EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 280 (2021) E3S Web Conf., 280 (2021) 09013 References
Open Access
Issue
E3S Web Conf.
Volume 280, 2021
Second International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF 2021)
Article Number 09013
Number of page(s) 15
Section Innovative Approaches for Solving Environmental Issues
DOI https://doi.org/10.1051/e3sconf/202128009013
Published online 30 June 2021
  1. M.H. Shakil, Z.H. Munim, M. Tasnia, S. Sarowar, COVID-19 and the environment: A critical review and research agenda. Sci Total Environ. 745, 141022 (2020). doi:10.1016/j.scitotenv.2020.141022 [CrossRef] [PubMed] [Google Scholar]
  2. J. Tao, Y. Ma, C. Luo, J. Huang, T. Zhang, F. Yin, Summary of the COVID-19 epidemic and estimating the effects of emergency responses in China. Scientific Reports, 11(1), 717 (2021). [CrossRef] [PubMed] [Google Scholar]
  3. S. Semerikov, S. Chukharev, S. Sakhno, A. Striuk, V. Osadchyi, V. Solovieva, T. Vakaliuk, P. Nechypurenko, O. Bondarenko, H. Danylchuk, Our sustainable coronavirus future. E3S Web Conf. 166, 00001 (2020). [Google Scholar]
  4. N. Husak (ed.), Psychosocial support in emergency situations: a resilience approach (NaUKMA, Kyiv, 2017) [Google Scholar]
  5. The impact of COVID-19 pandemic on staff mental health: problems and support technologies, in Abstracts of the ХІV International scientific-practical online conference on organizational and economic psychology, Kyiv, Bila Tserkva, 21 May, 2020 [Google Scholar]
  6. Energoatom Non-Financial Report 2016 (2017), https://cutt.ly/0hwnMP3. Accessed 23 Dec 2020 [Google Scholar]
  7. Collection of developing projects developed within the framework of the Program of preparation of perspective personnel reserve of SE “Atomremontservice”, Slavutych, 2019. [Google Scholar]
  8. L. Shkitsa, T. Yatsyshyn, M. Lyakh, O. Sydorenko, Innovative approaches to the formation of environmental safety at the objects of oil and gas production. IOP Conf. Ser.: Mater. Sci. Eng. 749, 012009 (2020). doi:10.1088/1757-899X/749/1/012009 [Google Scholar]
  9. Y. Balashevska, Y. Kyrylenko, O. Pecherytsia, I. Shevchenko, V. Bogorad, Harmonization of Methodological Approaches and Real Time Radiological Consequence Forecasting Tools. Nucl. Radiat. Saf. 2(86), 20–26 (2020). doi:10.32918/nrs.2020.2(86).03 [Google Scholar]
  10. T. Yatsyshyn, L. Shkitsa, O. Popov, M. Liakh, Development of mathematical models of gas leakage and its propagation in atmospheric air at an emergency gas well gushing. Eastern-European Journal of Enterprise Technologies 5/10(101), (49–59) 2019. doi:10.15587/1729-4061.2019.179097 [Google Scholar]
  11. M.L. Myrontsov, Electrometry effective inverse problem solving method, in Proceedings of the 19th International Conference Geoinformatics – Theoretical and Applied Aspects 2020, vol. 2020, pp. 1–5. (2020). doi:10.3997/2214-4609.2020geo090 [Google Scholar]
  12. N. Pobihun, Y. Korobeinykova, O. Pobihun, I. Iuras, Ecological and monitoring studies of oil production territories and possibility of their use in recreation, in Proceedings of the XIII International Scientific Conference “Monitoring of Geological Processes and Ecological Condition of the Environment”, vol. 2019, pp. 1–5. (2019). doi:10.3997/2214-4609.201903183 [Google Scholar]
