SLOVENIA
(Updated 2019)
PREAMBLE
This report provides information on the status and development of nuclear power programmes in Slovenia, including factors related to the effective planning, decision making and implementation of the nuclear power programme that together lead to safe and economical operations of nuclear power plants.
The CNPP summarizes organizational and industrial aspects of nuclear power programmes and provides information about the relevant legislative, regulatory and international framework in Slovenia.
Slovenia has one nuclear power reactor in operation and is not planning an expansion of existing programmes.
1. COUNTRY ENERGY OVERVIEW
TABLE 1. GROSS DOMESTIC PRODUCT (GDP)
Note: GDP at current prices, and GDP per capita at current prices at current exchange rate.
1.1. ENERGY INFORMATION
Slovenia imports little less than half of its primary energy demands; current data regarding energy dependency as of 2018 stands at 46.9%. The country imports all its oil derivatives, hard coal, coke fuel and natural gas needs.
In 2017, final energy consumption (FEC) in Slovenia was around 203.4 PJ, a slight decrease of 0.5% compared with 2016. The largest consumer was the transport sector at 38%, followed by manufacturing and construction at 27%, households at 23% and other use (including agriculture) at 12%. FEC increased mostly from solid fuels (by 5%), followed by heat (4%) and electricity (4%), and renewables including geothermal, solar and waste (1%); FEC from petroleum products decreased by 4%.
1.1.1. Energy policy
The energy policy goals of Slovenia are to ensure a reliable, safe and competitive energy supply in a sustainable manner by ensuring the transition to a low carbon society and achieving the sustainable development goals. The main task of the future development of the energy industry is to continue providing balance among three general and inextricably linked pillars of energy policy, namely: climate sustainability, energy supply security and competitiveness.
Slovenia will prepare the Long-term Strategy for at least the next 30 years, which must include an analysis of different scenarios for the contribution of the European Union to meeting its and Member States’ commitments under the United Nations Framework Convention on Climate Change and the Paris Agreement. According to the governance of the energy union and climate action rules, which entered into force on 24 December 2018, EU Member States are required to prepare integrated national energy and climate plans that cover the five dimensions of the energy union for 2021–2030. In Slovenia, the Long-term Strategy and the Integrated National Energy and Climate Plan will be prepared in harmony. The adoption of the latter is expected before the end of 2019.
The Energy Concept of Slovenia (ECS) will serve as the basic development document in the energy field that will, on the basis of the projections of the country’s economic, environmental and social development and the adopted international commitments, define the objectives of the reliable, sustainable and competitive energy supply for the next 20 years (and tentatively for the next 40 years). The ECS is to be adopted through a resolution by the National Assembly on the Government’s proposal. On 1 March 2018, the Government set the wording of the motion for the Resolution on the Energy Concept of Slovenia (ReECS Motion) and submitted it for adoption to the National Assembly, which was not able to put the ReECS Motion on the agenda and discuss it before the early elections. The Ministry of Infrastructure estimates that the revised ReECS Motion will be prepared and adopted by the Government by the end of 2019, and then be submitted to the National Assembly, which is expected to adopt ReECS in the first half of 2020.
The objective of reducing greenhouse gas emissions affects the share of renewable energy sources in the final consumption. Currently, Slovenia’s national objective is set at 27% by 2030 and confirmed by the Slovenian Development Strategy 2030. According to the rating of the World Energy Council, Slovenia received the second highest assessment in energy security in the world.
Slovenia will strive to reduce the use of, and dependency on, fossil energy sources to the greatest extent possible, by gradually phasing out their use with great emphasis on increasing the efficient use of energy, and greater use of renewable and low carbon sources. Considering decarbonization projections, the share of renewable energy sources in energy balances will increase. Slovenia also has certain projects of common interest, including electricity clusters with high voltage power lines with Croatia, Hungary and Italy, which will contribute to the optimization of electricity trade and energy supply and to an increase in electricity interconnectivity. Moreover, the Slovenian and Croatian electricity transmission network operators are implementing a project of common interest in the field of smart networks, which is co-financed by Connecting Europe Facility.
1.1.2. Estimated available energy
Slovenia has limited energy reserves (see Table 2). The proven and recoverable reserves of low quality brown coal and lignite amount to about 371 million tonnes. There are no proven crude oil and natural gas liquids recoverable reserves. The estimated hydro reserves of Slovenia are up to 9.1 TW·h per year, of which 4.3 TW·h are already exploited. The country is connected to three gas pipelines, from Algeria, Austria and the Russia Federation.
TABLE 2. ESTIMATED ENERGY RESERVES
Fossil fuels | Nuclear | Renewables | |||
Solida | Liquidb | Gasc | Uraniumd | Hydroe | |
Total amount | 371 | —f | —f | 1700 | 9100 |
Source: World Energy Council, data for 2015 [1].
a Coal, including lignite (million tonnes): proven recoverable reserves, the tonnage within the proven amount in place that can be recovered in the future under present and expected local economic conditions with existing available technology.
b Crude oil and natural gas liquids (million tonnes; oil shale, natural bitumen and extra heavy oil are not included): proven recoverable reserves, the quantity within the proven amount in place that can be recovered in the future under present and expected local economic conditions with existing available technology.
c Natural gas (billion cubic metres): proven recoverable reserves, the volume within the proven amount in place that can be recovered in the future under present and expected local economic conditions with existing available technology.
d Reasonably assured resources under US $130/kg U (tonnes).
e Hydropower (TW·h per year): technically exploitable capability, the amount of the gross theoretical capability that can be exploited within the limits of current technology.
f —: data not available.
1.1.3. Energy statistics
A significant share of Slovenian industrial production is energy intensive, such as steel production, aluminium, chemicals, pulp and paper, and building materials. Yet, overall energy demand is decreasing gradually; in 2017, industrial energy demand accounted for 27% of total energy consumption. The largest share was in transport, standing at 38%. High energy consumption in industry and transport is also reflected in high energy use per unit of GDP, compared to most western European countries. Energy use per capita is lower than the average for EU Member States.
