innovative technology of watering by the differentiated small standards based on exact control of humidity of the soil and excluding a deep filtration of the polluted water is modelled. The technology allows excludes degradation of the soil, differs in simplicity and profitability. In work dependence between the speed of movement of the front of moistening and reduction of density of the soil taking into account the size of interirrigation intervals was investigated. The given experimental results show basic possibility of improvement of density of the soil by application of technology of watering by the differentiated small standards.
Keywordsmathematical modeling, water filtration, watering with small standards, the soil density, soil degradation
LanguageRussian
References

[1]    Novik F.S. Matematicheskie metody planirovaniya eksperimentov v metallovedenii [Mathematical methods of planning of experiments in metallurgical science]. Razdel 3 [Part 3]. Vybor parametrov optimizacii i faktorov [Choice of parameters of optimization and factors]. М. Pub. MISIS [MISiS], 1971, 106 p. (in Russian)

[2]    Adler Yu.P., Markova E.V., Granovskij Yu.V. Planirovanie eksperimenta pri poiske optimalnyh uslovij [Planning of experiment by search of optimum conditions]. M. Pub. Nauka [Science], 1976, 279 p. (in Russian)

[3]    Lvovskij E.N. Statisticheskie metody postroeniya empiricheskih formul [Statistical methods of creation of empirical formulas]. M. Pub. Vysshaya shkola [Higher Education], 1992, ISBN 5-06-001264-6, 224 p. (in Russian)

[4]    Veprikov V.I. Matematicheskoe modelirovanie processov еlektrokristallizacii iz vodnogo rastvora elektrolita, pod dejstviem postoyannogo magnitnogo polya. Yubilejnyj sbornik nauchnyx trudov YuRGUES [Mathematical modeling of processes of electrocrystallization of water solution of electrolyte, under the influence of a constant magnetic field. Anniversary collection of scientific works of SRSSTU]. Izvestiya vysshix uchebnyx zavedenij [News of higher educational institutions]. Severo-Kavkazskij region [North Caucasus region] Texnicheskie nauki [Technical science] Prilozhenie №6 [Appendix № 6]. 2004, ISSN 0321-2653, p. 153–157 (in Russian)

[5]    Melik-Gajkazayan I.V., Melik-Gajkazyan M.V., Tarasenko V.F. Metodologiya modelirovaniya nelinejnoj dinamiki slozhnyh system [Methodology of modeling of nonlinear dynamics of difficult systems]. M. Pub. Fizmatlit [Phismatlit], 2001, ISBN 5-9221-0087-4, 272 p. (in Russian)

[6]    Chulichkov A.I. Matematicheskie modeli nelinejnoj dinamiki [Mathematical models of nonlinear dynamics]. M. Pub. Fizmatlit [Phismatlit]. 2000, ISBN 5-922100-83-1, 296 p. (in Russian)

Papers7 - 22
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Article NameIncrease of Shrubby Cultures Biodiversity in Public Plantings of the Rostov Nuclear Power Plant Thirty-kilometre Zone
AuthorsS.A. Bogorovskaya
Address

Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University «MEPhI»,
73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
e-mail: swetlinka1@mail.ru

AbstractThe specific structure and decorative qualities of bushes-introduced species for their implementation in public green plantings are analysed. Criteria of type selection are developed for green plantings of Volgodonsk.
Keywordsrange of shrubby plants, decorative qualities, esthetic appeal, biodiversity
LanguageRussian
References

[1]    Kostukov S.M. Bioehkologicheskoe obosnovanie assortimenta kustarnikov dlja ozelenenija urbolandshaftov Nizhnego Povolzh'ja [Bioecological justification of the range of bushes for gardening of urbolandshaft of Lower Volga area]: avtoref. dis.  kand.  s.–kh. nauk [PhD thesis abstract in agricultural sciences]. Volgograd, 2012, 30 p. (in Russian)

[2]    Kulik K.N., Svintsov I.P., Semenutina A.V. Povyshenie bioraznoobrazija kustarnikov v rekreacionno-ozelenitel'nykh nasazhdenijakh zasushlivogo pojasa Rossii  (nauchno-metodicheskie ukazanija) [Increase of a biodiversity of bushes in a recreational ozelenitelnykh plantings of a droughty belt of Russia (scientific study guide)] Volgograd, Pub. VNIALMI [All-Russian research institute of an agrolesomelioration], 2008. 63 p. (in Russian)

Papers23 - 26
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Design, manufacturing and commissioning of nuclear industry equipment

Article NameUse of Electron Beam Welding for Creation of Thermoissue Converters (TEC) from Tungsten Monocrystals
AuthorsV.N. Lastovirya*1, V.V. Novokreshhenov**2, R.V. Rodyakina**3
Address

