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1.1. |
The Safety Fundamentals publication, Fundamental Safety Principles [1], establishes principles for ensuring the protection of workers, the public and the environment, now and in the future, from harmful effects of ionizing radiation. These principles apply to all situations involving exposure to, or the potential for exposure to, ionizing radiation (hereafter termed ‘radiation’). |
| Main |
1.2. |
Safety assessments are to be undertaken as a means of evaluating compliance with safety requirements (and thereby the application of the fundamental safety principles) for all facilities and activities and to determine the measures that need to be taken to ensure safety. The safety assessments are to be carried out and documented by the organization responsible for operating the facility or conducting the activity, are to be independently verified and are to be submitted to the regulatory body as part of the licensing or authorization process. |
| Main |
1.3. |
The objective of this Safety Requirements publication is to establish the generally applicable requirements to be fulfilled in safety assessment for facilities and activities, with special attention paid to defence in depth, quantitative analyses and the application of a graded approach to the ranges of facilities and of activities that are addressed. The publication also addresses the independent verification of the safety assessment that needs to be carried out by the originators and users of the safety assessment. This publication is intended to provide a consistent and coherent basis for safety assessment across all facilities and activities, which will facilitate the transfer of good practices between organizations conducting safety assessments and will assist in enhancing the confidence of all interested parties that an adequate level of safety has been achieved for facilities and activities. |
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1.4. |
The set of requirements established in this publication wil be supported by more detailed guidance on particular aspects of the safety assessment and safety analysis for specific types of facilities and activities. This publication is aimed at achieving a consistent terminology and identifying differences between the requirements for different types of facility and activity. |
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1.5. |
Implementation of the comprehensive set of requirements established in this Safety Requirements publication will ensure that all the safety relevant issues are considered. However, a graded approach must be taken to the implementation of the requirements, to provide flexibility. Hence, although it is anticipated that all the safety requirements established here are to be complied with, it is recognized that the level of effort to be applied in carrying out the necessary safety assessment needs to be commensurate with the possible radiation risks, and their uncertainties, associated with the facility or activity. |
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1.6. |
The requirements, which are derived from the Fundamental Safety Principles [1], relate to any human activity that may cause people to be exposed to radiation risks arising from facilities and activities, as follows:Nuclear power plants;
Other reactors (such as research reactors and critical assemblies);
Enrichment facilities and fuel fabrication facilities;
Conversion facilities used to generate UF6;
Storage and reprocessing plants for irradiated fuel;
Facilities for radioactive waste management where radioactive waste is treated, conditioned, stored or disposed of;
Any other places where radioactive materials are produced, processed, used, handled or stored;
Irradiation facilities for medical, industrial, research and other purposes, and any places where radiation generators are installed;
Facilities where the mining and processing of radioactive ores (such as ores of uranium and thorium) are carried out.
The production, use, import and export of for industrial, research, medical and other purposes;
The transport of radioactive material;
The decommissioning and dismantling of facilities and the closure of disposal facilities for radioactive waste;
The close-out of facilities where the mining and processing of radioactive ore was carried out;
Activities for radioactive waste management such as the discharge of effluents;
The remediation of sites affected by residual radioactive material from past activities.
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| Main |
1.7. |
Safety assessment plays an important role throughout the lifetime of the facility or activity whenever decisions on safety issues are made by the designers, the constructors, the manufacturers, the operating organization or the regulatory body. The initial development and use of the safety assessment provides the framework for the acquisition of the necessary information to demonstrate compliance with the relevant safety requirements, and for the development and maintenance of the safety assessment over the lifetime of the facility or activity. |
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1.8. |
Stages in the lifetime of a facility or activity for which a safety assessment is carried out, updated and used by the designers, the operating organization and the regulatory body include:Site evaluation for the facility or activity;
Development of the design;
Construction of the facility or implementation of the activity;
Commissioning of the facility or activity;
Commencement of operation of the facility or conduct of the activity;
Normal operation of the facility or normal conduct of the activity;
Modification of the design or operation;
Periodic safety reviews;
Life extension of the facility beyond its original design life;
Changes in ownership or management of the facility;
Decommissioning and dismantling of the facility;
Closure of a disposal facility for of radioactive waste and the post-closure phase;
Remediation of a site and release from regulatory control.
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1.9. |
For many facilities and activities, environmental impact assessments and non-radiological risk assessments will be required before construction or implementation can commence. The assessment of these aspects will, in general, have many commonalities with the safety assessment that is carried out to address associated radiation risks. These different assessments may be combined to save resources and to increase the credibility and acceptability of their results. However, this Safety Requirements publication does not establish requirements for such a combined assessment or make recommendations on how to assess non-radiological hazards. |
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1.10. |
Section 2 provides the basis for requiring a safety assessment to be carried out, derived from the Fundamental Safety Principles [1]. Section 3 describes the graded approach to implementation of the requirements for safety assessment for different facilities and activities. Section 4 establishes the overall requirements for a safety assessment and specific requirements that relate to the assessment of features relevant to safety. Section 4 also establishes the requirements to address defence in depth and safety margins, to perform safety analysis, to document the safety assessment and to carry out an independent verification. Section 5 establishes the requirements for the management, use and maintenance of the safety assessment. |
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2.1. |
Fundamental Safety Principles [1] states that the “The fundamental safety objective is to protect people and the environment from harmful effects of ionizing radiation.” This objective applies to all facilities and activities as described in Section 1, and shall be achieved for all stages in their lifetime without unduly limiting the application of technology. |
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2.2. |
Fundamental Safety Principles [1] establishes ten principles that apply in achieving this fundamental safety objective. This leads, among other things, to the requirement for a safety assessment to be carried out. |
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2.3. |
The text accompanying Principle 3 on leadership and management for safety states that: |
| Main |
2.4. |
Principle 3 further states that: |
| Main |
2.5. |
Principle 5 on the optimization of protection recognizes the need for a graded approach so that: |
| Main |
2.6. |
The safety assessment also provides input into the application of other fundamental principles, as follows:Principle 4 on the justification of facilities and activities: to identify the radiation risks that must be compensated for by the benefits yielded by the facility or activity.
Principle 5 on the optimization of protection: to determine whether the radiation risks that arise from the facility or activity have been reduced to a level that is as low as reasonably achievable when economic and social factors have been taken into account.
Principle 6 on the limitation of risks to individuals: to determine whether the doses and radiation risks have been controlled within specified limits.
Principle 7 on the protection of present and future generations: to determine whether adequate protection is provided not only for local populations but also for populations that are remote from facilities and activities, and for the environment, now and in the future. A safety assessment will provide input into any necessary environmental impact assessment.