TABLE 3. ENERGY STATISTICS
2000 | 2005 | 2010 | 2015 | 2017 | Annual av. growth rate 2000–2017 (%) | |
Total energy requirements (EJ) | 0.268 | 0.302 | 0.302 | 0.272 | 0.286 | 0.4 |
Solids | 0.057 | 0.064 | 0.061 | 0.045 | 0.048 | -0.8 |
Liquids | 0.096 | 0.103 | 0.103 | 0.093 | 0.094 | 0.5 |
Gases | 0.035 | 0.039 | 0.036 | 0.028 | 0.031 | -0.5 |
Hydro | 0.014 | 0.012 | 0.016 | 0.014 | 0.014 | 2.0 |
Nuclear | 0.052 | 0.064 | 0.062 | 0.062 | 0.069 | 2.0 |
Combustible renewables and waste | 0.019 | 0.020 | 0.030 | 0.029 | 0.030 | 3.0 |
Other renewables | 0.000 | 0.000 | 0.002 | 0.003 | 0.004 | 2013.2 |
Total energy consumption (EJ) | 0.185 | 0.204 | 0.209 | 0.196 | 0.203 | 0.6 |
Solids | 0.003 | 0.003 | 0.002 | 0.002 | 0.002 | -2.9 |
Liquids | 0.094 | 0.100 | 0.102 | 0.091 | 0.092 | 0.0 |
Gases | 0.024 | 0.028 | 0.026 | 0.023 | 0.026 | 0.6 |
Combustible renewables and waste | 0.018 | 0.019 | 0.027 | 0.025 | 0.026 | 2.6 |
Other renewables | 0.000 | 0.000 | 0.001 | 0.002 | 0.002 | 25.1 |
Electricity | 0.038 | 0.046 | 0.043 | 0.046 | 0.049 | 1.6 |
Heat | 0.008 | 0.008 | 0.008 | 0.007 | 0.008 | -0.2 |
Net imports (imports - exports) | 0.137 | 0.156 | 0.145 | 0.132 | 0.142 | 0.5 |
Solids | 0.010 | 0.014 | 0.012 | 0.009 | 0.008 | 0.6 |
Liquids | 0.098 | 0.105 | 0.104 | 0.095 | 0.103 | 1.0 |
Gases | 0.034 | 0.039 | 0.036 | 0.028 | 0.031 | -0.5 |
Combustible renewables and waste | 0.000 | 0.000 | 0.001 | 0.001 | 0.002 | -11.6 |
Electricity | -0.005 | -0.001 | -0.008 | 0.000 | -0.002 | 64.6 |
Source: Slovenian Statistical Office, 2019.
1.2. THE ELECTRICITY SYSTEM
1.2.1. Electricity policy and decision making process
The following services are carried out within the public service obligations scope: transmission system operator, distribution system operator, electricity distribution and market operator. The transmission and distribution companies are required to ensure access to the electricity network in a transparent and non-discriminatory manner following the principles of regulated third party access. The information on distribution and transmission networks traffic is public. The markets for electricity and gas in Slovenia were opened to all non-household customers in July 2004, representing a volume of market opening of 75% and 90%, respectively. Both markets have been fully open since 1 July 2007.
Electricity is traded via bilateral contracts and on the market is organized by Borzen. Generating installations using renewable energy sources or waste and cogeneration units are eligible for qualified producer status. Producers must meet environmental acceptability standards. Power plants are divided into four groups, depending on the installed power: micro power plants (up to and including 36 kW); small power plants (from 36 kW to 1 MW); medium power plants (from 1 MW to 10 MW); and large power plants (above 10 MW).
The feed-in tariff scheme and premium schemes are set by the Government to stimulate production of electricity from renewable energy sources and combined heat and electricity power plants. The national target, a 39.3% share of renewable electricity in the gross final energy demand by 2020, is set in the national action plan for renewable energy for 2010–2020. Purchases of electricity from renewable energy sources and combined heat and electricity power plants are guaranteed from feed-in tariff scheme and organized by the Centre for Support. The support scheme is financed via a supplement to the electricity price.
The Energy Agency, established by the Energy Act, provides transparent and non-discriminatory operation of the electricity and natural gas markets for the benefit of all participants. The Agency is an independent organization that controls the activity of the electricity and natural gas markets, having the following duties and authority:
Setting the use of the system charges (the Agency’s duties are broadened by amendments of the Energy Act in accordance with Directive 2009/72/EC of the European Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in electricity and repealing Directive 2003/54/EC, Directive 2009/73/EC of the European Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in natural gas and repealing Directive 2003/55/EC, and Regulation (EC) No 714/2009 of the European Parliament and of the Council of 13 July 2009 on conditions for access to the network for cross-border exchanges in electricity and repealing Regulation (EC) No 1228/2003. Taking decisions about the justification of costs and other elements of the price for use of system charges on the basis of data and criteria for the evaluation of cost justification.
Taking decisions in case of disputes, originating from: (i) denial of access to electric or gas system; and (ii) charges for the use of the electric or gas system.
Granting licences for performing energy activities in accordance with the provisions of the Energy Act and its decree.
In addition to the above tasks, the Agency also executes the following duties:
Cooperates with competent authorities and inspectorates;
Publishes annual reports and information for the public;
Performs other tasks connected with the control of the function of the electricity and natural gas markets.
The creation of a market operator has been one of the obligatory elements introduced by the Energy Act, and at the same time one of the fundamental conditions for opening up the electricity market. The organized electricity market is the meeting point of supply and demand of electricity.
The operation of the organized electricity market and the rights and duties of the market operator were set forth in detail in the Rules on the Operation of the Electricity Market. Borzen, established in March 2001, is the market operator. The market operator is responsible for ensuring transparency of the organized electricity market by publishing special indices, price lists and quantities based on transactions concluded on the electricity market across different time periods. This provides market participants with the possibility of developing appropriate strategies for trading purposes and of forming their own bids. The market operator is also responsible for registering all bilateral agreements and balancing group settlements.