* Moscow state industrial university, 16 Avtozavodskaya, Moscow, Russia 115280
** National research university "MPEI", 14 Krasnoznamennaya St., Moscow Russia 111250
1e-mail: lvn3@mail.msiu.ru ; 2e-mail: novik161041@mail.ru3email: reginarodyakina@mail.ru

AbstractIn article two various technologies of receiving a mono-faced hollow tube of the demanded sizes are considered. One of them is based on production of two semi-cylinders with the set crystallographic orientation of a work face, and the second is on the focused interface of two previously made hollow preparations. The results received in work testify that the considered technologies allow to receive mono-faced hollow tubes which can be used for production TECs.
Keywordsmonocrystal, electron beam welding (EBW), mono-faced hollow tube, crystallographic orientation, substructure, orientation corners
LanguageRussian
References

[1]    Lyakishev N.P., Burxanov G.S. Metallicheskie monokristally [Metal monocrystals]. M. Pub. ELIZ [E- Pub], 2002, ISBN 5-901179-04-8, 312 p. (in Russian)

[2]    Novokreshhenov V.V., Rodyakina R.V. Formirovanie struktury metalla shva pri elektronno-luchevoj svarke monokristallov volframa [Formation of structure of metal of a seam at electron beam welding of monocrystals of tungsten]. Vestnik MEI [Bulletin of the Moscow power institute], 2013, №4, ISSN 19936982, p. 19–24. (in Russian)

[3]    Novokreshhenov V.V., Rodyakina R.V. Struktura i mexanicheskie svojstva svarnyx soedinenij monokristallov volframa, vypolnennyx elektronno-luchevoj svarkoj [Structure and mechanical properties of welded connections of the monocrystals of tungsten executed by electron beam welding]. Vestnik MEI [Bulletin of the Moscow power institute], 2013, №5, ISSN 19936982, p. 16–22. (in Russian)

[4]    Novokreshhenov V.V.,  Rodyakina R.V. Formirovanie substruktury i kristallografii svarnyx soedinenij monokristallov volframa [Formation of a substructure and crystallography of welded connections of monocrystals of tungsten]. Svarochnoe proizvodstvo [welding fabrication], 2015, №3, ISSN 0491-6441, p. 20–25. (in Russian)

Papers27 - 35
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Article NameThe Time-And-Frequency Transformations Used in Digital Processing of Signals
AuthorsJu.E. Uljanova, R.G. Babenko, 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@mephi.ru

AbstractThe comparative analysis of the time-and-frequency transformations used for digital processing of signals such as continuous Fourier transformation, Wavelet transformation and Gilbert - Huang transformation is presented in article.
Keywordstime-and-frequency transformations, Fourier transformation, Wavelet transformation and Gilbert-Huang transformation
LanguageRussian
References

[1]    D'jakonov V., Abramenkova I. MATLAB. Obrabotka signalov i izobrazhenijj. Special'nyjj spravochnik [MATLAB. Processing of signals and images. Special reference book]. Sankt-Peterburg. Pub. “Peter”, 2002, ISBN 5-318-00667-1, 608 p. (in Russian)

[2]    Mironov D.S.  Ehksperimentalnoe issledovanie pulsacij davlenija, generiruemykh melkojj otkrytojj kavernojj, s primeneniem chastotno-vremennykh metodov obrabotki dannykh [Pilot study of the pulsations of pressure generated by a small open cavity with application of time-and-frequency methods of data processing]. Teplopfizika i aehromekhanika [Thermophysics and aeromechanics], 2011, Vol. 18, №3, ISSN 0869-8635, p. 385–395. (in Russian)

[3]    The Hilbert-Huаng Trаnsform аnd Its Аpplicаtions / Eds By Norden E. Huаng, Sаmuel S. Shen. Pub. World Scientific Publishing Compаny, 2005, ISBN 981-256-376-8, 324 p. (in English)

[4]    Pavlov A.N., Filatova A.E., Khramov A.E. Chastotno-vremennojj analiz nestacionarnykh processov koncepcii vejjvletov i ehmpiricheskikh mod [Time-and-frequency analysis of non-stationary processes of the concept of wavelet and empirical models]. Izvestija vuzov. Prikladnaja nelinejjnaja dinamika [News of higher education institutions. Applied nonlinear dynamics], 2011, Vol. 19, №2, ISSN 0869-6632, p. 141–157. (in Russian)

Papers36 - 42
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Article NameSoftware Tool of Systematization and Registration of "SCALA-MICRO" Operational Reserve
AuthorsN.M. Matrosov
Address

"Leningrad nuclear power plant" the branch of JSC Rosenergoatom Concern,
Promzone, Sosnovy Bor, Leningrad Region, Russia 188540
e-mail: tai-mnm@laes.ru

AbstractThe structure of the database, server hosting options DBMS in the information network and the functionality of the client application software of systematization and registration of the operational reserve is considered.
Keywordssoftware, database, client-server application
LanguageRussian
References

