Ignalina nuclear power plant decommissioning

In line with accession to the European Union treaty commitments, SE Ignalina Nuclear Power Plant (hereinafter - INPP or enterprise) completely suspended the production of electricity on 31 December 2009. INPP activity has been changed from electricity producer to decommissioning organization while maintaining the status of nuclear facility operating enterprise. 

Two INPP energy units with RBMK - 1500 type (electrical capacity - 1500MW) reactors were closed (Unit 1 was shut down on 31 December 2004, Unit 2 on 31 December 2009) and the decommissioning of the power plant started.

Since 1 January 2010 decommissioning has become the major INPP activity. The main goal of the enterprise is effectively using resources safely and in time to implement the unique project in the world - to terminate the operation of RBMK type plant while maintaining public support for nuclear energy.

The enterprise‘s mission - safely and in time to implement the unique project in the world - to discontinue the operation of RBMK-type plant using resources effectively, while maintaining public support for nuclear energy.

Technical specifications and operating principles of the INPP

The Ignalina Nuclear Power Plant operated the RBMK-1500 water-cooled graphite-moderated channel-type power reactors, which were the world’s most powerful. The thermal power output of one unit was 4800 MW and its electrical power capacity was 1500 MW. After the Chernobyl accident the RBMK-1500 reactors were allowed to be operated with a thermal power output not exceeding 4200 MW. The Ignalina Nuclear Power Plant, like all plants with the reactors of the RBMK type, had a direct cycle configuration,  i.e.  saturated steam generated in the reactor proper as a result of light water passing through the reactor core was fed to the turbine at a pressure of 6.5 MPa. The light water circulated within a closed circuit. The INPP had two power-generating units, both with two turbines of 750 MW capacity each. Each generating unit was provided with a fuel handling system and  control room. The machine room, waste gas treatment and water conditioning rooms were common for both units.

Specific features of the RBMK reactors

The design of the Ignalina nuclear facility is one of the most advanced among those employing the RBMK reactors. In comparison with the Chernobyl NPP, the Ignalina NPP was more powerful, it had an upgraded Accident Confinement System and Emergency Reactor Cooling System. In terms of other parameters the Ignalina NPP is very similar to other NPPs employing RBMK reactors. The reactors of the Ignalina NPP could be classified as the Boiling Water Reactors. The coolant while flowing through the core is brought to the boil and partially evaporated. Past the core, the mixture of steam and water is conveyed to large separator drums installed over the core. Here the steam separated from water is delivered to turbines. The discharge steam is condensed, and the condensate is conveyed by the feed pump to the same separator drum where it mixes with the water previously separated from the steam. The main circulation pumps return the water to the core where it is again partially evaporated. This principal cycle is identical with the cycle of the Boiling Water Reactors widely used across the world. However, in comparison with the NPPs of Western countries employing BWRs, the Ignalina NPP like all other facilities operating the RBMK reactors has several peculiarities. RBMK reactors are of channel type, which means that each fuel assembly is located in a separately cooled fuel channel. In all, there were 1661 fuel channels in INPP. Prior to getting into the core the coolant needed to be evenly distributed among the same number of feeder pipes. Past the core, these pipes are brought together to feed the mixture of steam and water to separator drums.  The RBMK reactors belong to the thermal neutron reactor category. Due to the large number of metal pipes in the core the neutron properties of the reactor become poorer. To improve them, graphite is used in reactors of this type, which moderates (slows down) the fast fission neutrons and absorbs few of them. Fuel assemblies at the Ignalina NPP could be changed without discontinuing the operation of the facility. This is another advantage of the reactors of the channel type. 

The Ignalina  NPP is a complex facility, and compared with facilities of other types  it has numerous other similarities and differences. The mean specific power per core volume of the RBMK reactor is very low in comparison with other types of reactors, which means that no damage will occur to the core for as long as several hours in case of complete or partial failure of electricity supply. This is a feature unique to the RBMK reactors.

  • More information - HERE.

Legislation and relevant links

Ignalina NPP Decommissioning Funds

State Enterprise Ignalina NPP Decommissioning Fund

International Ignalina Decommissioning Support Fund

Related Institutions

Mandatory international peer review of the national framework, competent regulatory authority and national programme is provided in the Council Directive 2011/70/Euratom, establishing a Community framework for the responsible and safe management of spent fuel and radioactive waste, and in the Law on Radioactive Waste Management of the Republic of Lithuania.

Taking into account the provisions of the Directive and the Law in May of 2022, an international peer review of the national framework, competent regulatory authority and national programme was carried out by the ARTEMIS (Integrated Review Service for Radioactive Waste and Spent Fuel Management, Decommissioning and Remediation) mission of the International Atomic Energy Agency (IAEA). During the ARTEMIS mission, the management of radioactive waste and spent nuclear fuel and the decommissioning of the Ignalina nuclear power plant were evaluated. Independent experts from Australia, Belgium, the Czech Republic, Italy, Finland and Germany participated in the mission.

More information: https://www.iaea.org/

Last updated: 15-04-2020