1.2.2. Structure of electric power sector
In 2017, Slovenia had 3618 MW of total installed electricity capacity, 688 MW of which was provided by the Krško nuclear power plant (NPP) and the rest by hydro (1347 MW), thermal (1332 MW) and other (252 MW) power plants facilities (see Table 4). Total gross electricity production in 2017 amounted to 16326 GW·h, of which 6285 GW·h was produced from nuclear, 4141 GW·h from hydro, 5610 GW·h from thermal and 290 GW·h from solar and wind power plants. Slovenia has fairly diversified primary sources for electricity production.
TABLE 4. ELECTRICITY PRODUCTION AND INSTALLED CAPACITIES
2000 | 2005 | 2010 | 2015 | 2017 | Annual av. growth rate 2000–2017 (%) | |
Gross electricity generation (TW·h) | ||||||
Total | 13.62 | 15.12 | 16.44 | 15.10 | 16.33 | 1.2 |
Nuclear | 4.76 | 5.88 | 5.74 | 5.65 | 6.29 | 2.0 |
Hydro | 3.83 | 3.46 | 4.70 | 4.09 | 4.14 | 2.3 |
Geothermal, solar, wind | 0.00 | 0.00 | 0.01 | 0.28 | 0.29 | 105.0 |
Thermal | 5.03 | 5.77 | 6.07 | 5.08 | 5.61 | 1.0 |
Installed net capacity (GW) | ||||||
Total (including hydro pumping) | 2.63 | 2.99 | 3.19 | 3.36 | 3.62 | 1.9 |
Nuclear | 0.66 | 0.66 | 0.67 | 0.69 | 0.69 | 0.3 |
Hydro (excluding hydro pumping) | 0.86 | 0.98 | 1.25 | 1.30 | 1.35 | 2.7 |
Geothermal, solar, wind | 0.00 | 0.00 | 0.01 | 0.24 | 0.25 | 100.8 |
Thermal | 1.12 | 1.36 | 1.26 | 1.13 | 1.33 | 1.3 |
Source: Slovenian Statistical Office, 2019.
There are eight generating companies, each with one main power station. In the case of hydropower, one company operates a chain of power plants on a single river system. Most of the major players in electricity production are owned by the two parent companies, Holding Slovenské Elektrárne (HSE) and GEN Energija. HSE also has majority ownership of the lignite mine in Velenje. NEK (Nuklearna Elektrarna Krško), on the other hand, is owned in equal shares by the Slovenian and Croatian legal successors of the founders of the power plant. On the Slovenian side, this is the company GEN Energija, which is 100% state owned.
The transmission electricity network of Slovenia is operated by transmission system operator ELES, whose main responsibility is to ensure the best possible and most transparent use of the existing transmission grid management, operational reliability and security (as defined in the Energy Act). The Slovenian electrical power system is interlinked with the synchronous transmission grids of neighbouring states and integrated into the European network. There are three voltage levels in the transmission grid (400 kV, 220 kV and 110 kV), as well as corresponding transformer substations. The transmission network of Slovenia is presented in Fig. 1, along with the generating capacities.
FIG. 1. Transmission network of Slovenia.
1.2.3. Main indicators
In 2017, final energy consumption in Slovenia was around 203 400 TJ. The largest consumer was the transport sector (38%), followed by manufacturing and construction (27%), households (23%) and other use, including agriculture (12%).
TABLE 5. ENERGY RELATED RATIOS
2000 | 2005 | 2010 | 2015 | 2017 | Annual av. growth rate 2000–2017 (%) | |
Energy consumption (GJ/capita) | 96.21 | 106.82 | 104.76 | 96.37 | 99.74 | 0.27 |
Electricity consumption (kW·h/capita) | 5413 | 6425 | 5893 | 6250 | 6348 | 1.0 |
Nuclear/Total electricity (%) | 34.9 | 38.9 | 34.9 | 37.4 | 38.5 | 0.8 |
Annual capacity factor (%) | ||||||
Total | 59.1 | 57.7 | 58.8 | 51.3 | 51.5 | -0.6 |
Thermal | 51.5 | 48.6 | 54.9 | 51.2 | 48.1 | 0.0 |
Hydro | 50.9 | 40.3 | 42.8 | 36.1 | 35.1 | -0.2 |
Nuclear | 82.8 | 102.4 | 97.0 | 93.7 | 104.3 | 1.7 |
Source: Slovenian Statistical Office, 2019.
2. NUCLEAR POWER SITUATION
2.1. HISTORICAL DEVELOPMENT AND CURRENT NUCLEAR POWER ORGANIZATIONAL STRUCTURE
2.1.1. Overview
Slovenia has had one nuclear power plant in commercial operation since 1983, the Krško NPP. Construction started in 1975 and it was connected to the grid in 1981, entering commercial operation in 1983. In 2001, its steam generators were replaced and the plant was uprated by 6% and an additional 3%. Its operational life was designed to be 40 years, and in 2012 its lifetime was extended to 60 years. The Krško NPP is a pressurized water reactor of 696 MW(e), delivered and constructed by Westinghouse and jointly owned with Croatia. The operational and safety record of the Krško NPP is good and complies with all international standards and the highest safety requirements. The safety status of the plant was supervised by the Slovenian Nuclear Safety Administration (SNSA) as well as by international expert missions organized by the IAEA, the Europen Union and the World Association of Nuclear Operators (WANO), among others.
After modernization and transition to an 18 month fuel cycle, it can produce over 5.8 TW·h in a year without outage, and around 5.4 TW·h in a year with outage, which means that in accordance with the bilateral treaty on the Krško NPP, between 2.7 TW·h and 2.9 TW·h of electricity is available for the Slovenian market annually. In addition to the important share of the electricity produced, the Krško NPP is also characterized by extremely high reliability of production. It can function for 510 days without shutdown, which has an important effect on ensuring the stability of the electrical power system and reliable supply to customers.
The contract between the governments of Slovenia and Croatia on the regulation of status and other legal relations connected to investment in the Krško NPP, its exploitation and decommissioning, and the memorandum of association all took effect on 11 March 2003. The basic capital of the Krško NPP is divided into two equal shares owned by the partners GEN Energija and HEP (Hrvatska Elektroprivreda). The Krško NPP produces and supplies electricity exclusively in favour of the two partners, who each have the right and obligation to use 50% of its total output.
