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Introduction. Awareness-building activities contributing to public acceptance of nuclear power engineering require appropriate informational support, i.e. they require at least around one hundred books, journal articles, films, and conference proceedings. Furthermore, users will need some search engine to browse this data bank.
Materials and Methods. The most obvious solution for this problem will be the use of widespread databases with embedded mechanisms of data storage and search. Moreover, the information should be organized according to some criteria, for example, the age of users ranging from the elementary-school age and through the retirement age with the focus on the young people (secondary school students and college students), adult population, and professional communities, i.e. journalists, teachers, medical workers, and local authority officials, etc.
Results. By now RFNC-VNIITF specialists have created Access-2003 database with these materials for different population categories. This data format allows for the search engine providing access to a desired source papers within 1…2 steps. As a result, the user can easily search for the information needed by the title of a paper or its subtitle, authors, and key words.
Discussion. Access-2003 features allow a user to make amendments in the database, i.e. add or remove source papers or add/remove or edit key words, etc. As a result, this will be a customized database meeting user’s objectives and preferences.
Conclusion. This work can be helpful to those involved in awareness-building activities and advocating further development of nuclear power engineering.
STATE ATOMIC ENERGY CORPORATION, AWARENESS-BUILDING ACTIVITIES, NUCLEAR POWER ENGINEERING, INFORMATION SUPPORT, ELECTRONIC ARCHIVE
1. Gorin N.V., Aleksandrova M.V., Tokar L.F., Golovikhina O.S. (2017), Informacionnoe obespechenie razjasnitel’noj raboty s naseleniem po voprosam radiacionnoj bezopasnosti [Informational support to public radiation-safety awareness building]. Biosfernaja sovmestimost’: chelovek, region, tehnologii. 2(18), 57–66. (In Russian).
2. Razumova I.K., Kuznetsov A.Yu., Kirillova O.V. (2017), Informacionnoe obespechenie rossijskih universitetov po osnovnym otraslyam nauki [Information support of russian universities in core research areas]. Integratsiya obrazovaniya. 21(3), 505–521. DOI: 10.15507/1991-9468.088.021.201703.505-521. (In Russian).
3. Lushnikova O.L. (2016), Social’nyj zakaz shkole [Social mandate for high school], Integratsiya obrazovaniya. 4(20), 542–556. DOI:10.15507/1991-9468.085.020.201604.542-556. (In Russian).
4. Kruglov А.К. (1995). Kak sozdavalas’ atomnaja promyshlennost’ SSSR [Creating the nuclear industry of the USSR], M.: CNIIatominform Publ. (In Russian).
5. Evstratov E.V. Agapov A.M., Laverov N.P. (2012), Problemy jadernogo nasledija i puti ih reshenija [Nuclear legacy problems and ways of their handling], M.: EHnergopromanalitika Publ. (In Russian).
6. Evstratov E.V. Agapov A.M., Laverov N.P. (2013), Problemy jadernogo nasledija i puti ih reshenija [Nuclear legacy problems and ways of their handling], M.: Energopromanalitika Publ. (In Russian).
7. Bolshov N.P., Laverov, I.I., Linge I.I. (2015), Problemy jadernogo nasledija i puti ih reshenija. Vyvod iz jekspluatacii. [Nuclear legacy problems and ways of their handling. Decommissioning], M.: Energopromanalitika Publ. (In Russian).
8. Abramov A.A., Kryukov O.V., I Linge I.I. (eds). (2015), Likvidacija jadernogo nasledija: 2008-2015 gody. [Elimination of nuclear legacy: 2008–2015], M.: Energopromanalitika Publ. (In Russian).
9. Puchkov V.A., Bolshov L.A. (2016), Rossijskij nacional’nyj doklad 30 let Chernobyl’skoj avarii. Itogi i perspektivy preodolenija ee posledstvij v Rossii 1986-2016. [Russian national report “30 year of Chernobyl accident. Overall results and prospects of responding to its consequences in Russia, 1986–2016”], M.: MCHS Publ. (In Russian).
10. Bolshov L.A., Arutyunyan R.V. (2013), Avarija na AJeS «Fukusima-1»: opyt reagirovanija i uroki [Accident on “Fukusima-1” atomic power plant: responding experience and lessons learned], M.: Nauka Publ. (In Russian).