  13. A. Zaporozhets, Overview of Quadrocopters for Energy and Ecological Monitoring, in Studies in Systems, Decision and Control, vol. 298, ed. by V. Babak, V. Isaienko, A. Zaporozhets (Springer, Cham, 2020), pp. 15–36. doi:10.1007/978-3-030-48583-2_2 [Google Scholar]
  14. A.O. Zaporozhets, V.V. Khaidurov, Mathematical Models of Inverse Problems for Finding the Main Characteristics of Air Pollution Sources. Water, Air, Soil Pollut. 231, 563 (2020). doi:10.1007/s11270-020-04933-z [Google Scholar]
  15. O. Mandryk, N. Moskalchuk L. Arkhypova, M. Prykhodk, O. Pobigun. Prospects of environmentally safe use of renewable energy sources in the sustainable tourism development of the Carpathian region of Ukraine. E3S Web Conf. 166, 04005 (2020). doi:10.1051/e3sconf/202016604005 [Google Scholar]
  16. M.L. Myrontsov, Multi-Probe Hardware for Electrometry of Oil and Gas Wells, Science and innovation 14(3), 51–56 (2018). doi:15407/scine14.03.051 [Google Scholar]
  17. O.M. Mandryk, N.R. Moskalchuk, L.M. Arkhypova, M.M. Pryhodko, O.V. Pobigun, Research quantitative indicators of the potential of solar energy in the Carpathian region of Ukraine. IOP Conf. Ser.: Mater. Sci. Eng. 749, 012033 (2020). doi:10.1088/1757-899X/749/1/012033 [Google Scholar]
  18. A. Zaporozhets, V. Babak, V. Isaienko, K. Babikova, Analysis of the Air Pollution Monitoring System in Ukraine, in Studies in Systems, Decision and Control, vol. 298, ed. by V. Babak, V. Isaienko, A. Zaporozhets (Springer, Cham, 2020), pp. 85–110. doi:10.1007/978-3-030-48583-2_6 [Google Scholar]
  19. A.O. Zaporozhets, Methods and Means for the Control of the Fuel Combustion, in Studies in Systems, Decision and Control Systems, vol. 287 (Springer, Cham, 2020), pp. 1–33. doi:10.1007/978-3-030-46299-4_1 [Google Scholar]
  20. L. Skitsa, T. Yatsyshyn, M. Liakh, O. Sydorenko, Ways to improve safety of a pumping-circulatory system of a drilling rig. Mining of Mineral Deposits 12(3), 71–79 (2018). doi:10.15407/mining12.03.071 [Google Scholar]
  21. L. Shkitsa, T. Yatsyshyn, M. Lyakh, O. Sydorenko, Means of atmospheric air pollution reduction during drilling wells. IOP Conf. Ser.: Mater. Sci. Eng. 144, 012009 (2016). doi:10.1088/1757-899X/144/1/012009 [Google Scholar]
  22. O. Akimov, M. Karpa, C.V. Dubych, D. Zayats, N. Movmyga, N. Tverdokhliebova, Determination of requirements for protection of radio-electronic means of security management of particularly important state energy facilities from the destructive impact of electromagnetic, International Journal of Emerging Trends in Engineering Research, 8(9), 6214–6219 (2020) [Google Scholar]
  23. O. Popov, A. Iatsyshyn, V. Kovach, V. Artemchuk, I. Kameneva, D. Taraduda, V. Sobyna, D. Sokolov, M. Dement, T. Yatsyshyn, Risk assessment for the population of Kyiv, Ukraine as a result of atmospheric air pollution. J. Health Pollut. 10, 200303 (2020). doi:10.5696/2156-9614-10.25.200303 [CrossRef] [PubMed] [Google Scholar]
  24. M.L. Myrontsov, The method to solve the inverse problem of lateral logging sounding and lateral logging, in Proceedings of the XIII International Scientific Conference “Monitoring of Geological Processes and Ecological Condition of the Environment”, vol. 2019, pp. 1–5. (2019). doi:10.3997/2214-4609.201903244 [Google Scholar]