Principle 8 on the prevention of accidents: to determine whether all practicable efforts have been made to prevent a loss of control over a nuclear reactor core, nuclear chain reaction, radioactive source or other source of radiation that could give rise to radiation risks.
Principle 9 on emergency preparedness and response: to identify the full range of foreseeable events for which arrangements for emergency preparedness and response need to be considered.
Principle 10 on protective actions to reduce existing or unregulated radiation risks: to determine the magnitude of existing or unregulated radiation risks and to provide an input into the determination of whether proposed protective actions are justified.
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| Main |
2.7. |
Principle 8 on prevention of accidents also states that the primary means of ensuring high levels of safety is to apply defence in depth. In this approach, a number of consecutive and independent levels of protection or physical barriers are provided such that, if one level of protection or barrier were to fail, the subsequent level or barrier would be available. Requirements on the safety assessment of defence in depth are established in paras 4.45–4.48A. |
| Requirement 1: Graded approach to safety assessment |
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A graded approach shall be used in determining the scope and level of detail of the safety assessment carried out at a particular stage for any particular facility or activity, consistent with the magnitude of the possible radiation risks arising from the facility or activity. |
| Requirement 1: Graded approach to safety assessment |
3.1. |
Under Principle 5 of the Fundamental Safety Principles [1], it is stated that "The resources devoted to safety by the licensee, and the scope and stringency of regulations and their application, have to be commensurate with the magnitude of the radiation risks and their amenability to control." To apply this principle, a graded approach shall be taken in carrying out the safety assessments for the wide range of facilities and activities described in Section 1, owing to the very different levels of possible radiation risks associated with them. This allows flexibility in the way that the possible radiation risks are assessed and controlled without unduly limiting the operation of facilities or the conduct of activities. |
| Requirement 1: Graded approach to safety assessment |
3.2. |
A graded approach shall be used in determining the scope and level of detail of the safety assessment carried out at a particular stage for any particular facility or activity, and the resources that need to be directed to it. |
| Requirement 1: Graded approach to safety assessment |
3.3. |
The main factor to be taken into consideration in the application of a graded approach is that the safety assessment shall be consistent with the magnitude of the possible radiation risks arising from the facility or activity. The approach also takes into account any releases of radioactive material in normal operation, the potential consequences of anticipated operational occurrences and possible accident conditions, and the possibility of the occurrence of very low probability events with potentially high consequences. |
| Requirement 1: Graded approach to safety assessment |
3.4. |
Other relevant factors, such as the maturity or complexity of the facility or activity, shall also be taken into account in a graded approach to safety assessment. The consideration of maturity relates to the use of proven practices and procedures and proven designs; data on operational performance of similar facilities or activities; uncertainties in the performance of the facility or activity; and the continuing and future availability of experienced manufacturers and constructors. Complexity relates to:The extent and difficulty of the effort required to construct a facility or to implement an activity;
The number of related processes for which control is necessary;
The extent to which radioactive material has to be handled;
The longevity of the radioactive material;
The reliability and complexity of systems and components;
Their accessibility of structures, systems and components for maintenance, inspection, testing and repair.
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| Requirement 1: Graded approach to safety assessment |
3.5. |
Before starting the safety assessment, judgements shall be made as to the scope and level of detail of the safety assessment for the facility or activity, and the resources that need to be directed to it, and these shall be agreed with the regulatory body. |
| Requirement 1: Graded approach to safety assessment |
3.6. |
The application of the graded approach shall be reassessed as the safety assessment progresses and a better understanding is obtained of the radiation risks arising from the facility or activity. The scope and level of detail of the safety assessment are then modified as necessary and the level of resources to be applied is adjusted accordingly. |
| Requirement 1: Graded approach to safety assessment |
3.7. |
A graded approach shall also be taken in applying the requirements for updating the safety assessment (see para. 5.10). |
| Requirement 2: Scope of the safety assessment |
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A safety assessment shall be carried out for all applications of technology that give rise to radiation risks; that is, for all types of facilities and activities. |
| Requirement 2: Scope of the safety assessment |
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| Requirement 3: Responsibility for the safety assessment |
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The responsibility for carrying out the safety assessment shall rest with the responsible legal person; that is, the person or organization responsible for the facility or activity. |
| Requirement 3: Responsibility for the safety assessment |
4.1. |
In application of the principles established in the Fundamental Safety Principles (Ref. [1], paras 3.15, 3.16), a safety assessment shall be carried out for all applications of technology that give rise to radiation risks; that is, for all types of facilities and activities as described in Section 1, para. 1.6. |
| Requirement 3: Responsibility for the safety assessment |
4.2. |
The responsibility for carrying out the safety assessment shall rests with the responsible legal person; that is, the person or organization responsible for the facility or activity — generally, the person or organization authorized (licensed or registered) to operate the facility or to conduct the activity. The operating organization shall be responsible for the way in which the safety assessment is carried out and for the quality of the results. If the operating organization changes, the responsibility for the safety assessment shall be transferred to the new operating organization. The safety assessment shall be carried out by a team of suitably qualified and experienced people who are knowledgeable about all aspects of safety assessment and analysis that are applicable to the particular facility or activity concerned. |
| Requirement 4: Purpose of the safety assessment |
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The primary purposes of the safety assessment shall be to determine whether an adequate level of safety has been achieved for a facility or activity and whether the basic safety objectives and safety criteria established by the designer, the operating organization and the regulatory body, in compliance with the requirements for protection and safety as established in Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, IAEA Safety Standards Series No. GSR Part 3 have been fulfilled. |
| Requirement 4: Purpose of the safety assessment |
4.3. |
The requirements for protection and safety, as established in Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, IAEA Safety Standards Series No. GSR Part 3 [4] include requirements for the protection of workers and the public against radiation exposure, and other requirements for ensuring the safety of the facility or activity. |
| Requirement 4: Purpose of the safety assessment |
4.4. |
The safety assessment shall include an assessment of the provisions in place for radiation protection, to determine whether radiation risks are being controlled within specified limits and constraints, and whether they have been reduced to a level that is as low as reasonably achievable. This will also provide an input into the application of the other fundamental safety principles, as indicated in Section 2. |
| Requirement 4: Purpose of the safety assessment |
