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Transposition of Requirements set out in the Basic Safety Standards for Nuclear Facilities in Lithuania Gintautas KLEVINSKAS Albinas MASTAUSKAS Radiation.

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Presentation on theme: "Transposition of Requirements set out in the Basic Safety Standards for Nuclear Facilities in Lithuania Gintautas KLEVINSKAS Albinas MASTAUSKAS Radiation."— Presentation transcript:

1 Transposition of Requirements set out in the Basic Safety Standards for Nuclear Facilities in Lithuania Gintautas KLEVINSKAS Albinas MASTAUSKAS Radiation Protection Centre Kalvariju 153, LT-2042 Vilnius Lithuania 3rd EC/IAEA/ISOE Workshop on “Occupational Exposure Management in Nuclear Power Plants - Tenth Anniversary of the ISOE System”, Portoroz, Slovenia, April 2002

2 Outline The radiation protection requirements established by the relevant Lithuanian radiation protection legislation directly related to nuclear facilities will be discussed during this presentation

3 Ignalina NPP: some figures
Located in north-eastern part of Lithuania, 160 km distance from Vilnius 2 Units, 1 Unit went into operation , 2 Unit Reactor type: RBMK-1500 Projected thermal output MW Projected electrical output - 1500 MW (actual MW) Number of workers - ~ 4500 Natural cooler - Lake Druksiai

4 Regulatory Framework of Radiation Protection
Hierarchical structure of the Lithuanian legislation related to radiation protection

5 Regulatory Framework of Radiation Protection Laws
regulatory documents in force on nuclear safety, radiation protection and radioactive waste management related to nuclear facilities in Lithuania include following laws: Law on Radiation Protection (No. VIII-1019, 1999); Law on Nuclear Energy (No. I-1613, 1996, as amended 1999); Law on the Management of Radioactive Waste (No. VIII-1190, 1999); Law on Environmental Protection (No. I-1352, 1992, No. I-2223, 1996, 1999); other laws

6 Regulatory Framework of Radiation Protection Laws
Law on Radiation Protection, No. VIII-1019 adopted on 12 January 1999 establishes the legal basis for radiation protection allowing to protect people and the environment from the harmful effects of ionizing radiation regulates relations of legal persons, enterprises and natural persons arising from activities involving sources of ionizing radiation and radioactive waste management.

7 Regulatory Framework of Radiation Protection Laws
All practices shall be authorised and conducted in accordance with the basic principles of radiation protection (justification of practices - optimization of exposure - limitation of doses) stated in Article 3 of the Law on Radiation Protection

8 Regulatory Framework of Radiation Protection Regulations
Hygiene Standards and Normative Documents: Hygiene Standard HN 73:2001 "Basic Standards of Radiation Protection" (2001); Hygiene Standard HN 87:2001 "Radiation Protection in Nuclear Power Plant" (2001); Hygiene Standard HN 83:1998 "Radiation Protection and Safety of Outside Workers" (1998); Normative Document LAND 42 – 2001 “Limitation of Radioactive Discharges from Nuclear Facilities, Permitting of Discharges and Order of Radiological Monitoring” (2001) other legal acts

9 Regulatory Framework of Radiation Protection Responsibilities of the Radiation Protection Centre
According to Article 7 of the Law on Radiation Protection: the Radiation Protection Centre is the regulatory body co-ordinating the activities of executive and other bodies of public administration and local government in the field of radiation protection, exercising state supervision and control of radiation protection, monitoring and expert examination of public exposure Established on 1 January, 1997

10 Requirements for Occupational Radiation Protection in Nuclear Power Plant
Lithuanian Hygiene Standard HN 87:2001 “Radiation Protection in Nuclear Power Plant” (approved on 19 February 2001 by the Order No. 120 of the Minister of Health, came into force on 1 April 2001). Sets out requirements for radiation protection of workers working in the nuclear power plant and for radiation protection of members of the public during the nuclear power plant operation The Hygiene Standard is applicable for all legal persons, enterprises and natural persons conducting their activities at the NPP.

11 Requirements for Occupational Radiation Protection in Nuclear Power Plant
According to Article 10 of the Law on Radiation Protection (responsibilities of a licensed legal person), the main responsibilities for ensuring the radiation protection of nuclear power plant workers are delegated to the license holder.