2.1.2. Current organizational chart(s)
The organizational structure of the Krško NPP is shown in Figs 2 and 3.
FIG. 2. External organizational structure.
FIG. 3. Organizational structure of the Krško nuclear power plant.
2.2. NUCLEAR POWER PLANTS: STATUS AND OPERATIONS
2.2.1. Status and performance of nuclear power plant
Table 6 provides the status of the Krško NPP, and more data can be found on the Krško NPP home page (www.nek.si/en) (see Fig. 4).
TABLE 6. STATUS OF THE KRŠKO NUCLEAR POWER PLANT
Reactor Unit | Type | Net Capacity [MW(e)] |
Status | Operator | Reactor Supplier |
Construction Date |
First Criticality Date |
First Grid Date |
Commercial Date |
Shutdown Date |
UCF for 2018 |
KRSKO | PWR | 688 | Operational | NEK | WH | 1975-03-30 | 1981-09-11 | 1981-10-02 | 1983-01-01 | 90.9 |
Data source: IAEA - Power Reactor Information System (PRIS). | |||||||||||
Note: Table is completely generated from PRIS data to reflect the latest available information and may be more up to date than the text of the report. |
Fig. 4. Location of the Krško nuclear power plant.
The most important performance indicators are displayed in Table 7.
TABLE 7. SAFETY AND PERFORMANCE INDICATORS
2.2.2. Plant upgrading, plant life management and licence renewals
Krško NPP’s operational life was originally designed for 40 years, which means that it would be in operation until 2023. However, thanks to good maintenance and the replacement of major vital components, the Krško NPP is in good condition. The Krško NPP established its ageing management programme in 2008, which is a basis for plant life extension. On 20 June 2012, the SNSA issued a decision approving the modifications, which will enable long term operation of the Krško NPP. An approved ageing management programme of the Krško NPP is a precondition for the extension of its operation beyond 2023. In addition, a comprehensive second periodic safety review was approved in 2013 and a third one will be conducted in 2022 and 2023. In the Krško NPP, a series of safety improvements are also under way, resulting from lessons following the accident at the Fukushima Daiichi NPP. Furthermore, the basic precondition for potential operation after 2023 is of course regular maintenance of operating equipment, well trained operators and a good safety culture of all employees. All the above mentioned conditions should be fulfilled if the owners of the NPP want to extend its operation beyond 2023.
2.3. FUTURE DEVELOPMENT OF NUCLEAR POWER
Not applicable.
2.4. ORGANIZATIONS INVOLVED IN THE CONSTRUCTION OF NUCLEAR POWER PLANTS
There are no suppliers of NPPs in Slovenia. The only plant is the Krško NPP, which was imported from technology provided by the United States of America.
2.5. ORGANIZATIONS INVOLVED IN THE OPERATION OF NUCLEAR POWER PLANTS
The Krško NPP is owned in equal share by the members of GEN Energija (Slovenia) and HEP (Croatia). NEK generates and supplies electricity exclusively to its members. The Krško NPP itself is responsible for safe and stable operation through a permanent commitment to nuclear safety and in line with state of the art standards. Maintenance is covered by Krško NPP staff, while for some major activities and outages external companies (domestic and foreign) are hired. Everybody who operates the Krško NPP must pass an extensive training programme. Training consists of four phases and takes about two years. The first phase includes a theoretical basis, the second one includes systems of the Krško NPP, the third one full scope simulator training and the last one qualifying of newcomers for independent work in the control room. After candidates complete all phases, they still have to pass the exam before the expert committee of the SNSA.
2.6. ORGANIZATIONS INVOLVED IN THE DECOMMISSIONING OF NUCLEAR POWER PLANTS
The decommissioning programme for the Krško NPP and radioactive waste and spent fuel management assure the basis for implementation of the contract between the governments of Slovenia and Croatia on regulation of status and other relations relating to investments, exploitation and decommissioning of the joint NPP. It also provides a joint expert and organizational approach to the decommissioning of the NPP as well as low and intermediate level radioactive waste and spent fuel management. While the new revision was elaborated in 2009, in the past year new terms of references (ToR) were elaborated for the most urgent and time consuming parts of the project. In preparation of the new ToR, which included all recommendations provided by the IAEA expert mission in 2005, members of the Croatian waste management agency (APO), the Agency for Radwaste Management (ARAO), the Krško NPP and the Belgian research centre SCK•CEN were involved. The new ToR propose elaboration and calculation of the inventory from decommissioning of the NPP — which presents the highest uncertainty in the project — as well as database preparation. The project also presents the regional IAEA programme devoted to decommissioning of nuclear plants, in which additional possibilities for expert missions will be granted.
2.7. FUEL CYCLE, INCLUDING WASTE MANAGEMENT
In Slovenia, high level radioactive waste includes spent nuclear fuel from the Krško NPP. The greatest amount of low and intermediate level radioactive waste (over 95%) is generated due to the operation of the Krško NPP. The rest is produced in medicine, industry and research activities. A special category of waste involves spent sealed radioactive sources, which are in the possession of small holders or are stored in the Central Interim Storage for Radioactive Waste, at Brinje, Slovenia, near Ljubljana. The Krško NPP is the main producer of all waste categories in Slovenia. The contribution of other producers is relatively small. The amounts of different waste categories of radioactive waste in Slovenia at the end of 2018 are given in Table 8.
TABLE 8. STATUS OF WASTE MANAGEMENT
Figure 5 shows the accumulation of low and intermediate level radioactive waste in the Krško NPP storage area. Periodical volume reductions with compression, super compaction, incineration and melting are shown. The lower waste volume accumulation rate after 1995 is the result of a new in-drum drying system for drying evaporator concentrate and spent ion exchange resins. In 2006, the Krško NPP started continuous compression of radioactive waste with its own super compactor installed at the storage facility.
FIG. 5. Accumulation of low and intermediate level radioactive waste in the Krško nuclear power plant storage area.All spent fuel in the Krško NPP is stored in the spent fuel pool with 1694 cells. At the end of 2018, the total number of spent fuel assemblies in the spent fuel pool amounted to 1266 — including two special canisters with damaged fuel rods. The number of annually spent fuel assemblies and the total number of such elements in the pool are shown in Fig. 6.
