Abstract
There is only one nuclear power plant in Lithuania – the Ignalina NPP. Both of its units are permanently shut down and under decommissioning. Unlike many other nations with nuclear power plants, Lithuania never operated a research reactor. During the Ignalina NPP’s operation from 1983 until 2010, roughly 21,500 spent nuclear fuel (SNF) assemblies were accumulated. A portion of this fuel has already been transferred to a facility for dry interim storage in casks for 50 years and the remaining portion will be transferred to the new facility that is currently under construction.
Since 2003, two near surface repositories (NSRs) have been under implementation near the Ignalina NPP: a landfill facility for 60,000 m3 of Very Low Level Radioactive Waste and a NSR facility with engineering barriers for 100,000 m3 of Low and Intermediate Level Radioactive Wastes. In the site selection process for the NSR facilities, Lithuanian authorities concluded that public acceptance and good relations with neighbouring countries are as important as geological criteria.
Possibilities for disposal of SNF in a geological repository were analysed in 2001–2004 with support from Swedish experts. Because of these investigations, crystalline rocks and clay formations were declared as prospective for SNF disposal. In parallel, a repository in crystalline rocks was proposed and a related generic safety assessment of this repository concept was performed. Thus, at the moment the Lithuanian SNF disposal program is in the initial site investigation and preliminary facility design stage. It should be emphasized that existing knowledge has largely been gained from international cooperation.
Regarding EC Directive 2011/70/EURATOM, a new national program on the management of spent nuclear fuel and radioactive waste has been prepared and approved by the government in 2015. As initial activities, more detailed planning and preparation of a research program for implementation of the geological repository have been proposed. The intention is to continue investigation of clay and rock formations with support from safety assessments.
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References
Convention on Environmental Impact Assessment in a Transboundary Context, done at Espoo, Finland, on 25 February 1991.
Government Resolution No. 860 on Approval of the Strategy of Radioactive Waste Management (2008) (amended 2009).
Government Resolution No. 1427 on Approval of the National Programme for the Management of Spent Fuel and Radioactive Waste (2015).
Justinavicius, D.; Sirvydas, A. and Poskas, P. (2014). Thermal analysis of reference repository for RBMK-1500 spent nuclear fuel in crystalline rocks. In: Journal of Thermal Analysis and Calorimetry, 118(2), 767-773.
Kanopiene, R. and Marcinkevicius, V. (2000). Possibilities for developing deep radioactive waste repository in Lithuania. Conference Proceedings, Budapest, Hungary, 251–261.
Lithuanian Energy Institute (LEI) (2005a). Concept of Repository in Crystalline Rocks. Investigations of Possibilities to Dispose of Spent Nuclear Fuel in Lithuania: A Model Case, Report, Vol. 2.
Lithuanian Energy Institute (LEI) (2005b). Generic Safety Assessment of Repository in Crystalline Rocks. Investigations of Possibilities To Dispose of Spent Nuclear Fuel in Lithuania: A Model Case, Report, Vol. 3.
Lithuanian Geology Survey (LGT) (2005). Suitability of Geological Environment in Lithuania for Disposal of Spent Nuclear Fuel. Investigations of Possibilities To Dispose of Spent Nuclear Fuel in Lithuania: A Model Case, Report, Vol. 1.
Narkuniene, A.; Poskas, P.; Kilda, R. and Bartkus, G. (2015). Uncertainty and sensitivity analysis of radionuclide migration through the engineered barriers of deep geological repository: Case of RBMK-1500 SNF. In: Reliability Engineering and System Safety, 136, 8–16.
Poskas, P.; Narkuniene, A.; Grigaliuniene, D. and Finsterle, S. (2014). Comparison of radionuclide releases from a conceptual geological repository for RBMK-1500 and BWR Spent Nuclear Fuel. In: Nuclear Technology, 185(3), 322-335.
Ragaisis, V.; Poskas, P.; Šimonis, V.; Smaizys, A.; Kilda, R. and Grigaliuniene, D. (2014). The environmental impact assessment process for nuclear facilities: A review of the Lithuanian practice and experience. In: Progress in Nuclear Energy, 73, 129-139.
Republic of Lithuania (2015). Lithuanian National Report on Implementation of Council Directive 2011/70/EURATOM of 19 July 2011. Establishing a Community Framework for the Responsible and Safe Management of Spent Fuel and Radioactive Waste. Vilnius.
VATESI (2014). Lithuanian National Report under the Joint Convention, ISSN 2351-6445.
VATESI (2010). Requirements on Pre-Disposal Management of Radioactive Waste at Nuclear Energy Objects BSR-3.1.2-2010. Approved by the Order No. 22.3-120 of the Head of VATESI dated December 31, 2010. In: State Journal, No. 3-121.
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Poskas, P. (2018). Progress on Nuclear Waste Management. In: Brunnengräber, A., Di Nucci, M., Isidoro Losada, A., Mez, L., Schreurs, M. (eds) Challenges of Nuclear Waste Governance . Energiepolitik und Klimaschutz. Energy Policy and Climate Protection. Springer VS, Wiesbaden. https://doi.org/10.1007/978-3-658-21441-8_7
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DOI: https://doi.org/10.1007/978-3-658-21441-8_7
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