12 Requirements for Occupational Radiation Protection in Nuclear Power Plant: dose limits
Doses of occupational exposure of nuclear power plant workers shall not exceed the dose limits established by HN 73:2001 “Basic Standards of Radiation Protection”. Dose limits for occupational and public exposure are in compliance with the BSS.

13 Dose limits for occupational and public exposure
Effective dose: Occupational Exposure: 100 mSv in a consecutive 5 year period, subject to a maximum effective dose of 50 mSv in any single year Public Exposure: 1 mSv in a year, in special circumstances-up to 5 mSv in a single year provided that the average dose over 5 consecutive years does not exceed 1 mSv per year Annual equivalent dose: Occupational Exposure Public Exposure in the lens of the eye 150 mSv 15 mSv for the skin mSv 50 mSv for the extremities mSv (hands and feet)

14 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Investigation levels and dose constraints The investigation levels shall be established in order to fix the achieved real level of exposure and to ensure optimal measures for protection of workers against the dangers of sources, used during the nuclear power plant operation. Investigation levels shall be regularly reviewed taking into account the radiation protection conditions at the nuclear power plant.

15 Dose constraint for the public
The annual effective dose constraint for the members of public from the operation of nuclear power plant is 0.2 mSv. The dose constraint is used for setting the maximum permitted levels of discharges during the nuclear power plant operation.

16 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme In order to protect workers from the negative impact that may cause the ionizing radiation, the radiation protection programme shall be established in the nuclear power plant. The establishment of a comprehensive radiation protection programme is also recommended by the BSS.

17 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme Following items shall be included in the programme: classification of working areas and access control; local rules, measures of supervision of safety at work and order of organisation of work; procedures of monitoring of workplaces and individual monitoring of workers; individual protective equipment and rules for their application; main premises, control systems for assurance of radiation protection; requiremenets for management of radioactive waste; radiation protection measures applied during the accident; application of optimization principle (ALARA) and measures on exposure reduction; health surveillance of workers; mandatory training of workers and their instructions.

18 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme The premises of the NPP shall be divided into controlled and supervised areas Depending on the dose rate, surface and air contamination levels, the premises of the controlled area are divided into three categories The access to controlled area is restricted by means of physical barriers and is organized through sanitary cleaning points

19 Classification of premises within controlled area of NPP
Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme Classification of premises within controlled area of NPP Category of premises I II III Dose rate, Sv/h > <12  contamination of surface, Bqcm-2 > <4  contamination of surface, Bqcm-2 > <40 Concentration of airborne activity, Bqm > <185

20 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme All procedures within the controlled area, which may cause increased exposure of workers, shall be determined by the license holder and shall be performed by using the appointments-permits and assignments. The license holder is required to make the list of works, which shall be performed according to appointments-permits and assignments.

21 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme Requirements for organisation, implementation, carrying out and improvement of workplace and individual monitoring All workers working within controlled area, depending on radiation situation in workplaces, shall be provided with individual protective equipment

22 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Radiation Protection Programme Requirements for training and instructing: 240, 60 and 30 hours training is required before starting the work first time, for persons responsible for radiation protection and for workers accordingly. The frequency of training is 5 years. The training programs shall be agreed with the Radiation Protection Centre. Medical examination of workers shall be carried out once per year before the starting of activities with sources of ionizing radiation and during the work

23 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Optimization
According to HN 87:2001, the ALARA programme shall be established and implemented in the nuclear power plant The main aim of the ALARA programme is to ensure that the exposure of workers is being kept as low as reasonably achievable, social and economical factors taking into account

24 Requirements for Occupational Radiation Protection in Nuclear Power Plant: Optimization
Following conditions are subject to successful implementation of ALARA programme: proper work organization; improvement of working conditions; improvement of technological processes; training of personnel; implementation of quality assurance programme; improvement of safety culture; evaluation of influence of human errors.

25 The occupational exposure results of Ignalina NPP workers and outside workers during the period from 1995 to 2001

26 Conclusion The requirements of Lithuanian radiation protection legislation directly related to nuclear facilities are in compliance with international requirements and recommendations

27 Acknowledgement I would like to thank the IAEA for the financial support provided for participation in this Workshop

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