[1] Sidorenko O.Ju. Programmirovanie baz dannykh v Microsoft SQL server [Programming of databases in Microsoft SQL server] : ucheb. posobie [manual]. Obninsk, Pub. NOU CIPK [Non-state educational institution "Central institute of professional development"], 2009, 49 p. (in Russian)

[2] Moiseenko S.I. Interaktivnyjj uchebnik po SQL [The interactive textbook on SQL] Available at: http://www.sql-tutorial.ru (in Russian)

Papers43 - 46
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Article NameTendencies and Problems of a One-sided ARC Welding
AuthorsY.V. Doronin
Address

LTD «Certification Center of municipal services», 47A Izmajlovskoe St.(schosse),
Moscow, Russia 105187
e-mail: bekkenbauer@yandex.ru

AbstractThe article deals with modern aspects sided arc welding with double seam formation. It is concluded that the recently developed technology ensures the high quality of the root bead and successfully applied in domestic welding industry.
Keywordssided welding, suspended, reverse roller technology, metal-cored wire
LanguageRussian
References

[1]    Doronin Yu.V. Razrabotka teoreticheskih osnov formirovaniya obratnoj storony shva s uchetom fiziko-himicheskih processov v svarochnoj vanne i sozdanie novyh svarochnyh materialov dlya odnostoronnej dugovoj svarki stalej plavyashhimsya elektrodom [Development of theoretical bases of formation of a reverse side of a seam taking into account physical and chemical processes in a welding bathtub and creation of new welding materials for unilateral arc welding staly the melting electrode]. Dissertaciya na soiskanie uchenoj stepeni doktora texnicheskih nauk [the thesis of academic degree of the Doctor of Engineering]. М. 2010, 352 p. (in Russian)

[2]    Karasev M.V., Doroshenko F.E., Kazakov A.A., Lyubochko D.A. Texnologicheskie osobennosti vypolneniya razlichnyh sloev shva pri avtomaticheskoj svarke truboprovodov [Technological features of performance of various layers of a seam at automatic welding of pipelines]. Svarka i diagnostika [Welding and diagnostics]. 2014,  №6,  ISSN 2071-5234, p. 45–49. (in Russian)

[3]    Rybachuk A.M., Chernyshov G.G. Matematicheskoe modelirovanie fizicheskih processov v duge i svarochnoj vanne [Mathematical modeling of physical processes in an arch and a welding bathtub]. Uchebnoe posobie [Course book]. M. Pub. MGTU im. N.E. Baumana [Bauman Moscow State Technical University],  2007,  ISBN 978-5-7038-2941-7, 74 p. (in Russian)

[4]    Krysko N.V.  Razrabotka sposoba formirovaniya shva poperechnym magnitnym polem  pri dugovoj svarke  plavyashhimsya elektrodom [Development of a way of formation of a seam a cross magnetic field at arc welding by the melting electrode]. Dissertaciya na soiskanie uchenoj stepeni kandidata texnicheskih nauk [thesis of Candidate of Technical Sciences]. М. 2015, 118 p. (in Russian)

Papers47 - 56
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Operation of nuclear industry facilities

Article NameNatural Supervision of the Rostov NPP Power Unit № 3 Protective Cover after Pretension
AuthorsV.N. Medvedev*, N.A. Kiselev*, E.S. Krutko*, A.N. Ulyanov*, V.F. Strizhov*, E.A. Potapov**
Address

* Institute of nuclear power safe development problems
52, Bolshaya Tulskaya, Moskow, Russia 113191
e-mail: cont@ibrae.ac.ru 

** Rostov NPP the branch of JSC Rosenergoatom Concern,
Volgodonsk-28, Rostov region, Russia 347340
e-mail: tn17046@yandex.ru

AbstractThe assessment of the intense deformed condition of the Rostov NPP power unit № 3 protective cover is given in work from the moment of the termination of pretension to acceptance tests.
Keywordsprotective cover, NPP, reinforcing ropes, concrete, tension, efforts
LanguageRussian
References

[1]    Medvedev V.N., Kiselev Aleksandr S., Kiselev Aleksej S., Ul'yanov A.N., Strizhov V.F., Potapov E.A. Naturnye nablyudeniya na e'tape stroitel'stva zashhitnoj obolochki e'nergobloka № 3 Rostovskoj AES [Natural supervision at a stage of construction of the Rostov NPP power unit № 3 protective cover]. Globalnaya yadernaya bezopasnost [Global nuclear safety], 2014, Vol. 3(12), ISSN 2305-414X, p. 89–99. (in Russian)