11. Fond «Infosfera». – NIA Priroda (2009), Atlas sovremennyh i prognoznyh aspektov posledstvij avarii na Chernobyl’skoj AJeS na postradavshih territorijah Rossii i Belorussii [Atlas of present-day and anticipated aspects of consequences in Chernobyl accident stricken areas of Russia and Belarus]. 1Moskva-Minsk, Fond “Infosfera” Publ. – NIA Priroda (In Russian).
12. Guskova A.K. (2007), Osnovnye itogi issledovanij mediko-biologicheskih posledstvij avarii 1957 goda. Uroki na budushhee [Major results of 1957 accident biomedical consequences study. Lessons for the future]. Nauchno-prakticheskij zhurnal FGUP “PO “Mayak” “Voprosy radiacionnoj bezopasnosti”. 13–19. (In Russian).
13. Aleksakhin R.M. (2007), Sel’skohozjajstvennaja radiojekologija: jetapy jevoljucii i nekotorye itogi [Agricultural radioecology: evolution stages and certain results] Nauchno-prakticheskij zhurnal FGUP “PO “Mayak” «Voprosy radiacionnoj bezopasnostii». 4–12. (in Russian).
14. Hasin A.L. (2015), Simvoly Rosatoma [Symbols of Rosatom], M.: Kej Grup Publ. (In Russian).
15. Yablokov A.V. (2011), Za i protiv atomnoj jenergetiki (spor s atomshhikami) [Pros and cons as for nuclear power engineering (dispute with nuclear experts and scientists)], M. Media-PRESS Publ. (In Russian).
16. Meadows D., Randers J. (2007), Predely rosta. 30 let spustya [Limits to Growth. The 30-Year Update], M.: Akademkniga Publ. (In Russian).
17. Panchenko S.V., Linge I.I., Sakharov K.B. (2015), Radiologicheskaya obstanovka v regionakh raspolozeniya predpriyatii Rosatoma [Radiological situation in regions hosting Rosatom facilities], M.: SAM poligrafist Publ. (In Russian).
18. Vasiliev A.P. (2017), Jadernye vzryvnye tehnologii: jeksperimenty i promyshlennye primenenija [Nuclear Fast Technologies: Experiments and Creating], Snezhinsk: RFYAC-VNIIT Publ. (In Russian).
19. Logachev V.A. (ed). (2005), Sovremennaja radiologicheskaja obstanovka v mestah provedenija mirnyh jadernyh vzryvov na territorii Rossijskoj Federacii [Present-day radiological situation at peaceful nuclear explosion sites in Russian Federation], Moskva. IzdAT Publ. (In Russian).
20. Vasiliev A.G., Boev A.M., Gileva E.A. (1997), Jekologo-geneticheskij analiz otdalennyh posledstvij Tockogo jadernogo vzryva v Orenburgskoj oblasti v 1954 godu. (Fakty, modeli, gipotezy) [Ecological and genetic analysis of remote effects from the Totsk nuclear explosion in the Orenburg Region in 1954. (Facts, models, hypotheses)], Ekaterinburg: Ekaterinburg Publ. (In Russian).
21. Sivintsev YU.V., Vakulovsky S.M., Vasiliev A.P. (2005), Tehnogennye radionuklidy v morjah, omyvajushhih Rossiju «Belaja kniga-2000» [Technogenic radionuclides in seas washing Russia «White Book -2000»], M.: IzdAT Publ. (In Russian).
22. Patrakov E.V., Razikova N.I., Popov V.D., Shisterova A.A. (2017), Organizacionnye i psihologicheskie aspekty opredelenija kategorij naselenija dlja provedenija massovoj informacionno-raz#jasnitel’noj raboty po obespecheniju radiacionnoj bezopasnosti [Organizational and psychological aspects in identifying population categories for public radiation-safety awareness building]. Biosfernaya sovmestimost’: chelovek, region, tekhnologii. 2 (18), 45–56. (In Russian).
23. Adamov E.O. (2001), Belaja kniga jadernoj jenergetiki [White Book of Nuclear energy], M.: GUP NIKIEHT Publ. (In Russian).