4.5. |
The safety assessment shall address all radiation risks that arise from normal operation (that is, when the facility is operating normally or the activity is being carried out normally) and from anticipated operational occurrences and accident conditions (in which failures or internal or external events have occurred that challenge the safety of the facility or activity). The safety assessment for anticipated operational occurrences and accident conditions shall also address failures that might occur and the consequences of any failures. |
| Requirement 4: Purpose of the safety assessment |
4.6. |
A safety assessment shall be carried out at the design stage for a new facility or activity, or as early as possible in the lifetime of an existing facility or activity. For facilities and activities that continue over long periods of time, the safety assessment shall be updated as necessary through the stages of the lifetime of the facility or activity, so as to take into account possible changes in circumstances (such as the application of new standards or new scientific and technological developments), changes in site characteristics, and modifications to the design or operation, and also the effects of ageing. |
| Requirement 4: Purpose of the safety assessment |
4.7. |
In the updating of the safety assessment, account also shall be taken of operating experience, including data on anticipated operational occurrences and accident conditions and accident precursors, both for the facility or the activity itself and for similar facilities or activities. |
| Requirement 4: Purpose of the safety assessment |
4.8. |
The frequency at which the safety assessment shall be updated is related to the radiation risks associated with the facility or activity, and the extent to which changes are made to the facility or activity. As a minimum, the safety assessment shall be updated in the periodic safety review carried out at predefined intervals in accordance with regulatory requirements. Continuation of operation of such facilities or conduct of such activities is subject to being able to demonstrate in the reassessment, to the satisfaction of the operating organization and the regulatory body, that the safety measures in place remain adequate. |
| Requirement 4: Purpose of the safety assessment |
4.9. |
It shall be determined in the safety assessment whether adequate measures have been taken to control radiation risks to an acceptable level. It shall be determined whether the structures, systems, components and the barriers incorporated into the design fulfil the safety functions required of them. It shall also be determined whether adequate measures have been taken to prevent anticipated operational occurrences and accident conditions, and whether any radiological consequence can be mitigated if accidents do occur. |
| Requirement 4: Purpose of the safety assessment |
4.10. |
The safety assessment shall address all the radiation risks to individuals and population groups that arise from operation of the facility or conduct of the activity. This includes the local population and also population groups that are geographically remote from the facility or activity giving rise to the radiation risks, including population groups in other States, as appropriate. |
| Requirement 4: Purpose of the safety assessment |
4.11. |
The safety assessment shall address radiation risks in the present and in the long term. This is particularly important for activities such as the management of radioactive waste, the effects of which could span many generations. |
| Requirement 4: Purpose of the safety assessment |
4.12. |
It shall be determined in the safety assessment whether adequate defence in depth has been provided, as appropriate, through a combination of several layers of protection (i.e. physical barriers, systems to protect the barriers, and administrative procedures) that would have to fail or to be bypassed before there could be any consequences for people or the environment. |
| Requirement 4: Purpose of the safety assessment |
4.13. |
The safety assessment shall include a safety analysis, which consists of a set of different quantitative analyses for evaluating and assessing challenges to safety by means of deterministic and also probabilistic methods. The scope and level of detail of the safety analysis are determined by use of a graded approach, as described in Section 3. Determination of the scope and level of detail of the safety analysis is an integral part of the safety assessment. |
| Requirement 4: Purpose of the safety assessment |
4.14. |
The calculational methods and computer codes that are used to carry out the safety analysis shall be verified, tested and benchmarked as appropriate to build confidence in their use and their suitability for the intended application. This will form part of the supporting evidence presented in the documentation. As part of the management system, the operating organization and the regulatory body shall seek improvements to the tools and data that are used. |
| Requirement 4: Purpose of the safety assessment |
4.15. |
The results of the safety assessment are used to determine appropriate safety related improvements to the design and operation of the facility or the conduct of the activity. The results will allow assessment of the safety significance of unremedied shortcomings or of planned modifications and may be used to determine priorities for modifications. They may also be used to provide the basis for permitting the continued operation of the facility or conduct of the activity. |
| Requirement 4: Purpose of the safety assessment |
4.16. |
Figure 1 shows the main elements of the process for safety assessment and verification. This process requires that a systematic evaluation of all features of the facility or activity relevant to safety be carried out, and includes:Preparation for the safety assessment, in terms of assembling the expertise, tools and information required to carry out the work;
Identification of the possible radiation risks resulting from normal operation, anticipated operational occurrences or accident conditions;
Identification and assessment of a comprehensive set of safety functions;
Assessment of the site characteristics that relate to the possible radiation risks;
Assessment of the provisions for radiation protection;
Assessment of engineering aspects to determine whether the safety requirements for design relevant to the facility or activity have been met;
Assessment of human factor related aspects of the design and operation of the facility or the planning and conduct of the activity;
Assessment of safety in the longer term, which is of particular concern when ageing effects might develop and might affect safety margins, decommissioning and dismantling of facilities, and closure of disposal facilities for radioactive waste.
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| Requirement 4: Purpose of the safety assessment |
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| Requirement 4: Purpose of the safety assessment |
4.17. |
All the requirements established in this section are applicable in the context of the complexity of, and the radiation risks associated with, the facility or activity. The safety assessment incorporates a graded approach reflecting these considerations, as indicated in para. 1.5 and as required in Section 3. |
| Requirement 5: Preparation for the safety assessment |
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The first stage of carrying out the safety assessment shall be to ensure that the necessary resources, information, data, analytical tools as well as safety criteria are identified and are available. |
| Requirement 5: Preparation for the safety assessment |
4.18. |
The necessary preparations shall be made to ensure that:There are a sufficient number of people with the necessary skills and expertise available to carry out the work, and adequate funding is available.
Background information relating to the location, design, construction, commissioning, operation, decommissioning and dismantling (or closure) of the facility or activity, as relevant, is available, together with any other evidence that is required to support the safety assessment.
The necessary tools for carrying out the safety assessment are available, including the necessary computer codes for carrying out the safety analysis.
The safety criteria defined in national regulations or approved by the regulatory body to be used for judging whether the safety of the facility or activity is adequate have been identified. This could include applicable industrial standards and associated criteria.