FIG. 6. The increase in annual spent fuel assemblies and the total number of such elements in the spent fuel pool.
2.8. RESEARCH AND DEVELOPMENT
2.8.1. Research and development organizations and institutes
The Jožef Stefan Institute (IJS) is the leading Slovenian research organization. It is responsible for a broad spectrum of basic and applied research in the fields of natural sciences and technology. The staff of around 800 are specialized in physics, chemistry and biochemistry, electronics and information science, nuclear technology, energy utilization and environmental science.
From the beginning, the research activity of the institute has also been oriented towards research in the field of nuclear physics and the use of nuclear energy for peaceful purposes. At the Reactor Centre in Podgorica, four institute research departments and several centres were established.
The Department of Low and Medium Energy Physics performs research on atomic and nuclear physics and is also engaged in radiological environmental protection, namely the regulation of nuclear facilities and the control of the level of radioactive substances in food and the environment. It was for this reason that the Ecological Laboratory, with its mobile unit, was established. The main research areas of the Reactor Physics Department are theoretical, experimental and applied reactor physics, plasma physics, nuclear fragmentation, neutron dosimetry, neutron radiography, the physics of semiconductor devices and oncology. The Reactor Engineering Division performs nuclear engineering and safety research covering the modelling of basic thermohydraulic processes, thermohydraulic safety analyses of the project and severe accidents, structural safety analyses and probabilistic safety analyses. The multidisciplinary research of the Department of Environmental Sciences focuses on the combination of reciprocal physical, chemical and biological processes that influence the environment.
The institute also operates a Nuclear Training Centre on its premises, completed in 1988. It provides training for Krško NPP personnel, organizes radiological protection courses and carries out public information activities. The centre also regularly organizes and hosts training activities and workshops for the IAEA. Their main activity is promotion of knowledge about the use of nuclear energy.
The Reactor Infrastructure Centre is also part of IJS. The main purpose of the centre is operation of a TRIGA Mark II research reactor for the needs of IJS and other research groups. The research reactor was built by IJS in 1966. The reactor was delivered by General Atomics, while the reactor tank and body were built by Slovenian companies. In 1991, it was reconstructed and equipped for pulse operation. Practically all nuclear professionals in Slovenia started their career or attended practical training courses at the TRIGA reactor (including all professors of nuclear engineering and reactor physics at Ljubljana and Maribor universities, as well as directors and key personnel of the Krško NPP, the SNSA and the ARAO). The reactor has accumulated more than 40 years of continuous operation without any failure of major equipment or any event violating safety standards. It is planned that the reactor will operate at least until 2026.
2.8.2. Development of advanced and new generation nuclear reactor systems
IJS has a long tradition in research programmes in the field of fission technology. The main efforts are dedicated to reactor physics and reactor technology. Research on reactor physics is directed mostly towards developing new methods for research and power reactor calculations. Work is done on neutron, photon and electron Monte Carlo transport, nuclear data evaluation, advanced nodal methods, pin cell and fuel element homogenization and on methods aimed at precise power distribution reconstruction. Also studied are advanced fourth generation reactors, advanced neutron sources and data and materials for fusion technology. The reactor technology research activities belong to the wider field of nuclear engineering and safety. This interdisciplinary research integrates thermohydraulic, structural and probabilistic safety analyses. Advanced reactor technology is also studied, mainly by developing computer models for different physical phenomena. Both reactor physics and technology divisions are very strongly involved in many research projects within the European Framework Programmes, as well as other programmes.
Slovenia is also very strongly involved in fusion research, mainly for the purposes of the ITER project. Different research departments are dealing with fusion and all of them are associated with the Slovenian Fusion Association. The contributions of the institutions in the association to the several areas of the fusion programme are based on R&D experiences of researchers in the fields of nuclear, atomic and plasma physics, ceramic materials development, mechanical engineering and computer aided design. The major equipment available in the institutions includes the following: an ion beam accelerator with materials diagnostic installations; a TRIGA reactor; an advanced dedicated fully integrated high resolution microscope facility for nanostructural materials; and computer systems for simulations, structural mechanical analyses and computer aided design.
2.8.3. International cooperation and initiatives
Slovenia was admitted to full membership of the IAEA in 1992. Cooperation with the IAEA covers a wide range of activities, including:
Preparation of international conventions;
IAEA missions to Slovenia;
Technical cooperation, including attendance of Slovenian experts on IAEA sponsored seminars and training courses, scholarship, scientific visits and research contracts.
Furthermore, Slovenia cooperates with other international organizations, such as the Nuclear Energy Agency of the Organisation for Economic Co-operation and Development (OECD/NEA — observers) and the European Union. Cooperation is also institutionalized through membership in associations, such as the Western European Nuclear Regulators Association (WENRA), the Network of Regulators of Countries with Small Nuclear Programmes (NERS) and the International Nuclear Law Association (INLA).
There is also cooperation through multilateral and bilateral international agreements. The Krško NPP is a member of WANO.
2.9. HUMAN RESOURCES DEVELOPMENT
Until 2008, Slovenia did not have any special undergraduate nuclear programmes. There were a few subjects related to the nuclear field at some of the universities, but no specific nuclear engineering programmes. Those who were interested attended the University of Ljubljana (IJS and Faculty for Mathematics and Physics) or the University of Maribor (Faculty for Civil Engineering). Both graduate programmes are ongoing, and a number of highly educated nuclear experts have graduated from them. The nuclear graduate programme of the University of Ljubljana is also a member of the European Nuclear Engineering Education Network (ENEN).
In 2007, the Faculty of Energy Technology was established at the University of Maribor, and the educational process started in the academic year 2008/2009. Altogether, more than 180 students signed up in the first academic year. The faculty offers both undergraduate and postgraduate programmes.
In addition to academic institutions, there are also some other expert institutions which offer educational services in the field of nuclear technology. The most prominent one is the Nuclear Training Centre (ICJT), which is part of IJS. Its basic activities are training of the Krško NPP staff, radiation protection training, organization of international seminars and public information about nuclear technology.