  25. V. Gurieiev, O. Sanginova, Simulation and study of modes for full-scale mode simulator for Ukrainian energy systems, in Proceedings of the 2nd International Conference on Intelligent Energy and Power Systems (IEPS’2016) (2016) [Google Scholar]
  26. V. Gurieiev, O. Sanginova, Distributed simulation environment of modes for full-scale mode simulator for Ukrainian energy systems. Technical Electrodynamics 5, 67–69 (2016) [Google Scholar]
  27. Yu. Zabulonov, O. Popov, V. Burtniak, A. Іatsyshyn, V. Kovach, A. Iatsyshyn, Innovative developments to solve major aspects of environmental and radiation safety of Ukraine, in Studies in Systems, Decision and Control (2021 in press) [Google Scholar]
  28. A. Iatsyshyn, A. Iatsyshyn, V. Artemchuk, I. Kameneva, V. Kovach, O. Popov, Software tools for tasks of sustainable development of environmental problems: peculiarities of programming and implementation in the specialists’ preparation. E3S Web Conf. 166, 01001 (2020). doi:10.1051/e3sconf/202016601001 [Google Scholar]
  29. M.L. Myrontsov, (2012). A new method and program for multiprobe electric logging quantitative interpretation, in Proceedings of the 11th EAGE International Conference on Geoinformatics - Theoretical and Applied Aspects, 00028 (2012). [Google Scholar]
  30. O. Popov, A. Iatsyshyn, V. Kovach, V. Artemchuk, D. Taraduda, V. Sobyna, D. Sokolov, M. Dement, T. Yatsyshyn, I. Matvieieva, Analysis of possible causes of NPP emergencies to minimize risk of their occurrence, Nucl. Radiat. Saf. 81, 75–80 (2019). doi:10.32918/nrs.2019.1(81).13 [Google Scholar]
  31. IAEA Annual Report for 2017, Vienna, IAEA, https://www.iaea.org/sites/default/files/publications/reports/2017/gc62-3.pdf. Accessed 23 Dec 2020 [Google Scholar]
  32. D. Taraduda, M. Dement, The approach to the quantitative assessment of the risk of occurrence of emergency situations associated with terrorist acts at radiation hazardous objects, Problems of emergencies 24, 126–133 (2016) [Google Scholar]
  33. O. Popov, A. Iatsyshyn, V. Kovach, V. Artemchuk, D. Taraduda, V. Sobyna, D. Sokolov, M. Dement, T. Yatsyshyn, Conceptual Approaches for Development of Informational and Analytical Expert System for Assessing the NPP impact on the Environment. Nucl. Radiat. Saf. 79, 56–65 (2018). doi:10.32918/nrs.2018.3(79).09 [Google Scholar]
  34. S. Kis, L. Mosora, Y. Mosora, O. Yatsiuk, G. Malynovska, S. Pobihun, Personnel Certification as a Necessary Condition for Enterprise’ Staff Development, Management Systems in Production Engineering 28(2), 121–126 (2020). doi:10.2478/mspe-2020-0018 [Google Scholar]
  35. L.A. Mikhailov, V.P. Solomin, Emergencies of a natural, technogenic and social nature and protection from them. (Piter, St. Petersburg 2008) [Google Scholar]
  36. Order of the State Inspectorate for Nuclear Regulation of Ukraine dated 30.08.2017 №313 “On approval of the Requirements for periodic reassessment of safety of nuclear power plants” (2017), http://zakon.rada.gov.ua/laws/show/z1158-17. Accessed 23 Dec 2020 [Google Scholar]
  37. Main measures of the system of emergency preparedness and response of NNEGC “Energoatom” to accidents and emergencies at NPPs for the period up to 2020 (NNEGC “Energoatom”, Kyiv, 2015) [Google Scholar]
  38. The main provisions of the organization of the system of readiness and response of NNEGC “Energoatom” to accidents and emergencies at NPPs (NNEGC “Energoatom”, Kyiv, 2018) [Google Scholar]