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| Requirement 6: Assessment of the possible radiation risks |
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The possible radiation risks associated with the facility or activity shall be identified and assessed. |
| Requirement 6: Assessment of the possible radiation risks |
4.19. |
The possible radiation risks associated with the facility or activity include the level and likelihood of radiation exposure of workers and the public, and of the possible release of radioactive material to the environment, that are associated with anticipated operational occurrences or with accidents that lead to a loss of control over a nuclear reactor core, nuclear chain reaction, radioactive source or any other source of radiation. |
| Requirement 7: Assessment of safety functions |
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All safety functions associated with a facility or activity shall be specified and assessed. |
| Requirement 7: Assessment of safety functions |
4.20. |
All safety functions associated with a facility or activity shall be specified and assessed. This includes the safety functions associated with the engineered structures, systems and components, any physical or natural barriers and inherent safety features as applicable, and any human actions necessary to ensure the safety of the facility or activity. This is a key aspect of assessment, and is vital to the assessment of the application of defence in depth (see paras 4.45–4.51). An assessment is undertaken to determine whether the safety functions can be fulfilled for all normal operational modes (including startup and shutdown where appropriate), all anticipated operational occurrences and the accident conditions to be taken into account. |
| Requirement 7: Assessment of safety functions |
4.21. |
In the assessment of the safety functions, it shall be determined whether they will be performed with an adequate level of reliability, consistent with the graded approach (see Section 3). It shall be determined in the assessment whether the structures, systems and components and the barriers that are provided to perform the safety functions have an adequate level of reliability, redundancy, diversity, separation, segregation, independence and equipment qualification, as appropriate, and whether potential vulnerabilities have been identified and eliminated. |
| Requirement 8: Assessment of site characteristics |
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An assessment of the site characteristics relating to the safety of the facility or activity shall be carried out. |
| Requirement 8: Assessment of site characteristics |
4.22. |
An assessment of the site characteristics relating to the safety of the facility or activity shall be carried out that shall cover:The physical, chemical and radiological characteristics that will affect the dispersion or migration of radioactive material released in normal operation or as a result of anticipated operational occurrences or accident conditions.
Identification of natural and human induced external events in the region that have the potential to affect the safety of facilities and activities. This could include natural external events (such as extreme weather conditions, earthquakes and external flooding) and human induced events (such as aircraft crashes and events due to hazards arising from transport and industrial activities), depending on the possible radiation risks associated with the facilities and activities.
The distribution of the population around the site and its characteristics with regard to any siting policy of the State, the potential for neighbouring States to be affected and the requirement to develop an .
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| Requirement 8: Assessment of site characteristics |
4.23. |
The scope and level of detail of the site assessment shall be consistent with the possible radiation risks associated with the facility or activity, the type of facility to be operated or activity to be conducted, and the purpose of the assessment (e.g. to determine whether a new site is suitable for a facility or activity, to evaluate the safety of an existing site or to assess the long term suitability of a site for waste disposal). The site assessment shall be reviewed periodically over the lifetime of the facility or activity (see para. 5.10). |
| Requirement 9: Assessment of the provisions for radiation protection |
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It shall be determined in the safety assessment for a facility or activity whether adequate measures are in place to protect people and the environment from harmful effects of ionizing radiation. |
| Requirement 9: Assessment of the provisions for radiation protection |
4.24. |
It shall be determined in the safety assessment for a facility or activity whether adequate measures are in place to protect people and the environment from harmful effects of ionizing radiation, as required by the fundamental safety objective [1]. |
| Requirement 9: Assessment of the provisions for radiation protection |
4.25. |
It shall be determined in the safety assessment whether adequate measures are in place to control the radiation exposure of workers and members of the public within relevant dose limits (as required by Principle 6 of the Fundamental Safety Principles [1]), and whether protection is optimized so that the magnitude of individual doses, the number of people exposed and the likelihood of exposures being incurred have all been kept as low as reasonably achievable, economic and social factors having been taken into account (see Principle 5 of the Fundamental Safety Principles [1]). |
| Requirement 9: Assessment of the provisions for radiation protection |
4.26. |
In the safety assessment of the provisions for radiation protection, normal operation of the facility or activity, anticipated operational occurrences and accident conditions shall be addressed. |
| Requirement 10: Assessment of engineering aspects |
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It shall be determined in the safety assessment whether a facility or activity uses, to the extent practicable, structures, systems and components of robust and proven design. |
| Requirement 10: Assessment of engineering aspects |
4.27. |
Relevant operating experience, including results of root cause analysis of operational occurrences, accident conditions and accident precursors where appropriate, shall be taken into account. |
| Requirement 10: Assessment of engineering aspects |
4.28. |
The design principles that have been applied for the facility are identified in the safety assessment, and it shall be determined whether these principles have been met. The design principles applied will depend on the type of facility but they could give rise to requirements to incorporate defence in depth, multiple barriers to the release of radioactive material, and safety margins, and to provide redundancy, diversity and equipment qualification in the design of safety systems. |
| Requirement 10: Assessment of engineering aspects |
4.29. |
Where innovative improvements beyond current practices have been incorporated into the design, it shall be determined in the safety assessment whether compliance with the safety requirements has been demonstrated by an appropriate programme of research, analysis and testing complemented by a subsequent programme of monitoring during operation. |
| Requirement 10: Assessment of engineering aspects |
4.30. |
It shall be determined in the safety assessment whether a suitable safety classification scheme has been formulated and applied to structures, systems and components. It shall be determined whether the safety classification scheme adequately reflects the importance to safety of structures, systems and components, the severity of the consequences of their failure, the requirement for them to be available in anticipated operational occurrences and accident conditions, and the need for them to be adequately qualified. It shall also be determined in the safety assessment whether the scheme identifies the appropriate industry codes and standards and the regulatory requirements to be applied in the design, manufacturing, construction and inspection of engineered features, in the development of procedures and in the management system for the facility or activity. |
| Requirement 10: Assessment of engineering aspects |
4.31. |
The external events that could arise for a facility or activity shall be addressed in the safety assessment, and it shall be determined whether an adequate level of protection against their consequences is provided. This could include natural external events, such as extreme weather conditions, and human induced events, such as aircraft crashes, depending on the possible radiation risks associated with the facility or activity. Where applicable, the magnitude of the external events that the facility is required to be able to withstand (sometimes referred to as design basis external events) shall be established for each type of external event on the basis of historical data for the site for natural external events and a survey of the site and the surrounding area for human induced events. Where appropriate, the safety assessment shall demonstrate that the design is adequately conservative, so that margins are available to withstand external events more severe than those selected for the design basis. |