2.10. STAKEHOLDER COMMUNICATION
One of the fundamental safety principles of the Ionizing Radiation Protection and Nuclear Safety Act is the publicity principle. The SNSA issues information on its activities to the public, which includes regulatory decisions and newsletters on safety matters relevant to the industry. The SNSA publishes a complete list of modifications implemented at the Krško NPP, which contains the date and the description of the modification. The SNSA implements stakeholder communication as a process to ensure the public is routinely informed of its decisions.
3. NATIONAL LAWS AND REGULATIONS
3.1. REGULATORY FRAMEWORK
3.1.1. Regulatory authorities
In 1987, the Slovenian regulatory body was established by the Act on Amendments to the Act on Organization and Competence of the Regulatory Bodies and Republican Organizations and Independent Professional Services of the Slovenian Government.
Over the years, the organizational structure and linkages with other administrative bodies or ministries changed, becoming more specific in function in recent years.
3.1.1.1. Activity of the Slovenian Nuclear Safety Administration
The responsibilities of the SNSA are described in the decree on bodies affiliated with ministries; it performs specialized technical and developmental administrative tasks and tasks of inspection supervision relating to:
Nuclear and radiation safety;
Radioactive waste management;
Practices involving radiation and use of radiation sources, except in medicine or veterinary medicine;
Protection of people and the environment against ionizing radiation;
Physical protection of nuclear materials and facilities;
Non-proliferation of nuclear materials and safeguards;
Import, export and transit of nuclear and radioactive materials and radioactive waste;
Radiation monitoring;
Liability for nuclear damage.
The SNSA is a part of the Ministry of the Environment and Spatial Planning. The major nuclear facilities supervised by the SNSA are the Krško NPP and the TRIGA research reactor at IJS. There is an interim storage area for low and medium radioactive waste at the Reactor Centre site operated by the ARAO. The closed uranium mine Žirovski Vrh is also supervised by the SNSA.
3.1.1.2. Organization of the Slovenian Nuclear Safety Administration
The activities of the SNSA are performed in six organizational units:
Nuclear Safety Division;
Radiation Safety and Materials Division;
Radiation and Nuclear Safety Inspection;
Office of General Affairs;
Office of International Cooperation;
Emergency Preparedness Division.
The Nuclear Safety Division deals with licences, and with analyses used to support licensing activities, by performing and/or reviewing the safety analysis.
The Radiation Safety and Materials Division verifies radiation safety (except in medicine or veterinary medicine) and is responsible for radiation dosimetry control and radiation monitoring. It also deals with the trade, transport and treatment of nuclear and radioactive materials. It shares responsibility in the field of physical protection of NPPs and nuclear materials with the Ministry of the Interior. It also deals with the treatment, temporary storage and disposal of radioactive waste and participates in the administrative procedures for the selection of sites for nuclear facilities, especially those destined for radioactive waste. Finally, it is responsible for safeguards and illicit trafficking issues.
The Office of General Affairs is involved with licensing procedures and the preparation of legislation on nuclear and radiation safety and on nuclear third party liability.
The Office of International Cooperation coordinates cooperation with international organizations (IAEA, OECD/NEA, European Union, WENRA, etc.) and with foreign regulatory authorities for nuclear and radiation safety within bilateral agreements.
The Radiation and Nuclear Safety Inspection supervises licence holders in fulfilling the safety requirements stipulated in the legislation and in the licences. Inspections are performed based on the plan of inspections. To increase their efficiency, inspections may be unannounced. Inspections at Krško NPP are carried out on a weekly basis.
The Emergency Preparedness Division is primarily responsible for planning, training, conducting drills and exercises in the area of emergency preparedness and response within the SNSA as well as for coordination of these activities with other stakeholders in Slovenia and abroad.
3.1.2. Licensing process
The licensing process is governed by the provisions of the Ionizing Radiation Protection and Nuclear Safety Act (Off. Gaz. RS, 76/2017).
The licensing system is divided into four steps after the preliminary condition (the planning of the site of nuclear facilities in the national site development plan) is fulfilled:
Application for the licence for the use of land — the competent body is the Ministry of the Environment and Spatial Planning, with preliminary approval of radiation and nuclear safety — the competent body is the SNSA.
Application for the licence to construct a facility — the competent body is the Ministry of the Environment and Spatial Planning, with approval from the SNSA.
Application for the licence for trial operation — the competent body is the SNSA.
Application for operation and decommissioning — the competent body is the SNSA.
In the Ionizing Radiation Protection and Nuclear Safety Act, there are provisions on:
Use of land: The planning of the site of nuclear facilities and the conditions for their siting in a spatially and functionally contained area must be carried out with the national site development plan. An investor must obtain a licence for the use of land.
Construction: An investor intending to construct or decommission a nuclear facility must obtain a construction licence for the construction, reconstruction or decommissioning of a nuclear facility. The same applies to the investor intending to carry out construction work in an area of limited use due to the vicinity of a nuclear facility, which affects nuclear safety.
Trial operation: After construction work is completed, every nuclear facility must first undergo a period of trial operation. It is necessary to obtain approval from the SNSA prior to the commencement of a period of trial operation of a nuclear facility.
Operation and decommissioning: An investor or operator, who intends to commence or cease operation of a nuclear facility, commence the disposal of spent fuel in a repository of spent fuel or of radioactive waste in a repository of radioactive waste, close a repository of spent fuel or radioactive waste or commence or complete the decommissioning of a nuclear facility, must obtain a licence from the SNSA.
Periodic safety review (PSR): The act requires that the operator of a nuclear facility ensure regular, full and systematic assessment and examination of radiation or nuclear safety of a facility by a PSR. The PSR must be approved by the SNSA. The approved report on the PSR is the condition for renewing an operating licence.
Modifications: With regard to every intended modification in the facility or to the management method used or to the operation of the facility, including maintenance work, inspection, testing or the introduction of a technical, organizational or any other type of modification which affects or could indirectly affect the content of the safety analysis report, the operator must evaluate the intended modification in relation to its significance for radiation or nuclear safety. With respect to their significance for radiation or nuclear safety, changes may be:
Such that it shall be necessary only to notify the SNSA;
Such that the intention of their implementation must be reported to the SNSA;
Of such significance for radiation or nuclear safety that for its implementation a licence from the SNSA must be obtained.