[2]    Gajrabekov I.G., Pimshin Yu.I., Gubeladze O.A., Medvedev V.N. Rezultaty vypolnennyx rabot v ramkax monitoringa zashhitnyx germetichnyx obolochek stroyashhixsya blokov Rostovskoj AES [Results of the performed works within monitoring of protective tight covers of the Rostov NPP construction blocks]. Sbornik statej po itogam nauchno-prakticheskix konferencij [The collection of articles following the results of scientific and practical conferences.]. [Release] 7, Vol. 1, Prilozhenie k zhurnalu: Izvestiya VUZov «Geodeziya i ae'rofotosjemka» [Annex to the magazine: News of higher education institutions "Geodesy and aerial photography"], M. 2014, ISSN 0536-101X, p. 29–30. (in Russian)

[3]    Medvedev V.N., Ul'yanov A.N., Strizhov V.F., Kiselev A.S. Analiz rezul'tatov predvaritel'nogo napryazheniya zashhitnoj obolochki e'nergobloka № 3 Rostovskoj AES [Analysis of results of preliminary tension of a protective cover of the Rostov NPP power unit № 3]. Bezopasnost, effektivnost i ekonomika atomnoj energetiki [Safety, efficiency and economy of nuclear power:] : tez. Devyatoj mezhdunar. nauch.-texn. konf.: plenarnye i sekcionnye doklady [theses of the Ninth international scientific and technical conference: plenary and section reports]. – MNTK[international scientific and technical conference]-2014, Moscow, May 21–23, 2014. M. 2014, (in Russian)

Papers57 - 69
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Article NamePurposes and Tasks of the NPP Equipment Diagnostic Monitoring Organization
AuthorsO.Yu. Pugacheva, V.N. Nikiforov, E.A. Abidova, P.V. Sinelshhikov, R.G. Babenko, D.V. Sirotin, 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

AbstractQuestions of maintenance of operational safety and functional suitability of the NPP power units equipment, repair terms optimization and cost reduction of its carrying out at the expense of the diagnostic monitoring organization of the NPP equipment are considered in work.
Keywordselectrodriving fittings, diagnostic passport, database
LanguageRussian
References

[1]    Pugacheva O.Yu., Podrezov N.N., Nikiforov V.N. Informacionnoe obespechenie remontnyh texnologij teplomexanicheskogo oborudovaniya AES [Information support of repair technologies of the heatmechanical equipment of the NPP]. Sovremennye tehnologii, oborudovanie, texnicheskoe osnashhenie i podgotovka personala dlya remontnyh rabot v atomnoj energetike : materialy konferencii [Modern technologies, the equipment, hardware and preparation of the personnel for repair work in nuclear power: conference materials]. Novovoronezh, 2013, p. 87–90 (in Russian)

[2]    Vasilenko S.V., Elzhov Yu.N., Nikiforov V.N., Pugacheva O.Yu. Metodicheskoe obespechenie processa diagnostiki vrashhayushhihsya elektroprivodnyh mexanizmov [Methodical ensuring process of diagnostics of the rotating electrodriving mechanisms]. Elektrotexnicheskie kompleksy i sistemy upravleniya [Electrotechnical complexes and control systems], 2014, №4, ISSN 1990-5246, p. 33–36. (in Russian)

[3]    Abidova E.A., Nosenko V.A., Chernov A.V., PugachyovaO.Yu.Identifikaciya diagnosticheskoj informacii pri ocenke tehnicheskogo sostoyaniya elektroprivodnoj armatury AES [Identification of diagnostic information at an assessment of technical condition of electrodriving fittings of the NPP]. IzvestiyaVolgogradskogogosudarstvennogotexnicheskogouniversiteta [News of the Volgograd state technical university], 2012, Vol. 6, №6, ISSN 1990-5297 p. 90 – 93.(in Russian)

[4]    Slepov M.T., Abidova E.A., Nikiforov V.N., Pugacheva O.Yu. Texnologii analiza diagnosticheskih parametrov elektroprivodnoj armatury na dejstvuyushhih energoblokah Novovoronezhskoj AES [Technologies of the analysis of diagnostic parameters of electrodriving fittings on the operating power units of the New Voronezh NPP]. Elektrotexnicheskie kompleksy i sistemyupravleniya [Electrotechnical complexes and control systems.], 2014, №4, ISSN 1990-5246, p. 16–22. (in Russian)

Papers70 - 76
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Article NameMethods and Algorithms Identification of Sources Acoustic Standing Wave in the Primary Circuit of NPP with WWER-440
AuthorsK.N. Proskuryakov*, A.I. Fedorov**, M.V. Zaporozhets*, A.A. Dyatlovsky*, V.A. Huseynov*
Address

* National Research University «MPEI», Moscow 
Krasnokazarmennaya 14, Moscow, 111250 Russia
** Novovoronezh NPP the branch of JSC Rosenergoatom Concern, Novovoronezh, Russia 396072
1 e-mail: ProskuriakovKN@mpei.ru