| Requirement 10: Assessment of engineering aspects |
4.32. |
The internal events that could arise for a facility shall be addressed in the safety assessment, and it shall be demonstrated whether the structures, systems and components are able to perform their safety functions under the loads induced by normal operation and the anticipated operational occurrences and accident conditions that were taken into account explicitly in the design of the facility. Depending on the radiation risks associated with the facility or activity, this could include consideration of specific loads and load combinations, and environmental conditions (e.g. temperature, pressure, humidity and radiation levels) imposed on structures and components as a result of internal events, such as pipe breaks, impingement forces, internal flooding and spraying, internal missiles, load drop, internal explosions and fire. |
| Requirement 10: Assessment of engineering aspects |
4.33. |
It shall be determined in the safety assessment whether the materials used are suitable for their purpose with regard to the standards specified in the design, and for the conditions that arise during normal operation and following anticipated operational occurrences or accident conditions that were taken into account explicitly in the design of the facility or activity. |
| Requirement 10: Assessment of engineering aspects |
4.34. |
It shall be addressed in the safety assessment whether preference has been given to a fail-safe design or, if this is not practicable, whether an effective means of detecting failures that occur has been incorporated wherever appropriate. |
| Requirement 10: Assessment of engineering aspects |
4.35. |
It shall be determined in the safety assessment whether any time related aspects, such as ageing and wear, or life limiting factors, such as cumulative fatigue, embrittlement, corrosion, chemical decomposition and radiation induced damage, have been adequately addressed. This shall include the assessment of ageing management programmes for nuclear facilities. |
| Requirement 10: Assessment of engineering aspects |
4.36. |
It shall be determined in the safety assessment whether equipment essential to safety has been qualified to a sufficiently high level that it will be able to perform its safety function in the conditions that would be encountered in normal operation, and following anticipated operational occurrences and accident conditions that were taken into account in the design, and in conditions that may arise as a result of external events that were taken into account in the design. |
| Requirement 10: Assessment of engineering aspects |
4.36A. |
For sites with multiple facilities or multiple activities, account shall be taken in the safety assessment of the effects of external events on all facilities and activities, including the possibility of concurrent events affecting different facilities and activities, and of the potential hazards presented by each facility or activity to the others. |
| Requirement 10: Assessment of engineering aspects |
4.36B. |
For facilities on a site that would share resources (whether human resources or material resources) in accident conditions, the safety assessment shall demonstrate that the required safety functions can be fulfilled at each facility in accident conditions. |
| Requirement 10: Assessment of engineering aspects |
4.37. |
The provisions made for the decommissioning and dismantling of a facility or for the closure of a disposal facility for radioactive waste shall be specified, and it shall be determined in the safety assessment whether they are adequate. |
| Requirement 11: Assessment of human factors |
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Human interactions with the facility or activity shall be addressed in the safety assessment, and it shall be determined whether the procedures and safety measures that are provided for all normal operational activities, in particular those that are necessary for implementation of the operational limits and conditions, and those that are required for responding to anticipated operational occurrences and to accident conditions, ensure an adequate level of safety. |
| Requirement 11: Assessment of human factors |
4.38. |
Whenever the safety of facilities and activities depends on human actions, including actions taken in accident conditions, human interactions with the facility or activity shall be assessed. |
| Requirement 11: Assessment of human factors |
4.39. |
It shall be evaluated in the safety assessment whether personnel competences, the associated training programmes and the specified minimum staffing levels for maintaining safety are adequate. |
| Requirement 11: Assessment of human factors |
4.40. |
It shall be determined in the safety assessment whether requirements relating to human factors were addressed in the design and operation of a facility or in the way in which an activity is conducted. This includes those human factors relating to ergonomic design in all areas and to human–machine interfaces where activities are carried out. |
| Requirement 11: Assessment of human factors |
4.41. |
For existing facilities and activities, aspects of safety culture shall be included in the safety assessment as appropriate. |
| Requirement 12: Assessment of safety over the lifetime of a facility or activity |
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The safety assessment shall cover all the stages in the lifetime of a facility or activity in which there are possible radiation risks. |
| Requirement 12: Assessment of safety over the lifetime of a facility or activity |
4.42. |
A safety assessment is carried out at the design stage for a new facility or activity. The safety assessment shall cover all the stages in the lifetime of a facility or activity in which there are possible radiation risks (see para. 1.8). The assessment includes activities that are carried out over a long period of time, such as the decommissioning and dismantling of a facility, the long term storage of radioactive waste, and activities in the post-closure phase of a disposal facility for radioactive waste in significant quantities, and the time at which such activities are conducted (that is, whether they are conducted early or deferred to a later time when radiation levels are lower). |
| Requirement 12: Assessment of safety over the lifetime of a facility or activity |
4.43. |
In the case of a disposal facility for radioactive waste in significant quantities, radiation risks shall be considered for the post-closure phase. Radiation risks following closure of the disposal facility may arise from gradual processes, such as the degradation of barriers, and from discrete events that could affect isolation of the waste, such as inadvertent human intrusion or abrupt changes in geological conditions. |
| Requirement 12: Assessment of safety over the lifetime of a facility or activity |
4.44. |
The Specific Safety Requirements publication on Disposal of Radioactive Waste [6] requires, in view of the uncertainties inherent in postulating events, that reasonable assurance of compliance with the safety requirements relating to long term hazards be obtained, such as by the use of multiple lines of reasoning. Reasonable assurance of compliance is obtained by supplementing the quantitative estimates of performance of the disposal facility with qualitative evidence that the disposal facility as designed will provide containment and isolation (confinement) of the waste. |
| Requirement 13: Assessment of defence in depth |
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It shall be determined in the assessment of defence in depth whether adequate provisions have been made at each of the levels of defence in depth. |
| Requirement 13: Assessment of defence in depth |
4.45. |
It shall be determined in the assessment of defence in depth whether adequate provisions have been made at each of the levels of defence in depth to ensure that the person or organization responsible for the facility can:Address deviations from normal operation or, in the case of a disposal facility, from its expected evolution in the long term;
Detect and terminate safety related deviations from normal operation or from its expected evolution in the long term, should deviations occur;
Control accidents within the limits specified in the design;
Specify measures to mitigate the consequences of accidents that exceed design limits;
Mitigate radiation risks associated with possible releases of radioactive material.
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| Requirement 13: Assessment of defence in depth |
4.46. |
The necessary layers of protection, including physical barriers to confine radioactive material at specific locations, and the necessary supporting administrative controls for achieving defence in depth shall be identified in the safety assessment. This shall include identification of:Safety functions that must be fulfilled;
Potential challenges to these safety functions;
Mechanisms that give rise to these challenges, and the necessary responses to them;
Provisions made to prevent these mechanisms from occurring;
Provisions made to identify or monitor deterioration caused by these mechanisms, if practicable;
Provisions for mitigating the consequences if the safety functions fail.