The Ionizing Radiation Protection and Nuclear Safety Act contains provisions on issuing, renewal, amendment and expiration of the licence. The act determines the content of a licence, such as details about the operator, a detailed description of the type, scope and purpose of the use of the facility, the duration of the validity of the licence, the operational conditions and limitations relating to the safety analysis report, obligations relating to the periodic safety review, the steps the licensee must take after the licence expires, the financial warranties (if needed), the deadlines and conditions for a repeated review of the evaluation of the radiation protection of exposed workers and the protection and emergency plan, the duration of a licence (a licence may be issued for a maximum of ten years, except in the case of a licence for the completion of decommissioning of a facility or the closure of a facility) and the conditions for the renewal of the licence (the same conditions and procedure as for the issuing of a licence). A licence may be amended at the request of the licensee or ex officio. A licence can be amended ex officio when the conditions related to the nuclear or radiation safety have changed, when this is required for the protection of the environment or the life or health of the population, for public benefit or when due to external influences or natural phenomena a radiation source is under threat so that nuclear or radiation safety is considerably reduced. The provisions applying to the issue of a licence also apply to the procedure for amending a licence.
The Ionizing Radiation Protection and Nuclear Safety Act has only a few provisions on the licensing procedure since the General Administrative Procedure Act stipulates all the general principles of the licensing procedure, which are to be followed also by the SNSA. The rules of the General Administrative Procedure Act must follow all procedural matters, except for cases when the special acts provide for a different solution. For example, based on the provisions of the General Administrative Procedure Act, the licensee can appeal any decision issued by any regulatory body. However, the Ionizing Radiation Protection and Nuclear Safety Act determines the cases, for which no right to appeal against the SNSA’s decision is allowed. In these cases, the licensee will have only the right for judicial review of the decision.
Furthermore, for the implementation of the Ionizing Radiation Protection and Nuclear Safety Act two rules have been issued by the Minister for the Environment which deal in detail with specific licensing aspects.
The Rule on Operational Safety of Radiation and Nuclear Facilities determines:
The method of using the operating conditions and limits;
The method and frequency of reporting on the implementation of programmes on collection and analysis of operating experience;
The manner and extent of control of ageing;
The method of maintenance, testing and inspection of structures, systems and components.
The rule also has provisions on:
The content, scope and frequency of regular and emergency reporting;
The frequency, content, scope, duration and method of conducting periodic safety reviews and the manner of reporting on these reviews;
Cases when the SNSA may order a periodic safety review;
The content, quality and method of probabilistic safety analysis for checking the safety of nuclear facilities and the evaluation methodology and classification of modifications and the manner and form of information and notification of changes in radiation or nuclear facilities.
With respect to potential emergency situations, the rules also lay out detailed requirements on an emergency response plan and emergency management of radiation or nuclear facilities, on emergency procedures in radiation or nuclear facilities and on ways of informing about the incident.
The Rule on Radiation and Nuclear Safety Factors determines the conceptual basis for radiation and nuclear facilities, and the content of applications and of documents to obtain approvals and licences for nuclear and radiation facilities under the Ionizing Radiation Protection and Nuclear Safety Act. It also determines the contents of safety reports and other documentation necessary to demonstrate and ensure the safety of radiation and nuclear facilities as well as additional requirements regarding organization of a radiation or nuclear facility and regarding the content and format of the quality assurance programme and its implementation in radiation and nuclear facilities.
3.2. MAIN NATIONAL LAWS AND REGULATIONS IN NUCLEAR POWER
In 2013, the National Assembly (Slovenian Parliament) adopted the Resolution on Nuclear and Radiation Safety in Slovenia from 2013 to 2023. Although the provisions of the IAEA safety standards are not legally binding, IAEA Safety Standard Series No. GSR Part 1 (Rev. 1), Governmental, Legal and Regulatory Framework for Safety [2], was the main trigger for the preparation of the resolution; it represents a fundamental political orientation and commitment to nuclear and radiation safety as a priority in all other aspects of the use of nuclear technologies and ionizing radiation.
In 2016, the Slovenian Parliament adopted the Resolution on the National Programme for the Management of Radioactive Waste and Spent Fuel Management for the Period 2016–2025 (ReNPROG), replacing a similar resolution from 2006. This national programme is also the basis for the fulfilment of Art. 11 of Council Directive 2011/70/Euratom of 19 July 2011 on establishing a Community framework for the responsible and safe management of spent fuel and radioactive waste, which requires Member States to ensure the implementation of their national programme covering all types of spent fuel and radioactive waste under their jurisdiction and all stages of spent fuel and radioactive waste from generation to disposal.
The new Ionizing Radiation Protection and Nuclear Safety Act was adopted by Parliament on 12 December 2017. The act was published in the Official Gazette No. 76/2017, and entered into force on 6 January 2018. The new act adjusted policies to the EU legislation in the field of radiation and nuclear safety and to international agreements succeeded, ratified or signed by Slovenia.
The act includes the main principles in the field of nuclear and radiation safety and the provisions on:
Practices involving ionizing radiation (reporting an intention, a permit to carry out practices involving radiation, a permit to use a radiation source);
Protection of people against ionizing radiation (main principles, justification, dose limits, protection of exposed workers, medical exposure);
Radiation and nuclear safety (the classification of facilities; use of land; construction and carrying out of construction and mining activities; trial and actual operation of radiation and nuclear facilities; radioactive contamination; radioactive waste and spent fuel management; import, export and transit of nuclear and radioactive substances and radioactive waste; intervention measures);
Issuing, renewal, modification, withdrawal or expiration of a licensee;
Physical protection of nuclear facilities and nuclear substances;
Non-proliferation of nuclear weapons and safeguards;
Monitoring radioactivity in the environment;
Removal of the consequences of an emergency event;
Report on protection against radiation and on nuclear safety, records containing information on radiation sources and practices involving radiation;
Financing (costs incurred by the users and public expenses) and compensation for the limited use of land due to a nuclear facility;
Inspection, penal provisions and transitional and final provisions.