AbstractThe accident at the Japanese nuclear power plant Fukushima Daiichi, which occurred as a result of the earthquake in 2011, has led to an understanding of the need for more stringent requirements imposed on the providing of seismic stability and to the justification of the possibility of extending the service life of nuclear power plants. Under these conditions, it becomes more urgent realizing the benefits and encouraging the further development of processes and research of vibration -acoustic resonances in nuclear power plants that have been worked out in the NRU "MPEI" in recent decades for safety, seismic stability and competitiveness of domestic nuclear power plants A number of published results that worked out for the first time in the world in the NRU "MPEI" and up to the moment hitherto unparalleled are included in the global scientific database World Wide Science. org as a key global research results. The paper presents the developed and verified methods and algorithms for calculating the frequency of acoustic standing waves and identifying the sources of their occurrence. The main current direction of research and design works, in which the results could be applied are indicated.
Keywordsstanding waves, vibration, vibro-acoustic response, NPP
LanguageRussian
References

[1]    Proskuryakov K.N. Calculating Method of Coolant Resonant Frequencies Oscillation in Normal and Emergency Operating of NPP with WWER. Kernenergie, Vol. 3, 1983, ISSN 1431-5254, p. 102–104. (in English)

[2]    Proskuryakov K.N., Stoyanov S.P., Nidcballa G. Teoreticheskoe opredelenie chastot sobstvennyx kolebanij teplonositelya v pervom konture AES [Theoretical determination of frequencies of own fluctuations of the heat carrier in the first contour of the NPP]. Moskovskij energeticheskij institut [MPEI], Vol. 407(1979),  ISSN 1993-6982, p. 87–93. (in Russian)

[3]    Mullens A. etc. Understanding Pressure Dynamic Phenomena in PWRrs for Surveillance and Diagnostic Applications, Proceeding of 5th Power Plant Dynamics, Controls and Testing / A. Mullens J. Thie. // Symposium University of Tennessee, Knoxville, March, 1983. (in English)

[4]    Grunwald G. etc. Investigation of Pressure Oscillation in PWR Primary Circuit» / G. Grunwald, K. Junghans, P. Liewers. Progress in Nuclear Energy, 15(1985),  ISSN 0149-1970, p. 651–659. (in English)

[5]    Nagy I. etc. Theoretical Investigation of the Low-Frequence Pressure Fluctuation in PWRrs / I. Nagy, T. Katona. Progress in Nuclear Energy ,15(1985),  ISSN 0149-1970,  p. 671. (in English)

[6]    Proskuryakov K.N. Teplogidravlicheskoe vozbuzhdenie kolebanij teplonositelya vo vnutrikorpusnyx ustrojstvax YaEU [Heathydraulic initiation of fluctuations of the heat carrier in the YaEU intra case devices]. М.: MEI [MPEI], 1984, 67 p. (in Russian)

[7]   Runkel J. etc. Results of Noise Analysis in the WWER 440 – Type Nuclear Power Plant Dukovany / J. Runkel, D. Stegemann, J. Fiedler , P. Hrosso, S. Figedy , J. Sad Пек, J. Hulfn // Proceedings of SMORN VII, Avignon, France, June 19–23, 1995, NEA OECD Vol. 1, p. 78–86. (in English)

[8]    Slepov M.T. Razrabotka metodov i interpretaciya dannyx primenitelno k sistemam shumovoj diagnostiki reaktornyx ustanovok Novovoronezhskoj AES [Development of methods and interpretation of data in relation to systems of noise diagnostics of reactor installations of the New Voronezh NPP] : avtoreferat dissertacii na soiskanie uchenoj stepeni kandidata texnicheskix nauk [thesis abstract of PhD in Technical Sciences]. – Obninsk, 1999. (in Russian)

[9]    Xajretdinov V.U., Tarxanov V.V., Abramov V.V. Eksperimentalno-raschetnoe obosnovanie vibroprochnosti reaktornogo oborudovaniya AES «Dukovany» pri ekspluatacii VVER-440 na povyshennoj moshhnosti [Experimental and settlement justification of vibration strength of the reactor equipment of the NPP of "Dukovana" at operation of WWER-440 at the increased power]. Materialy V Mezhdunarodnoj nauchno-texnicheskoj konferencii «Obespechenie bezopasnosti AES s VVER», 29 maya – 1 iyunya 2007 [Materials of the V International scientific and technical conference "Safety of the NPP with WWER", on May 29 – on June 1, 2007]. Podolsk, 2007. (in Russian)

[10]  Zhukovskij N.E. O gidravlicheskom udare v vodoprovodnyh trubah [About a water hammer in water pipes [Text] / N. E. Zhukovsky]. М., Leningrad. Pub. Gosudarstvennoe izdatelstvo texniko-teoreticheskoj literatury [State publishing house of technical and theoretical literature], 1949, 108 p. (in Russian)