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| Requirement 13: Assessment of defence in depth |
4.47. |
To determine whether defence in depth has been adequately implemented, it shall be determined in the safety assessment whether:Priority has been given to: reducing the number of challenges to the integrity of layers of protection and physical barriers; preventing the failure or bypass of a barrier when challenged; preventing the failure of one barrier leading to the failure of another barrier; and preventing significant releases of radioactive material if failure of a barrier does occur;
The layers of protection and physical barriers are independent of one another as far as practicable;
Special attention has been paid to internal and external events that have the potential to adversely affect more than one barrier at once or to cause simultaneous failures of safety systems;
Specific measures have been implemented to ensure reliability and effectiveness of the required levels of defence.
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| Requirement 13: Assessment of defence in depth |
4.48. |
It shall be determined in the safety assessment whether there are adequate safety margins in the design and operation of the facility, or in the conduct of the activity in normal operation and in anticipated operational occurrences or accident conditions, such that there is a wide margin to failure of any structures, systems and components for any of the anticipated operational occurrences or any possible accident conditions. Safety margins are typically specified in codes and standards as well as by the regulatory body. It shall be determined in the safety assessment whether acceptance criteria for each aspect of the safety analysis are such that an adequate safety margin is ensured. |
| Requirement 13: Assessment of defence in depth |
4.48A. |
Where practicable, the safety assessment shall confirm that there are adequate margins to avoid cliff edge effects that would have unacceptable consequences. |
| Requirement 14: Scope of the safety analysis |
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The performance of a facility or activity in all operational states and, as necessary, in the post-operational phase shall be assessed in the safety analysis. |
| Requirement 14: Scope of the safety analysis |
4.49. |
It shall be determined in the safety analysis whether the facility or activity is in compliance with the relevant safety requirements and regulatory requirements. |
| Requirement 14: Scope of the safety analysis |
4.50. |
The consequences arising from all conditions in normal operation (including startup and shutdown, where appropriate) and the frequencies and consequences associated with all anticipated operational occurrences and accident conditions shall be addressed in the safety analysis. The analysis shall be performed to a scope and level of detail that correspond to the magnitude of the radiation risks associated with the facility or activity, the frequency of the events included in the safety analysis, the complexity of the facility or activity, and the uncertainties inherent in the processes that are included in the safety analysis. The analysis of accidents shall also be made for the purposes of emergency preparedness. |
| Requirement 14: Scope of the safety analysis |
4.51. |
Anticipated operational occurrences and accident conditions that challenge safety shall be identified in the safety analysis. This includes all internal and external events and processes that may have consequences for physical barriers for confining radioactive material or that otherwise give rise to radiation risks. The features, events and processes to be considered in the safety analysis shall be selected on the basis of a systematic, logical and structured approach, and justification shall be provided that the identification of all scenarios relevant for safety is sufficiently comprehensive. The analysis shall be based on an appropriate grouping and bounding of the events and processes, and partial failures of components or barriers as well as complete failures shall be considered. |
| Requirement 14: Scope of the safety analysis |
4.52. |
Relevant operating experience shall be taken into account in the safety analysis. This includes operating experience from the actual facility or activity, where available, and operating experience from similar facilities and activities. It also includes consideration of the anticipated operational occurrences and accident conditions that have arisen during operation of the facility or conduct of the activity. The aim of this will be to determine the cause of the anticipated operational occurrences or accident conditions, their possible effects, their significance and the effectiveness of the proposed corrective actions. |
| Requirement 15: Deterministic and probabilistic approaches |
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Both deterministic and probabilistic approaches shall be included in the safety analysis. |
| Requirement 15: Deterministic and probabilistic approaches |
4.53. |
Deterministic and probabilistic approaches have been shown to complement one another and can be used together to provide input into an integrated decision making process. The extent of the deterministic and probabilistic analyses carried out for a facility or activity shall be consistent with the graded approach. |
| Requirement 15: Deterministic and probabilistic approaches |
4.54. |
The aim of the deterministic approach is to specify and apply a set of deterministic rules and requirements for the design and operation of facilities or for the planning and conduct of activities. When these rules and requirements are met, they are expected to provide a high degree of confidence that the level of radiation risks to workers and members of the public arising from the facility or activity will be acceptably low. Conservatism in the deterministic approach compensates for uncertainties, such as uncertainties in the performance of equipment and in the performance of personnel, by providing a sufficient safety margin. |
| Requirement 15: Deterministic and probabilistic approaches |
4.55. |
The objectives of a probabilistic safety analysis are to determine all significant contributing factors to the radiation risks arising from a facility or activity, and to evaluate the extent to which the overall design is well balanced and meets probabilistic safety criteria where these have been defined. In the area of reactor safety, probabilistic safety analysis uses a comprehensive, structured approach to identify failure scenarios. It constitutes a conceptual and mathematical tool for deriving numerical estimates of risk. The probabilistic approach uses realistic assumptions whenever possible and provides a framework for addressing many of the uncertainties explicitly. Probabilistic approaches may provide insights into system performance, reliability, interactions and weaknesses in the design, the application of defence in depth, and risks, that it may not be possible to derive from a deterministic analysis. |
| Requirement 15: Deterministic and probabilistic approaches |
4.56. |
Improvements in the overall approach to safety analysis have permitted a better integration of deterministic and probabilistic approaches. With increasing quality of models and data, it is possible to develop more realistic deterministic analysis and to make use of information from probabilistic analysis in selecting accident scenarios. Increasing emphasis is being placed on specifying how compliance with the deterministic safety criteria is to be demonstrated, for example, by specifying confidence intervals and specifying how safety margins are set. |
| Requirement 16: Criteria for judging safety |
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Criteria for judging safety shall be defined for the safety analysis. |
| Requirement 16: Criteria for judging safety |
4.57. |
Criteria for judging safety, sufficient to meet the fundamental safety objective and to apply the fundamental safety principles established in the Safety Fundamentals [1] as well as to meet the requirements of the designer, the operating organization and the regulatory body, shall be defined for the safety analysis. In addition, detailed criteria may be developed to assist in assessing compliance with these higher level objectives, principles and requirements, including risk criteria that relate to the likelihood of anticipated operational occurrences or the likelihood of accidents occurring that give rise to significant radiation risks. |
| Requirement 17: Uncertainty and sensitivity analysis |
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Uncertainty and sensitivity analysis shall be performed and taken into account in the results of the safety analysis and the conclusions drawn from it. |
| Requirement 17: Uncertainty and sensitivity analysis |
4.58. |
The safety analysis incorporates, to varying degrees, predictions of the circumstances that will prevail in the operational or post-operational stages of a facility or activity. There will always be uncertainties associated with such predictions that will depend on the nature of the facility or activity and the complexity of the safety analysis. These uncertainties shall be taken into account in the results of the safety analysis and the conclusions drawn from it. |
| Requirement 17: Uncertainty and sensitivity analysis |
4.59. |
Uncertainties in the safety analysis shall be characterized with respect to their source, nature and degree, using quantitative methods, professional judgement or both. Uncertainties that may have implications for the outcome of the safety analysis and for decisions made on that basis shall be addressed in uncertainty and sensitivity analyses. Uncertainty analysis refers mainly to the statistical combination and propagation of uncertainties in data, whereas sensitivity analysis refers to the sensitivity of results to major assumptions about parameters, scenarios or modelling. |
| Requirement 18: Use of computer codes |
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Any calculational methods and computer codes used in the safety analysis shall undergo verification and validation. |
| Requirement 18: Use of computer codes |
4.60. |