In its transitional provisions, the act provides for the issuing of several decrees of the Government and rules of the competent ministries.
The new Act on Liability for Nuclear Damage was published in the Official Gazette No. 77 on 4 October 2010. The act governs the liability for nuclear damage resulting from the use of nuclear energy for peaceful purposes, insurance of liability for nuclear damage and the procedure for claiming compensation for nuclear damage. The act on the one hand follows the provisions of the revised Paris Convention (Protocol of 2004 to Amend the Paris Convention on Third Party Liability in the Field of Nuclear Energy of 29 July 1960, as amended) regarding, for example, the extended heads of damages that are covered, raised liability amounts for compensation, extended prescription and extinction periods for nuclear damage claims, etc. On the other hand, the act clearly sets only one court which shall be competent to rule on compensation for nuclear damage and includes a number of provisions regarding rules of procedure of claiming compensation and the distribution of compensation. Public funds, provided by the State, shall be provided in the budget; the amount, manner and dynamics of the drawings of such public funds shall be determined by interventional law, which would follow any eventual significant accident. Regarding those risks which nuclear insurers are unwilling or unable to cover, the act provides for conclusion of a premium based insurance agreement between the Government and the operator, but such an arrangement is limited in time (until the situation on the domestic and international insurance market changes, but no longer than four years). The act also prescribes all necessary provisions which ensure its compliance with the 2004 Protocol to Brussels Supplementary Convention.
It should be mentioned that Slovenia is a party to all relevant international treaties and conventions in the area of nuclear and radiation safety (see Appendix I).
For the current legislation in the area of nuclear and radiation safety, see the SNSA web page: www.ursjv.gov.si/en/legislation_and_documents
Appendix I
INTERNATIONAL, MULTILATERAL AND BILATERAL AGREEMENTS
Slovenia is party to the following treaties:
Appendix II
DIRECTORY OF THE MAIN ORGANIZATIONS, INSTITUTIONS AND COMPANIES INVOLVED IN NUCLEAR POWER RELATED ACTIVITIES
Responsible ministry for the nuclear energy programme | |
Ministry of Infrastructure Langusova ulica 4 1535 Ljubljana, Slovenia | tel.: +386 1 478 80 00 fax: +386 1 478 81 39 email: gp.mzi@gov.si www.mzi.gov.si |
National Atomic Energy Authority | |
Slovenian Nuclear Safety Administration Ministry of the Environment and Spatial Planning Litostrojska cesta 54 1000 Ljubljana, Slovenia | tel.: +386 1 472 1100 fax: +386 1 472 1199 email: gp.ursjv@gov.si www.ursjv.gov.si |
Agency for Radioactive Waste Management Celovška cesta 182 1000 Ljubljana, Slovenia | tel.: + 386 1 236 32 00 fax: + 386 1 236 32 30 email: gp.arao@arao.si www.arao.si |
Nuclear research institutes | |
Institute ‘Jožef Stefan’ Jamova cesta 39 1000 Ljubljana, Slovenia | tel.: +386 1 477 39 00 fax: +386 1 251 93 85 email: info@ijs.si www.ijs.si |
Institute ‘Jožef Stefan’ Reactor Centre Podgorica Brinje 40 1262 Dol pri Ljubljani, Slovenia | tel.: +386 1 588 5450 fax: +386 1 588 5377 www.rcp.ijs.si/~ric/index-s.htm |
Energy research institute | |
Milan Vidmar Institute for Power Economy and Electrical Industry Hajdrihova 2 1000 Ljubljana, Slovenia | tel.: +386 1 474 36 01 fax: +386 1 425 33 26 email: info@eimv.si www.eimv.si |
Other nuclear organizations | |
NPP Krško Vrbina 12 8270 Krško, Slovenia | tel.: +386 7 48 02 000 fax: +386 7 4921 006 email: nek@nek.si www.nek.si |
Slovenian Electric Utilities — ELES Hajdrihova 2 1000 Ljubljana, Slovenia | tel.: +386 1 474 3000 fax: +386 1 474 2502 email: info@eles.si www.eles.si |
Milan Copic Nuclear Training Centre Ljubljana Institute ‘Jožef Stefan’ Jamova 39, SI-1001 Ljubljana, Slovenia | Tel.: +386 1 588 52 98 fax: +386 1 588 53 76 email: icjt@ijs.si www.icjt.org |
Nuclear Society of Slovenia (NSS) Jamova 39 1001 Ljubljana, Slovenia | Tel.: +386 1 5885 450 fax: +386 1 5885 377 email: nss@ijs.si www.nss.si |
Other organizations | |
University of Ljubljana Kongresni trg 12 1000 Ljubljana, Slovenia | tel.: +386 1 241 85 00 fax: +386 1 241 86 60 email: rektorat@uni-lj.si https://www.uni-lj.si |
University of Maribor Slomškov trg 15 2000 Maribor, Slovenia | tel.: +386 2 23 55 280 email: rektorat@um.si http://www.um.si |
IJS Science Information Centre Jamova 39 1000 Ljubljana, Slovenia | tel.: +386 1 47 73 304 fax: +386 1 47 73 152 email: info@ijs.si http://library.ijs.si |
Ljubljana Technology Park Tehnološki park 19 1000 Ljubljana, Slovenia | tel.: +386 1 620 34 00 fax: +386 1 620 34 09 email: info@tp-lj.si www.tp-lj.si |
REFERENCES
[1] WORLD ENERGY COUNCIL, World Energy Resources 2016, WEC, London (2016).
[2] INTERNATIONAL ATOMIC ENERGY AGENCY, Governmental, Legal and Regulatory Framework for Safety, IAEA Safety Standard Series No. GSR Part 1 (Rev. 1), IAEA, Vienna (2016).
Report coordinators:
Gregor Plavcak
Ministry of Infrastructure
Langusova 4
1535 Ljubljana
Slovenia
email: gregor.plavcak@gov.si
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Darko Pavlin
Slovenian Nuclear Safety Administration
Litostrojska cesta 54
1000 Ljubljana
Slovenia
email: darko.pavlin@gov.si