ORIGINAL PAPER
Good lessons based on bad experience: confronting risks and governing nuclear safety in Ukraine
 
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1
Department of Constitutional Law and Field-Related Disciplines, Institute of Law, National University of Water and Environmental Engineering, Ukraine
 
2
Department of Constitutional, Administrative and Financial Law Faculty of Law, West Ukrainian National University, Ukraine
 
 
Submission date: 2023-03-22
 
 
Final revision date: 2023-05-07
 
 
Acceptance date: 2023-05-31
 
 
Publication date: 2023-09-19
 
 
Corresponding author
Yevheniia Duliba   

Department of Constitutional Law and Field-Related Disciplines, Institute of Law, National University of Water and Environmental Engineering, Rivne, Ukraine
 
 
Polityka Energetyczna – Energy Policy Journal 2023;26(3):131-148
 
KEYWORDS
TOPICS
ABSTRACT
Based on a review of scholarly literature and statements of IAEA and Ukrainian institutions, we try to attempt to analyze the current problems in nuclear energy of Ukraine during the war based on the example of the seized Zaporizhzhia nuclear power plant, which demonstrates the impact of this situation over global nuclear safety. Our study also outlines some solutions to this ongoing crisis and highlights that there is an urgent need for a new strategic vision at the global level with regard to nuclear safety and environmental protection. The “trial and error” approach is not the desired practice of ensuring nuclear safety in the world and therefore the world must today apply the lessons learned during the war in Ukraine to better protect people and the environment. The current situation in the world is complex and requires reasonable considerations, taking into account social, economic, environmental and geopolitical aspects. The introduction of minimum International Atomic Energy Agency (IAEA) safety standards that are illegally enforceable, the revision of the provisions of the IAEA statute and its amendment by providing the organization with the function of maintaining the harmonization of nuclear requirements, the need to improve the existing IAEA standards in terms of taking measures during the construction of nuclear power plants to protect them from missile attacks, as well as during the operation of NPPs are all analyzed as necessary steps required to solve the issues of improving nuclear safety in Ukraine, Europe, and the world. The cooperation of Ukraine with such states as the USA, Japan, South Korea, France, and the United Kingdom, and the creation of the coalition could help to put pressure on United Nations and IAEA at the international level to withdraw all troops and ammunition supplies from Zaporizhzhia NPP.
METADATA IN OTHER LANGUAGES:
Polish
Dobre lekcje ze złych doświadczeń: konfrontacja z ryzykiem i zarządzanie bezpieczeństwem jądrowym na Ukrainie
energia, bezpieczeństwo jądrowe, elektrownia jądrowa, wojna na Ukrainie, standardy MAEA
Na podstawie przeglądu literatury naukowej, oświadczeń MAEA i ukraińskich instytucji, w artykule podjęto próbę analizy obecnych problemów w energetyce jądrowej Ukrainy w czasie wojny na przykładzie zajętej elektrowni jądrowej Zaporoże, która pokazuje wpływ tej sytuacji na globalne bezpieczeństwo jądrowe. Studium ukazane w artykule nakreśla również niektóre rozwiązania tego trwającego kryzysu i uświadamia, że istnieje pilna potrzeba nowej strategicznej wizji na poziomie globalnym w zakresie bezpieczeństwa jądrowego i ochrony środowiska. Podejście „prób i błędów” nie jest pożądaną praktyką zapewniania bezpieczeństwa jądrowego na świecie i dlatego dziś świat musi zastosować lekcje wyciągnięte podczas wojny na Ukrainie, aby lepiej chronić ludzi i środowisko. Obecna sytuacja na świecie jest złożona i wymaga rozsądnych rozważań, uwzględniających aspekty społeczne, gospodarcze, środowiskowe i geopolityczne. Wprowadzenie minimalnych standardów bezpieczeństwa MAEA, które można wyegzekwować w sposób niezgodny z prawem, rewizja postanowień statutu MAEA i jego zmiana poprzez zapewnienie organizacji funkcji utrzymania harmonizacji wymagań jądrowych, potrzeba poprawy istniejących standardów MAEA w zakresie podejmowania środków podczas budowy elektrowni jądrowych w celu ich ochrony przed atakami rakietowymi, a także podczas eksploatacji elektrowni jądrowych, są analizowane jako niezbędne kroki w celu rozwiązania kwestii poprawy bezpieczeństwa jądrowego na Ukrainie, w Europie i na świecie. Współpraca Ukrainy z takimi państwami jak USA, Japonia, Korea Południowa, Francja czy Wielka Brytania oraz utworzenie koalicji może pomóc na poziomie międzynarodowym wywrzeć presję na ONZ i MAEA, aby wycofały wszystkie wojska i zapasy amunicji z elektrowni jądrowej w Zaporożu.
 