Any calculational methods and computer codes used in the safety analysis shall undergo verification and validation to a sufficient degree. Model verification is the process of determining that a computational model correctly implements the intended conceptual model or mathematical model; that is, whether the controlling physical equations and data have been correctly translated into the computer codes. System code verification is the review of source coding in relation to its description in the system code documentation. Model validation is the process of determining whether a mathematical model is an adequate representation of the real system being modelled, by comparing the predictions of the model with observations of the real system or with experimental data. System code validation is the assessment of the accuracy of values predicted by the system code against relevant experimental data for the important phenomena expected to occur. The uncertainties, approximations made in the models, and shortcomings in the models and the underlying basis of data, and how these are to be taken into account in the safety analysis, shall all be identified and specified in the validation process. In addition, it shall be ensured that users of the code have sufficient experience in the application of the code to the type of facility or activity to be analysed. |
| Requirement 19: Use of operating experience data |
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Data on operational safety performance shall be collected and assessed. |
| Requirement 19: Use of operating experience data |
4.61. |
If warranted by the possible radiation risks associated with a facility or activity, data on operational safety performance shall be collected and assessed, including records of incidents such as human errors, the performance of safety systems, radiation doses, and the generation of radioactive waste and effluents. The scope of the data to be collected for facilities and activities shall be in accordance with the graded approach. For complex facilities, data shall be collected on the basis of a set of safety performance indicators that have been established for the facility. Data on operating experience shall be used, as appropriate, to update the safety assessment and to review the management systems; this is described further in Section 5. |
| Requirement 20: Documentation of the safety assessment |
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The results and findings of the safety assessment shall be documented. |
| Requirement 20: Documentation of the safety assessment |
4.62. |
The results and findings of the safety assessment shall be documented, as appropriate, in the form of a safety report that reflects the complexity of the facility or activity and the radiation risks associated with it. The safety report presents the assessments and the analyses that have been carried out for the purposes of demonstrating that the facility or activity is in compliance with the fundamental safety principles and the requirements established in this Safety Requirements publication, and with any other safety requirements as established in national laws and regulations. |
| Requirement 20: Documentation of the safety assessment |
4.63. |
The quantitative and qualitative outcomes of the safety assessment form the basis for the safety report. The outcomes of the safety assessment are supplemented by supporting evidence for and reasoning about the robustness and reliability of the safety assessment and its assumptions, including information on the performance of individual components of systems as appropriate. |
| Requirement 20: Documentation of the safety assessment |
4.64. |
The safety report shall document the safety assessment in sufficient scope and detail to support the conclusions reached and to provide an adequate input into independent verification and regulatory review. The safety report includes:A justification for the selection of the anticipated operational occurrences and accident conditions considered in the analysis;
An overview and necessary details of the collection of data, the modelling, the computer codes and the assumptions made;
Criteria used for the evaluation of the modelling results;
Results of the analysis covering the performance of the facility or activity, the radiation risks incurred and a discussion of the underlying uncertainties;
Conclusions on the acceptability of the level of safety achieved and the identification of necessary improvements and additional measures.
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| Requirement 20: Documentation of the safety assessment |
4.65. |
The safety report shall be updated as necessary. The safety report shall be retained until the facility has been fully decommissioned and dismantled or the activity has been terminated and released from regulatory control. For a disposal facility for radioactive waste, the safety report shall be retained for an extended period of time after closure of the disposal facility. |
| Requirement 21: Independent verification |
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The operating organization shall carry out an independent verification of the safety assessment before it is used by the operating organization or submitted to the regulatory body. |
| Requirement 21: Independent verification |
4.66. |
The operating organization shall carry out an independent verification to increase the level of confidence in the safety assessment before it is used by the operating organization or submitted to the regulatory body. |
| Requirement 21: Independent verification |
4.67. |
The independent verification shall be performed by suitably qualified and experienced individuals or a group different from those who carried out the safety assessment. The aim of independent verification is to determine whether the safety assessment has been carried out in an acceptable way. |
| Requirement 21: Independent verification |
4.68. |
The decisions made on the scope and level of detail of the independent verification shall be reviewed in the independent verification itself, to ensure that they are consistent with the graded approach and reflect the possible radiation risks associated with the facility or activity, and its maturity and complexity (see para. 3.4). |
| Requirement 21: Independent verification |
4.69. |
The independent verification shall combine an overall review, to determine whether the safety assessment carried out is comprehensive, with spot checks in which a much more detailed review is carried out that focuses on those aspects of the safety assessment that have the highest impact on the radiation risks arising from the facility or activity. It shall be considered in the independent verification whether there are any contributions to radiation risks that have not been taken into account. |
| Requirement 21: Independent verification |
4.70. |
It shall be determined in the independent verification whether the models and data used are accurate representations of the design and operation of the facility or the planning and conduct of the activity. |
| Requirement 21: Independent verification |
4.71. |
In addition, the regulatory body shall carry out a separate independent verification to satisfy itself that the safety assessment is acceptable and to determine whether it provides an adequate demonstration of whether the legal and regulatory requirements are being met. The verification by the regulatory body is not part of the operating organization’s process and is not to be used or claimed by the operating organization as part of its independent verification. |
| Requirement 22: Management of the safety assessment |
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The processes by which the safety assessment is produced shall be planned, organized, applied, audited and reviewed. |
| Requirement 22: Management of the safety assessment |
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| Requirement 23: Use of the safety assessment |
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The results of the safety assessment shall be used to specify the programme for maintenance, surveillance and inspection; to specify the procedures to be put in place for all operational activities significant to safety and for responding to anticipated operational occurrences and accidents; to specify the necessary competences for the staff involved in the facility or activity and to make decisions in an integrated, risk informed approach. |
| Requirement 23: Use of the safety assessment |
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| Requirement 24: Maintenance of the safety assessment |
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The safety assessment shall be periodically reviewed and updated. |
| Requirement 24: Maintenance of the safety assessment |
5.1. |
The safety assessment is key to enabling the operating organization to manage facilities and activities safely. It is also a vital input to the safety report required to demonstrate compliance with regulatory requirements. |
| Requirement 24: Maintenance of the safety assessment |
5.2. |
The safety assessment in itself cannot achieve safety. Safety can only be achieved if the input assumptions are valid, the derived limits and conditions are implemented and maintained, and the assessment reflects the facility or activity as it actually is at any point in time. Facilities and activities change and evolve over their lifetimes (e.g. through construction, commissioning, operation, and decommissioning and dismantling or closure) and with modifications, improvements and effects of ageing. Knowledge and understanding also advance with time and experience. The safety assessment shall be updated to reflect such changes and to remain valid. Updating of the safety assessment is also important in order to provide a baseline for the future evaluation of monitoring data and performance indicators and, for facilities for the storage and disposal of radioactive waste, to provide an appropriate record for reference with regard to future use of the site. |
| Requirement 24: Maintenance of the safety assessment |
5.3. |
The safety assessment shall be reviewed to identify the input assumptions for which compliance is to be ensured by means of appropriate controls for safety management. |
| Requirement 24: Maintenance of the safety assessment |
5.4. |
The safety assessment provides one of the inputs to the definition of the limits and conditions that are to be implemented by means of suitable procedures and controls. These procedures and controls shall include a means for monitoring to ensure that the limits and conditions are complied with at all times. |
| Requirement 24: Maintenance of the safety assessment |
5.5. |
The results of the safety assessment shall be used to specify the programme for maintenance, surveillance and inspection to be established, which will use procedures and controls that are auditable to ensure that:All necessary conditions are maintained;
All structures, systems and components maintain their integrity and functional capability over their required lifetime.