  39. O. Pogosov, O. Derevianko, NPP Physical Protection and Information Security as Necessary Conditions for Reducing Nuclear and Radiation Accident Risks. Nucl. Radiat. Saf. 75, 50–55 (2017). doi: 10.32918/nrs.2017.3(75).09 [Google Scholar]
  40. Report on the activities of the State Nuclear Regulatory Inspectorate of Ukraine for 2019, Kyiv, 2020, http://www.snrc.gov.ua/nuclear/doccatalog/document?id=450225. Accessed 23 Dec 2020 [Google Scholar]
  41. Information reports on violations in the operation of NPPs during 2020, https://sstc.ua/informacijnipovidomlennya-pro-porushennya-v-roboti-aesprotyagom-2020-roku. Accessed 23 Dec 2020 [Google Scholar]
  42. O. Popov, A. Iatsyshyn, D. Sokolov, M. Dement, I. Neklonskyі, A. Yelizarov (2021) Application of Virtual and Augmented Reality at Nuclear Power Plants, in Studies in Systems, Decision and Control (2021 in press) [Google Scholar]
  43. Annual report on the state of nuclear and radiation safety in Ukraine, https://snriu.gov.ua/dlyagromadskosti/shchorichna-dopovid-pro-stanyadernoyi-ta-radiacijnoyi-bezpeki-v-ukrayini. Accessed 23 Dec 2020 [Google Scholar]
  44. R.T. London, Is COVID-19 Leading to a Mental Illness Pandemic? https://www.medscape.com/viewarticle/927849. Accessed 23 Dec 2020 [Google Scholar]
  45. V.E. Medvedev, Mental health in the context of COVID-19 pandemic: initial assessment, Clinical review for general practice 1, 22–28, (2020). doi:10.47407/kr2020.1.1.00004 [Google Scholar]
  46. IPC Guide to Mental Health and Psychosocial Support in Emergencies (Universytetske vydavnytstvo PULSARY, Kyiv, 2017) [Google Scholar]
  47. S.A. Mul, Dissertation, G.S. Kostyuk Institute of Psychology of NAPS of Ukraine, 2011 [Google Scholar]
  48. Basics of rehabilitation psychology: overcoming the consequences of crisis. Vol. 1, (Organization for Security and Co-operation in Europe, Kyiv, 2018) [Google Scholar]
  49. Mental Health in Emergencies (World Health Organization, Geneva, 2003) [Google Scholar]
  50. M.S. Dvornyk, Psychological mobile apps: the ways of psychotrauma overcoming, in Vseukrayinsʹka naukovo-praktychna konferentsiya “Mediatravma v umovakh informatsiynoyi viyny: psykholohichnyy ta pedahohichnyy aspekty” (2017) [Google Scholar]
  51. M.S. Dvornyk, Smartphone applications usage in conditions of population’s psychotraumatizaton, Information Technologies and Learning Tools 73(5), 236–248 (2019). doi:10.33407/itlt.v73i5.2760 [Google Scholar]
  52. K. Ly, J. Dahl, P. Carlbring, G. Andersson, Development and initial evaluation of a smartphone application based on acceptance and commitment therapy, SpringerPlus 1, 11 (2012). doi:10.1186/2193-1801-1-11 [Google Scholar]
  53. Mobile Phone Application PFA mobile Ukraine – The first psychological aid, https://volonter.org/event/dodatok-dlyamob%D1%96lnih-telefon%D1%96v-pfa-mobileukraine---persha. Accessed 23 Dec 2020 [Google Scholar]
  54. Mobile psychological help, https://mobilementalhelp.tdmu.edu.ua. Accessed 23 Dec 2020 [Google Scholar]
  55. Z. Kowalczuk, M. Czubenko, T. Merta, Interpretation and modeling of emotions in the management of autonomous robots using a control paradigm based on a scheduling variable. Eng. Appl. Artif. Intell. 91, 103562 (2020). doi:10.1016/j.engappai.2020.103562 [Google Scholar]