REFERENCES (64)
1.
Agreement EU 2014. Association Agreement between the European Union and its Member States, of the one part, and Ukraine, of the other part. [Online]. https://eur-lex.europa.eu/lega... Accessed: 2022-02-28].
 
2.
Baker, K. 2019. Governance, depoliticization, and nuclear power in Britain and the United States. Policy Studies 43(2), DOI: 10.1080/01442872.2019.1665643.
 
3.
Bollfrass, A.K. and Herzog, S. 2022. The War in Ukraine and Global Nuclear Order. Survival 64(4), pp. 7–32, DOI: 10.1080/00396338.2022.2103255.
 
4.
Boulton, F. 2022. The nature and consequences of a nuclear war: lessons for prevention from Ukraine. Medicine, Conflict and Survival 38(3), pp. 184–202, DOI: 10.1080/13623699.2022.2093571.
 
5.
Brągiel, A. and Gambin, M. 2023. Depressive symptoms and psychological pain experienced by Polish adults in the context of both the war in Ukraine and the COVID-19 pandemic. Journal of Affective Disorders Reports 12, DOI: 10.1016/j.jadr.2023.100487.
 
6.
Budjeryn, M. 2022. Distressing a system in distress: global nuclear order and Russia’s war against Ukraine. Bulletin of the Atomic Scientists 78(6), pp. 339–346, DOI: 10.1080/00963402.2022. 2132742.
 
7.
Chepeliev et al. 2023 – Chepeliev, M., Diachuk, O., Podolets, R. and Semeniuk, A. 2023. What is the future of nuclear power in Ukraine? The role of war, techno-economic drivers, and safety considerations. Energy Policy 178, DOI: 10.1016/j.enpol.2023.113612.
 
8.
Deng et al. 2022 – Deng, M., Leippold, M., Wagner, A.F. and Wang, Q. 2022. Stock Prices and the Russia-Ukraine War: Sanctions, Energy and ESG, Swiss Finance Institute Research Paper Series 22–29, DOI: 10.2139/ssrn.4080181.
 
9.
Duliba, Y.E. 2022. Nuclear safety: a global challenge in the context of the war in Ukraine. Journal of Energy & Natural Resources Law, DOI: 10.1080/02646811.2022.2145018.
 
10.
Energy Universe 2022. Electricity production in Ukraine in 2021. [Online] https://vse.energy/news/pek-ne... [Accessed: 2022-02-28] (in Ukrainian).
 
11.
ENTSO-E 2017. Future interconnection of Ukraine and Moldova with the Continental Europe Power System. [Online] https://www.entsoe.eu/publicat... [Accessed: 2022-02-28].
 
12.
Fitzpatrick, M. 2014. The Ukraine Crisis and Nuclear Order. Survival 56(4), pp. 81–90, DOI: 10.1080/00396338.2014.941552.
 
13.
Guarnieri, F. and Travadel, S. 2014. Engineering thinking in emergency situations: A new nuclear safety concept. Bulletin of the Atomic Scientists 70(6), pp. 79–86, DOI: 10.1177/0096340214555109.
 
14.
Ho et al. 2019 – Ho, M., Obbard, E., Burr, P.A. and Yeoh, G. 2019. A review on the development of nuclear power reactors. Energy Procedia 160, pp. 459–466, DOI: 10.1016/j.egypro.2019.02.193.
 
15.
IACO 2023. About ICAO. [Online]. https://www.icao.int/about-ica... [Accessed: 2022-02-28].
 
16.
IAEA 1956. The Statute of the IAEA. [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
17.
IAEA 1996. INSAG-10 – Defence in Depth in Nuclear Safety. [Online] https://www-pub.iaea.org/mtcd/... [Accessed: 2022-02-28].
 
18.
IAEA 1999. INSAG-12 – Basic safety principles for nuclear power plants: 75-INSAG-3 rev. 1. [Online] https://www-pub.iaea.org/MTCD/... [Accessed: 2022-02-28].
 
19.
IAEA 2002. GS-R-2- Preparedness and response for a nuclear or radiological emergency: Safety Guide. [Online] https://www-pub.iaea.org/MTCD/... [Accessed: 2022-02-28].
 