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| Requirement 24: Maintenance of the safety assessment |
5.6. |
The results of the safety assessment shall be used to specify the procedures to be put in place for all operational activities significant to safety and for responding to anticipated operational occurrences and to accident conditions. The results of the safety assessment shall be used as an input into planning for on-site and off-site emergency response [7] and accident management. |
| Requirement 24: Maintenance of the safety assessment |
5.7. |
The results of the safety assessment shall be used to specify the necessary competences for the staff involved in the facility or activity, which are used to inform their training, control and supervision. |
| Requirement 24: Maintenance of the safety assessment |
5.8. |
The results of the safety assessment shall be used to make decisions in an integrated, risk informed approach, by means of which the results and insights from the deterministic and probabilistic assessments and any other requirements are combined in making decisions on safety matters in relation to the facility or activity. |
| Requirement 24: Maintenance of the safety assessment |
5.9. |
Since the safety assessment provides such an important input into the management system for facilities and activities, the processes by which it is produced shall be planned, organized, applied, audited and reviewed in a way that is in accordance with the graded approach. Consideration shall also be given to ways in which results and insights from the safety assessment may best be communicated to a wide range of interested parties, including the designers, the operating organization, the regulatory body and other professionals. Communication of the results from the safety assessment to interested parties shall be commensurate with the possible radiation risks arising from the facility or activity and the complexity of the models and tools used. |
| Requirement 24: Maintenance of the safety assessment |
5.10. |
The safety assessment shall be periodically reviewed and updated at predefined intervals in accordance with regulatory requirements. Periodic review may need to be carried out more frequently to take into account:Any changes that may significantly affect the safety of the facility or activity;
Significant developments in knowledge and understanding (such as developments arising from research or operating experience);
Emerging safety issues due to a regulatory concern or a significant incident;
Safety significant modifications to the computer codes, or changes in the input data used in the safety analysis.
EUROPEAN ATOMIC ENERGY COMMUNITY, FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS, INTERNATIONAL ATOMIC ENERGY AGENCY, INTERNATIONAL LABOUR ORGANIZATION, INTERNATIONAL MARITIME ORGANIZATION, OECD NUCLEAR ENERGY AGENCY, PAN AMERICAN HEALTH ORGANIZATION, UNITED NATIONS ENVIRONMENT PROGRAMME, WORLD HEALTH ORGANIZATION, Fundamental Safety Principles, IAEA Safety Standards Series No. SF-1, IAEA, Vienna (2006). INTERNATIONAL ATOMIC ENERGY AGENCY, Governmental, Legal and Regulatory Framework for Safety, IAEA Safety Standards Series No. GSR Part 1 (Rev. 1), IAEA, Vienna (2016). INTERNATIONAL ATOMIC ENERGY AGENCY, Regulations for the Safe Transport of Radioactive Material, 2012 Edition, IAEA Safety Standards Series No. SSR-6, IAEA, Vienna (2012). EUROPEAN COMMISSION, FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS, INTERNATIONAL ATOMIC ENERGY AGENCY, INTERNATIONAL LABOUR ORGANIZATION, OECD NUCLEAR ENERGY AGENCY, PAN AMERICAN HEALTH ORGANIZATION, UNITED NATIONS ENVIRONMENT PROGRAMME, WORLD HEALTH ORGANIZATION, Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, IAEA Safety Standards Series No. GSR Part 3, IAEA, Vienna (2014). INTERNATIONAL ATOMIC ENERGY AGENCY, IAEA Safety Glossary: Terminology Used in Nuclear Safety and Radiation Protection (2007 Edition), IAEA, Vienna (2007). INTERNATIONAL ATOMIC ENERGY AGENCY, Disposal of Radioactive Waste, IAEA Safety Standards Series No. SSR-5, IAEA, Vienna (2011). FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS, INTERNATIONAL ATOMIC ENERGY AGENCY, INTERNATIONAL CIVIL AVIATION ORGANIZATION, INTERNATIONAL LABOUR ORGANIZATION, INTERNATIONAL MARITIME ORGANIZATION, INTERPOL, OECD NUCLEAR ENERGY AGENCY, PAN AMERICAN HEALTH ORGANIZATION, PREPARATORY COMMISSION FOR THE COMPREHENSIVE NUCLEAR-TEST-BAN TREATY, UNITED NATIONS OFFICE FOR THE CO-ORDINATION OF HUMANITARIAN AFFAIRS, WORLD HEALTH ORGANIZATION, WORLD METEOROLOGICAL ORGANIZATION, Preparedness and Response for a Nuclear or Radiological Emergency, IAEA Safety Standards Series No. GSR Part 7, IAEA, Vienna (2015).
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