[11]  Proskuryakov K.N. Early Boiling Detection Method OF Pre-or Post-Accident Situation on WWER and RBMK. SMORN VII, Avignon, France, 19-23 June 1995. NEA OECD Vol. 1, p. 426–434. (in English)

Papers77 - 84
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Article NameAutomated System of Vibration Monitoring of SNPP Equipment
AuthorsS.V Vasilenko, Yu.N. Elzhov, O.Yu. Pugacheva
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

AbstractExpansion of technical monitoring of nuclear power plant equipment allows to optimize repair time and reduce costs for its holding, increases the overall operational safety of reactor facilities. Works in this direction are conducting already out for a long time in the SRI NPE VETI NRNU MEPhI. In the paper provides a brief description of the automated system of vibration monitoring, developed by Scientific Research Institute "Nuclear Power Engineering" and implemented at the Unit №2of Smolensk NPP.
Keywordspump, vibration, sensor, system
LanguageRussian
References

[1] GOST ISO 10816-3-2002 [State Standart ISO 10816-3-2002]. Kontrol' sostojanija mashin po rezul'tatam izmerenijj vibracii na nevrashhajushhikhsja chastjakh [Control of a machine condition by results of measurements on unrotative parts vibration.]. Chast' 3 [Part 3]. Promyshlennye mashiny nominal'nojj moshhnost'ju bolee 15 kVt i nominal'nojj skorost'ju ot 120 do 15000 min-1 [Industrial machines with a rated power more than 15 kW and with a rated speed from 120 to 15000 min-1]. M. Pub. “Standartinform-1” [Standartinform]. 2007, 11 p. (in Russian)

[2] Fedosov V.P.  Tsifrovaja obrabotka zvukovykh i vibrosignalov v LabVIEW [Digital processing sound and vibrosignals in LabVIEW]. M. Pub. “DMK-Press” [DMK-Press], 2010, ISBN 978-5-94074-600-3, 1296 p. (in Russian)

[3] Vasilenko S.V., Elzhov Yu.N., Nikiforov V.N., Pugacheva O.Yu. Metodicheskoe obespechenie processa diagnostiki vrashhayushhixsya e'lektroprivodnyx mexanizmov [Methodological support of process of diagnostics of the rotating electrodriving mechanisms] E'lektrotexnicheskie kompleksy i sistemy upravleniya [Electrotechnical complexes and control systems], 2014, №4, ISSN 1990-5246, p. 33–36. (in Russian)

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Article NamePersonnel Qualification Requirements for Diagnostic Monitoring at the Power Plant Engineering Enterprises
AuthorsN.N. Podrezov, P.A. Gunin, A.S. Ilyasova
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@mephi.ru

AbstractQuestions of preparation of the engineering personnel at competence approach and presence of the personnel for training are considered. Professional standards are urged to eliminate a gap between education and requirements of the employer.
Keywordstechnical competence, information technology, competence approach to learning, instructor, professional standard
LanguageRussian
References

[1]    Batrova O.F., Blinov V.I.,  Voloshina I.A. etc. Nacionalnaya ramka kvalifikacij Rossijskoj Federacii [National frame of qualifications of the Russian Federation]: recomendatsii [перевод]. M. Pub. Federalnyj  institut razvitiya  obrazovaniya [recommendations], 2008, ISBN 978-5-85630-021-4, 14 p. (in Russian)

[2]    Proekt otraslevoj ramki kvalifikacii atomnoj energetiki na osnove proekta Nacionalnoj ramki kvalifikacii Rossii [The project of a branch frame of qualification of nuclear power on the basis of the project of the National frame of qualification of Russia]. Available at: http://www.rosminzdrav.ru  (in Russian)

[3]    Podrezov N.N., Nikiforov V.N., Pugacheva O.Yu., Krupskij A.G., Povarov V.P.  Diagnosticheskoe soprovozhdenie remontnyx kompanij AES [Diagnostic support of the NPPs repair companies]. Sovremennye texnologii, oborudovanie, texnicheskoe osnashhenie i podgotovka personala dlya remontnyx rabot v atomnoj energetike: materialy konferencii [Modern technologies, the equipment, hardware and preparation of the personnel for repair work in nuclear power: conference materials]. Novovoronezh, 2013. (in Russian)

[4]    Podrezov N.N., Nikiforov V.N., Pugacheva O.Yu., Krupskij A.G., Povarov V.P. еtc.  Informacionnoe obespechenie remontnyx texnologij teplomexanicheskogo oborudovaniya AES [Information support of repair technologies of the heatmechanical equipment of the NPP]. Sovremennye texnologii, oborudovanie, texnicheskoe osnashhenie i podgotovka personala dlya remontnyx rabot v atomnoj energetike: materialy konferencii [Modern technologies, the equipment, hardware and preparation of the personnel for repair work in nuclear power: conference materials]. Novovoronezh, 2013. (in Russian)