20.
IAEA 2003. NS-G-1.5 – External Events Excluding Earthquakes in the Design of Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
21.
IAEA 2015. GSR Part 7 – Preparedness and Response for a Nuclear or Radiological Emergency: General Safety Requirements. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
22.
IAEA 2021. SSG-68 – Design of Nuclear Installations Against External Events Excluding Earthquakes: Specific Safety Guide. [Online] https://www-pub.iaea.org/MTCD/... [Accessed: 2022-02-28].
 
23.
IAEA 2022a. IAEA Director General Calls for Restraint, Reiterates Need to Ensure Safety of Ukraine’s Nuclear Facilities and Their Staff. [Online] https://www.iaea.org/newscente... [Accessed: 2022-02-28].
 
24.
IAEA 2022b. Update – 8. IAEA Director General Statement on situation in Ukraine. [Online] https://www.iaea.org/newscente... [Accessed: 2022-02-28].
 
25.
IAEA 2022c. Nuclear Safety, Security and Safeguards In Ukraine. 2nd Summary Report by the Director General. [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
26.
IAEA 2022d. Update – 132. IAEA Director General Statement on Situation in Ukraine. [Online] https://www.iaea.org/newscente... [Accessed: 2022-02-28].
 
27.
IAEA 2022e. SSG70 – Operational Limits and Conditions and Operating Procedures for Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
28.
IAEA 2022f. SSG72 – The Operating Organization for Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
29.
IAEA 2022g. SSG73 – Core Management and Fuel Handling for Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
30.
IAEA 2022h. SSG74 – Maintenance, Testing, Surveillance and Inspection in Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
31.
IAEA 2022i. SSG75 – Recruitment, Qualification and Training of Personnel for Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
32.
IAEA 2022j. SSG76 – Conduct of Operations at Nuclear Power Plants: Specific Safety Guide. [Online] https://www.iaea.org/publicati... [Accessed: 2022-02-28].
 
33.
IAEA 2023. Nuclear Power Capacity Trend. [Online] https://pris.iaea.org/PRIS/Wor... [Accessed: 2022-02-28].
 
34.
Izzeldin et al. 2023 – Izzeldin, M., Muradoğlu Y.G., Pappas, V., Petropoulou, A. and Sivaprasad, S. 2023. The impact of the Russian-Ukrainian war on global financial markets. International Review of Financial Analysis 87, DOI: 10.1016/j.irfa.2023.102598.
 
35.
Kuzemko et al. 2022 – Kuzemko, C., Blondeel, M., Dupont, C. and Brisbois, M.C. 2022. Russia’s war on Ukraine, European energy policy responses & implications for sustainable transformations. Energy Research & Social Science 93, DOI: 10.1016/j.erss.2022.102842.
 
36.
Memorandum on security assurances in connection with Ukraine’s accession to the Treaty on the Non-Proliferation of Nuclear Weapons, December 1994, 05. [Online] https://treaties.un.org/Pages/... [Accessed: 2022-04-28].
 
37.
Ministry of Energy of Ukraine 2022. Integration into the European electricity network ENTSO-E. [Online]. https://www.mev.gov.ua/reforma... [Accessed: 2022-02-28] (in Ukrainian).
 
38.
Ministry of Energy of Ukraine 2022. The history of energy. [Online] https://www.mev.gov.ua/storink... [Accessed: 2022-02-28] (in Ukrainian).
 
39.
Nastos, G. 2022. European Union’s Energy Security in the Aftermath of Russia’s War in Ukraine: From Dependence to Independence. HAPSc Policy Briefs Series 3(2), pp. 153–160, DOI: 10.12681/hapscpbs.33795.
 
40.
Office of the Prosecutor General 2023. Press conference of Andriy Kostin about the work of the Prosecutor General’s Office for the year of full-scale aggression of the Russian Federation. [Online] https://www.gp.gov.ua/ua/posts... [Accessed: 2022-02-28] (in Ukrainian).
 
41.
Pandey, D.K. and Kumar, R. 2023. Russia-Ukraine War and the global tourism sector: A 13-day tale. Current Issues in Tourism 26(5), pp. 692–700, doi: 10.1080/13683500.2022.2081789.
 
42.
Prăvălie, R. and Bandoc, G. 2018. Nuclear energy: Between global electricity demand, worldwide decarbonisation imperativeness, and planetary environmental implications. Journal of Environmental Management 209, pp. 81–92, DOI: 10.1016/j.jenvman.2017.12.043.
 
