2019-1(30)

Operation of nuclear industry facilities

Article Name10.26583/GNS-2019-01-09
Compare the Result of Uncertainty Analysis in the Physical Calculations of WWER Cells in the Daily Maneuvering Schedule by GETERA and WIMS Programs
AuthorsRahman S.K. Anisur1, M.A. Uvakin2
Address

National Research Nuclear University (MEPhI), City-Moscow, Kashira Highway, House-31, 115409

1ORCID iD: 0000-0001-7803-8234

Wos Researher ID:  D-3381-2019

e-mail: ranisur01@gmail.com

2ORCID iD: 0000-0002-4917-1770

Wos Researher ID: E-1027-2019

e-mail: uvakin_ma@grpress.podolsk.ru

AbstractThis work is focused on solving real problems of a WWER reactor. The problem of simulating a fuel rod and a fuel rod with gadolinium in WWER is solved, exactly, it is analyzed for how many design layers is necessary in the fuel rod and fuel with gadolinium rod. The work contains the dependence of the deviation of the multiplication factor of neutrons from burnout. To solve these problems, the GETERA-93 and WIMS programs are used. SIMPLE FORTRAN was used for data preparation.
KeywordsFuel rod, burn up, fuel zone, fuel rod with gadolinium. GETERA-93, SIMPLE FORTRAN.
LanguageRussian
References
  1. Shotikov A.V., Savchenko V.E., Vigranenko Yu.M., Khrustalev V.A. Puti sovershenstvovaniya vodno-khimicheskogorezhimavtorogokontura AES s VVER-1000 [Ways to Improve Water-Chemical Mode of the NPP Second Circuit with WWER-1000] [News of  Tomsk Polytechnic University]. 2008. V. 312. № 2. P. 39-43 (in Russian).
  2. Averyanova S.P., Dubov A.A., Kosourov K.B., Filimonov P.E. Temperaturnoye Rregulirovaniye i manevrentnost  VVER-1000 [Temperature Regulation and Maneuverability of WWER-1000] [ Atomic Energy]. 2002. V.109, № 4. Р. 246-251(in Russian).
  3. Yerak D.Yu., Kochkin V.N., Zhurko D.A., Panfyorov P.P. Modernizatsiya program obraztsovsvideteley VVER-1000 [Modernization of Samples Witnesses Programs WWER – 1000] [History of Science and Technology]. 2013. № 8. P. 142-152 (in Russian).
  4. Shkarovsky A.N., Aksenov V.I., Serdun N.P. Analizfizicheskikh sostoyaniy reaktora VVER-1000 iupravleniyeavariynymisituatsiyami [Analysis of Physical States of
    WWER-1000 Reactor and Control of  Emergency Situation] [Proceedings of Higher Educational Institutions]. [Nuclear power]. 2005. № 3. P. 60-68 (in Russian).
  5. Getya S.I., Krapivtsev V.G., Markov P.V., Solonin V.I. [and others] Modelirovaniye temperaturnykh neunifikatorov v elemente toplivno-elementnogo topliva topliva-VVER-1000 [Modeling Temperature Nonuniformities in a Fuel-Element Bundle of  WWER-1000 Fuel Assembly] [Atomic Energy]. 2013. V.114.№ 1. Р. 69-72 (in Russian).
  6. Melikhov V.I., Melikhov O.I., Yakush S.E. [and others] Issledovaniye razresheniya borona v reaktore VVER-1000[A Study of Boron Dilution in WWER-1000 Reactor] [Thermal Engineering]. 2002. V 49. № 5. p. 372-376.
  7. Filimonov P.E., Averyanova S.P., Dubov A.A., Kosourov K.B.,
    Semchenkov Yu.M.  Rabota VVER-1200/1300 v sutochnom grafike nagruzki [WWER-1200/1300 Operation in the Daily Load Schedule] [Atomic Energy]. 2012. V.113. Issue 5. Р. 247- 252 (in Russian).
  8. Filimonov P.E., Averyanova S.P., Dubov A.A., Kosourov K.B., Semchenkov Yu.M. Temperaturnoyeregulirovaniye i manevrennost' VVER-1000 [Temperature Regulation and Maneuverability of the WWER-1000] [Atomic Energy]. 2010.V.109. issue.6.Р.198-202 (in Russian).
  9. Malyshev A.B., Efanov A.D., Kalyakin S.G. Eksperimentalnyye issledovaniya sistemy dlya passivnogo napolneniya reaktora VVER-1000 [Experimental Investigations of the System for Passive Flooding of WWER-1000 Reactor]. [Thermal Engineering]. 2002. V. 49. № 12. Р. 1032-1037 (in Russian).
  10. Vokhmyanina N.S., Zlobin D.A., Kuznetsov V.I., Lagovsky V.B. [and others] Metod offset moshchnost noyfazovoy diagrammy dlya upravleniya energovydeleniyem reaktora [Offset-Power Phase Diagram Method for Control of Reactor Energy Release] [Atomic Energy]. 2016. V.121. Issue 3. Р.123-127 (in Russian).
Papers90 - 100
URL ArticleURL Article
 Open Article