  56. Verkhovna Rada of Ukraine, Code of Civil Protection of Ukraine, https://zakon.rada.gov.ua/laws/show/5403-17. Accessed 23 Dec 2020 [Google Scholar]
  57. DK 019: 2010. Emergency classifier (Derzhspozhyvstandart of Ukraine, Kyiv, 2010) [Google Scholar]
  58. M. Somani, A.N. Srivastava, S.K. Gummadivalli, A. Sharma Indirect implications of COVID-19 towards sustainable environment: An investigation in Indian context. Bioresour. Technol. Rep. 11, 100491 (2020). doi:10.1016/j.biteb.2020.100491 [CrossRef] [PubMed] [Google Scholar]
  59. Iu. Iuras, P. Raiter, Ya. Korobeinykova, L. Poberezhna, Methodology of actors analysis and modeling of the amounts of solid municipal waste generation within tourist destinations. Ecological Questions 31(2), 63–69 (2020). doi:10.12775/EQ.2020.014 [Google Scholar]
  60. I. Melnychuk, O. Savko, S. Pobihun, N. Havadzyn, The impact of a country’s level of economic development on environmental safety. Procedia Environmental Science, Engineering and Management (2020 in pres) [Google Scholar]
  61. P.I. Guchek, Dissertation, Kherson National Technical University, 2016 [Google Scholar]
  62. V.V. Behun et al., Safety culture in nuclear energy (NTUU «KPI», Kyiv, 2012) [Google Scholar]
  63. The Information Channel on Nuclear and Radiological Events, https://www-news.iaea.org/EventList.aspx. Accessed 23 Dec 2020 [Google Scholar]
  64. Another cyberattack by Stuxnet virus committed on Iran, https://www.bbc.com/russian/international/2012/12/121225_iran_stuxnet_attack. Accessed 23 Dec 2020 [Google Scholar]
  65. Cyberattacks on nuclear facilities, https://www.kommersant.ru/doc/3196397. Accessed 23 Dec 2020 [Google Scholar]
  66. NPCIL statement, https://ru.scribd.com/document/432687853/NPCIL-statement. Accessed 23 Dec 2020 [Google Scholar]
  67. O.M. Sukhodolya (eds.), Organizational and legal aspects of ensuring the security and sustainability of critical infrastructure of Ukraine (NISD, Kyiv, 2019) [Google Scholar]
  68. Rivne NPP emergency response system, https://www.rnpp.rv.ua/emergency-response.html. Accessed 23 Dec 2020 [Google Scholar]
  69. Official website of South-Ukraine electric power producing complex, https://www.sunpp.mk.ua/ru/article/5545-uvaga-vidokremleniy-pidrozdilyuzhno-ukrayinska-aes-dp-naek-energoatomogoloshuie. Accessed 23 Dec 2020 [Google Scholar]
  70. Professionals are a valuable resource of Rivne NPP, https://www.rnpp.rv.ua/professionalnyie-rabotnikiczennyij-resurs-rivnenskoj-aes.html. Accessed 23 Dec 2020 [Google Scholar]
  71. V. Gurieiev, Yu. Kutsan, A. Іatsyshyn, A. Іatsyshyn, V. Kovach, E. Lysenko, V. Artemchuk, O. Popov, Simulating Systems for Advanced Training and Professional Development of Energy Specialists in Power Sector. CEUR Workshop Proceedings 2732, 693–708 (2020). http://ceur-ws.org/Vol-2732/20200693.pdf. Accessed 23 Dec 2020 [Google Scholar]
  72. For Rivne NPP employees it is psychologically difficult, when stopped the turbines, http://www.golos.com.ua/article/331179. Accessed 23 Dec 2020 [Google Scholar]
  73. Website on nuclear and radiation safety and nonproliferation, https://www.uatom.org/en/generalinformation. Accessed 23 Dec 2020 [Google Scholar]
  74. National Security and Defense Council of Ukraine, Coronavirus epidemic monitoring system https://covid19.rnbo.gov.ua. Accessed 23 Dec 2020 [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.