43.
Resolution General Conference IAEA 2011. Resolution GC(55)/RES/9, September 2011, 22. Measures to strengthen international cooperation in nuclear, radiation, transport and waste safety [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
44.
Resolution General Conference IAEA 2012. Resolution GC(56)/RES/9, September 2012, 20. Measures to strengthen international cooperation in nuclear, radiation, transport and waste safety. [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
45.
Resolution General Conference IAEA 2015. Resolution GC(59)/RES/9 of September 2015, 17. Measures to strengthen international cooperation in nuclear, radiation, transport and waste safety. [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
46.
Resolution General Conference IAEA 2022. Resolution GC(66)/RES/6 of September 2022, 30. Nuclear and radiation safety. [Online] https://www.iaea.org/sites/def... [Accessed: 2022-02-28].
 
47.
Roland, G. 2023. The war in Ukraine and its consequences for the international order and North East Asia. Asia and the Global Economy 3(1), DOI: 10.1016/j.aglobe.2023.100056.
 
48.
Smith, D.C. 2022. Playing with fire: military attacks against a civilian nuclear power station. Journal of Energy & Natural Resources Law 40(2), pp. 159–164, doi: 10.1080/02646811.2022.2057727.
 
49.
Taebi, B. and Mayer, M. 2017. By accident or by design? Pushing global governance of nuclear safety. Progress in Nuclear Energy 99, pp. 19–25, DOI: 10.1016/j.pnucene.2017.04.014.
 
50.
The State Nuclear Regulatory Inspectorate of Ukraine 2022. On the situation at the Chornobyl NPP and the state of safety of other nuclear facilities. [Online] https://snriu.gov.ua/news/pro-... [Accessed: 2022-02-28] (in Ukrainian).
 
51.
United Nations 1977. Protocols Additional to the Geneva Conventions of 12 August 1949. [Online] www.icrc.org/en/doc/assets/files/other/icrc_002_0321.pdf [Accessed: 2022-02-28].
 
52.
United Nations 1994a. The Convention on Nuclear Safety (CNS). [Online] https://www.iaea.org/topics/nu... [Accessed: 2022-02-28].
 
53.
United Nations 1994b. Participants of the Convention on Nuclear Safety (CNS). [Online] https://treaties.un.org/pages/... [Accessed: 2022-04-28].
 
54.
United Nations 2015. Take Action for the Sustainable Development Goals. [Online] https://www.un.org/sustainable...: 2022-02-28].
 
55.
Verkhovna Rada of Ukraine 2022. The situation on the nuclear facilities of Ukraine on March 31, 2022. [Online] https://www.rada.gov.ua/news/r... [Accessed: 2022-02-28] (in Ukrainian).
 
56.
Von Hippel, D. 2023. Implications of the 2022–2023 Situation in Ukraine for Possible Nuclear Weapons Use in Northeast Asia. Journal for Peace and Nuclear Disarmament, doi: 10.1080/25751654.2023.2201367.
 
57.
WANO 2022. Who Are Our Members? [Online] https://www.wano.info/members/... [Accessed: 2022-02-28].
 
58.
WANO 2023. Our history. [Online] https://www.wano.info/about-us... [Accessed: 2022-02-28].
 
59.
Wenra 2023. Wenra’s Mission. [Online] https://www.wenra.eu/about [Accessed: 2022-02-28].
 
60.
Wiertz et al. 2023 – Wiertz T., Kuhn, L. and Mattissek, A. 2023. A turn to geopolitics: Shifts in the German energy transition discourse in light of Russia’s war against Ukraine. Energy Research & Social Science 98(2), DOI: 10.1016/j.erss.2023.103036.
 
61.
WNISR 2022. Nuclear Power 2022. Did We Pass “Peak Nuclear” Years Ago? IAEA Revises Statistics. [Online] https://www.worldnuclearreport... [Accessed: 2022-02-28].
 
62.
WNISR 2023. The World Nuclear Industry Status Report 2022. [Online] https://www.worldnuclearreport... [Accessed: 2022-02-28].
 
63.
Woo, H.T. 2013. Analytic study for physical protection systems (PPS) in nuclear power plants (NPPs). Nuclear Engineering and Design 265, pp. 932–937, DOI: 10.1016/j.nucengdes.2013.09.025.
 
64.
World Nuclear Association 2023. Plans For New Reactors Worldwide. [Online] https://www.world-nuclear.org/... [Accessed: 2022-02-28].
 
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