[5]    Podrezov N.N. Uchebnaya programma stazhirovki programmy povysheniya kvalifikacii «Kultura bezopasnosti pri ekspluatacii  AES» [The training program of training of the program of professional development "Culture of safety at operation of the NPP"] / Uch. izd. VITI NIYaU MIFI [VITI NRNU MEPhI educational publishing house]. Volgodonsk. Pub. VITI NIYaU MIFI [VITI NRNU MEPhI], 2013. (in Russian)

[6]    GOST R ISO 18436-3—2011. Kontrol sostoyaniya i diagnostika mashin. Trebovaniya k kvalifikacii i ocenki personala [State Standarts P ISO 18436-3 — 2011. Control of a state and diagnostics of cars. Requirements to qualification and performance appraisal.. Chast 3 [Part 3]. Trebovaniya k uchebnym organizaciyam i processu obucheniya [Requirements to the educational organizations and process of training]. M. Pub. Standartinform [Standartinform], 2012, 16 p. (in Russian)

[7]    Doklad Negosudarstvennogo obrazovatel'nogo uchrezhdeniya dopolnitel'nogo professionalnogo obrazovaniya «Central'nyj institut povysheniya kvalifikacii Goskorporacii «Rosatom» [Report of Non-state educational institution of additional professional education "Central institute of professional development of Rosatom State corporation]. Available at: http://www.scicet.ru  (in Russian)

Papers90 - 94
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Article NameModernization of Shunting Reactor Firefighting System using Microprocessor Equipment on the Open Switchgear 500 Kv of Rostov NPP
AuthorsS.A. Baran*, E.S. Belyaeva**
Address

Volgodonsk Engineering Technical Institute the Branch of National Research Nuclear University «MEPhI»,
74/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
* e-mail: bastr@rambler.ru, ** e-mail: katis93@yandex.ru

AbstractThe article considers the technical re-equipment automation control system of fire protection of shunt reactor ROMBSM-60000/500 U1 located on the 500 kV line Rostov NPP – Budennovsk. Analysis of the system is carried out with consideration of its upper and lower levels. The special attention is given to the lower level, represented by the microprocessor based device – PPKP-01F. The task for delivery of a signal of controler malfunction and the connected systems is made for the microprocessor controler PPKP-01F.
Keywordsmicroprocessor relays, automatic fire extinguishing system, program technical means, logic controller, software, working program
LanguageRussian
References

[1]    Gurevich V.I. Mikroprocessornoe rele zashhity. Ustrojstvo, problemy, perspektivy [Microprocessor relay of protection. Device, problems, prospects]. M. Pub. Infra-Inzheneriya [Infra-Engineering], 2011, ISBN 978-5-9729-0043-5, 336 p. (in Russian)

[2]    STO 56947007-29.120.70.99-2011 – Metodicheskie ukazaniya po vyboru parametrov srabatyvaniya ustrojstva RZA podstancionnogo oborudovaniya proizvodstva OOO NPP «EKRA» [Methodical instructions at the choice of parameters of operation of the RZA device of the substation equipment of production of JSC NPP EKRA]. (in Russian)

[3]    Baburov V.P., Baburin V.V., Fomin V.I., Smirnov V.I. Proizvodstvennaya i pozharnaya avtomatika [Production and fire automatic equipment.]. Chast. 2 [Part 2]. Avtomaticheskie ustanovki pozharotusheniya [Automatic installations of fire extinguishing]. Uchebnik [course book]. M. Pub. Akademiya GPS MChS Rossii [State Fire Academy of Emercom of Russia], 2007, ISBN 5-9659-0047-3, 298 p. (in Russian)

Papers95 - 101
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Article NamePrinciples of the Power Right as Ideological and Organizational System Basis of Its Functioning and Development (Types and Short Analysis of the Contents)
AuthorsL.B. Prudnikova
Address

Volgodonsk institute of economics, management and law branch of Southern Federal University, Volgodonsk, 47 Mira Av., Rostov region, Russia 347383
e-mail: lori_bori@bk.ru

AbstractIn work the short analysis of a specific variety and the maintenance of the basic bases of the power right allowing to estimate its branch sovereignty is submitted.
Keywordspower right, branch of the right, principles of branch, all-legal principles
LanguageRussian
References

[1]    Konstituciya Rossijskoj Federacii ot 12 dekabrya 1993 goda [The constitution of the Russian Federation of December 12, 1993]. Sobranie zakonodatelstva RF [Russian Federation Code]. 2014, №15, Statya 1691[clause]. (in Russian)

[2]    Federalnyj zakon ot 10.01.2002 goda №7 – Federalnyj zakon «Ob ohrane okruzhayushhej sredy» [The federal law of 10.01.2002 No. 7 – Federal Law "About Environmental Protection"]. Sobranie zakonodatelstva [Russian Federation Code]. 2002, №2, Statya 133. [clause]. (in Russian)

[3]    Rasporyazhenie Pravitelstva RF ot 13.11.2009 goda №1715-r «Ob energeticheskoj strategii Rossii na period do 2030 goda» [The order of the Government of the Russian Federation of 13.11.2009 No. 1715-r "About Power strategy of Russia for the period till 2030"]. Sobranie zakonodatelstva RF [Russian Federation Code]. 2009, №48, Statya 5836 [clause]. (in Russian)

[4]    Moiseev E.G. Mezhdunarodnoe energeticheskoe pravo [International power law]. Mezhdunarodnoe publichnoe pravo [International public law]: uchebnik, avtorskij kollektiv [course book, group of authors]: L.P. Anufrieva, K.A. Bekyashev, E.G. Moiseev, V.V. Ustinov, etc.; otvetstvennyj redaktor [editor-in-chief] K.A. Bekyashev, 5-e izdanie, pererabotannoe i dopolnennoe [The 5th edition processed and added]. M. Pub. Prospekt [Prospect], 2009, p. 939. (in Russian)

[5]    Zhukova I.S. O mezhdunarodnom energeticheskom prave kak otrasli mezhdunarodnogo prava [About the international power law as branches of international law]. Vestnik Orenburgskogo gosudarstvennogo universiteta [Bulletin of Orenburg State University]. 2010, №2(108), ISSN 1814-6457, p. 49. (in Russian)

[6]    Yakovlev V.F. Pravovoe gosudarstvo: voprosy formirovaniya [Constitutional state: questions of formation]. M. Pub. Statut [Statute], 2012, ISBN 978-5-8354-0828-3, 488 p. (in Russian)

Papers102 - 106
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Article NameThe Concept and Theoretical Basis for the Indemnification Caused by the Sources of the Increased Danger– Nuclear Energy Objects
AuthorsN.M. Kopylkova*, O.A.Makeeva**
Address

Volgodonsk institute of economics, management and law branch  of Southern Federal University, Volgodonsk, 47 Mira Av., Rostov region, Russia 347383
* e-mail: kafedra_prava_08@mail.ru
** e-mail:  maklex2009@yandex.ru

AbstractThe work is devoted to the issues connected with indemnification caused by the sources of the increased danger – nuclear power objects and the analysis of the regulatory system.
Keywordsharm, indemnification, source of the increased danger
LanguageRussian
References

[1]    Deklaraciya OON o predotvrashhenii yadernoj katastrofy ot 9 dekabrya 1981 g. [The declaration of the UN on prevention of nuclear catastrophe of December 9, 1981]. Available at: http://www.un.org/ru/documents/decl_conv/declarations/nuc_catastrophe_prevention.shtml (in Russian)

[2]    Venskaya Konvenciya o grazhdanskoj otvetstvennosti za yadernyj ushherb ot 21 maya 1963 g. [The Vienna Convention on a civil liability for nuclear damage of May 21, 1963.]. Byulleten mezhdunarodnyh dogovorov [Bulletin of international treaties.]. (in Russian)

[3]    Venskaya Konvenciya o yadernoj bezopasnosti ot 17 iyunya 1994 g. [The Vienna Convention on nuclear safety of June 17, 1994.]. Byulleten mezhdunarodnyh dogovorov [Bulletin of international treaties.], 2007, №9. (in Russian)

[4]    Federalnyj zakon ot 21 noyabrya 1995 g. №170-FZ «Ob ispolzovanii atomnoj energii» [The federal law of November 21, 1995 No. 170-FL "About use of atomic energy"]. Sobranie zakonodatelstva  RF [Russian Federation Code], 1995, №48, Statya 4552 [clause]. (in Russian)

[5]    Federalnyj zakon ot  1  dekabrya 2007 g. № 317-FZ «O gosudarstvennoj korporacii po atomnoj energii «Rosatom» [The federal law of December 1, 2007 No. 317-FL "About the state corporation on nuclear energy "Rosatom"]. Sobranie zakonodatelstva RF [Russian Federation Code], 2007, №49, Statya 6078 [clause]. (in Russian)

[6]    Federalnyj zakon ot 27 iyulya 2010 g. №225-FZ «Ob obyazatelnom straxovanii grazhdanskoj otvetstvennosti vladelca opasnogo objekta za prichinenie vreda v rezultate avarii na opasnom obekte» [The federal law of July 27, 2010 No. 225-FL"About obligatory insurance of a civil liability of the owner of dangerous object for infliction of harm as a result of accident on dangerous object"]. Sobranie zakonodatelstva RF [Russian Federation Code], 2010, №31, Statya 4194 [clause]. (in Russian)

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