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SÄTEILYTURVAKESKUS STRÅLSÄKERHETSCENTRALEN RADIATION AND NUCLEAR SAFETY AUTHORITY LR Feasibility studies Licensing Steps - Olkiluoto 3 schedule Decision in Principle Construction License Operating License Bidding & site preparation Construction May 1998 – – May 2002 – February 2005 ? energy policy nuclear safety Siting including EIA
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SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
Regulatory preparations for the next NPP projects in Finland
Finnish Energy Conference 08
Tampere, 29 October 2008
Lasse ReimanDirector
STUK - Radiation and Nuclear Safety Authority
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR229.10.2008
Olkiluoto NPP (TVO)• 2 operating units - ABB BWRs
• EPR under construction
• EIA done for Olkiluoto 4Loviisa NPP (Fortum)
• 2 operating units - VVERs
• EIA done for Loviisa 3
Fennovoima Ltd• EIA ongoing on 3 alternative sites for a new plant
Nuclear power plants in Finland
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR329.10.2008
Feasibility studies
Licensing Steps - Olkiluoto 3 schedule
Decision in Principle
Construction License
Operating License
Bidding & site preparation
Construction
May 1998 –
– May 2002
– February 2005
?
energy policy
nuclear safety
Siting including EIA
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR429.10.2008
1. Feasibility Studies: Design issues that are chosen by the license applicant are discussed between the vendor, licensee, and regulator (STUK)
• objective of these three party discussions is to identify of possible “show stoppers” from licensing point of view and discuss key safety issues of each design
2. Decision in Principle: Basic design requirements and main safety features of each proposed alternative design are reviewed by STUK
• STUK’s conclusions are formally presented in its preliminary safety assessment
3. Bidding phase: Conclusions in STUK’s preliminary safety assessment are clarified as necessary, and the positions of the respective vendors are discussed between the three parties
Regulatory review of the NPP design is conducted in several phases – in gradually increasing depths
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR529.10.2008
4. Construction License: Design criteria and conceptual design of the plant, safety related systems and systems integration are reviewed before STUK presents it safety assessment – review covers also deterministic safety analysis and Probabilistic Risk Assessment (PRA)
• main design features are assessed at this stage
5. During construction: Detailed design features of systems, structures and components are reviewed − review covers also deterministic safety analysis and PRA revised for “as built” design.
• safety assessment for Operating License is based on review and inspections conducted throughout the construction phase
Regulatory review of the NPP design is conducted in several phases – in gradually increasing depths
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR629.10.2008
1. For Decision in Principle: Strength of license applicants’ and vendors’ organisations for construction and operation of a nuclear power plant.
2. For Construction License: Plans for organising the safety and quality management during the project (licensee, vendor, major contractors, interactions between key organisations).
3. During construction: Performance of the organisations in managing safety and quality issues.
• Oversight of manufacturing and construction to verify that QA and QC activities of licensee, vendor, and the manufacturers are properly conducted
• Regular audits to assess licensee’s and vendor’s safety relevant management processes
STUK reviews also capabilities and management of the involved organisations
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR729.10.2008
Feasibility studies• Feasibility study precedes the actual licensing and is done in
parallel with siting process– Nuclear Energy Act (§ 55): STUK may, upon request by
anyone planning to use nuclear energy, check the plan drawn up by them and issue preliminary instructions on what should be taken into account with respect to safety, physical protection and emergency planning.
– The Act thus gives STUK • a mandate to discuss key safety issues before formal
license application • a possibility to charge utilities for the assessment work
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR829.10.2008
Feasibility studies
• Important aspects to be considered in the feasibility study phase– It is not a licensing phase (there are no formal decisions,
unless explicitly requested by the utility) – Equal treatment of different designs and vendors -
interpretation of safety requirements in different designs– Meetings are carefully documented to avoid
misunderstandings – Open items to be discussed in the future steps of the
licensing are listed
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR929.10.2008
Feasibility study phase - topics under discussion regarding new reactor projects (1)• External threats
– protection against air craft crashes - loads to be considered in the design (penetration, vibrations, fires)
– malevolent acts– severe weather conditions
• Design basis accidents – Identification of most limiting accident(s) for the design, for example
2ALOCA as a design basis accident (environmental qualification, capacities of core cooling systems, loads to be considered in the design of containment and primary components)
– Identification of Design Extension Conditions
• Severe accidents– independent systems and components for severe accident management– hydrogen management and containment design – containment filtered venting system for long term accident management
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1029.10.2008
Feasibility study phase - topics under discussion regarding new reactor projects (2)• Safety classification of systems, structures and components
– scope of SC2 (frontline and their support systems)– use of standardised components in higher safety classes
• Safety systems - application of redundancy, diversity and separation principles– fulfilment of N+2 failure criteria in SC2 systems– diversification of safety functions - diverse means for shutdown, cooling
and radioactivity control in case of loss of dedicated frontline systems – separation requirements between redundancies and between diverse
functions within one redundancy
• Plant layout– physical separation - internal and external hazards
• Design and manufacturing of primary circuit components
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1129.10.2008
Feasibility study phase - topics under discussion regarding new reactor projects (3)• Principles of Electrical and I&C systems design
– architecture - application of defence in depth within the design and fulfilment of independence requirements between different systems
– standards to be applied in the design– safety classification
• Passive plants – safety classification of passive systems and active systems needed to
bring the plant into cold shutdown– criteria and application of failure criteria in a passive plant– definition of controlled state
• Requirements for the use and scope of PRA• Application of national civil construction codes in Finland (size
of accepted steel rebar)• Capabilities and experience of the utility and vendor
– resources and tools for engineering, procurement and construction– special attention to the subcontractor management
• Licensing and oversight activities• Siting issues
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1229.10.2008
Ongoing Feasibility Studies• Teollisuuden Voima Ltd
– Environmental Impact Assessment process for OL4 almost finalised (reactor 1000-1800 MWe) - Statement of the contact authority, Ministry of Employment and the Economy (TEM) has been issued.
– Feasibility studies are ongoing including negotiations between plant vendors and STUK
– Application for Decision in Principle submitted to the Ministry (TEM) in April.
– Designs in the application• ABWR, Toshiba Westinghouse (TWE)• APWR, Mitsubishi Heavy Industry (MHI)• AP1400 Korean Hydro and Nuclear Power (KHNP)• EPR (Areva)• ESBWR, GE Hitachi (GEH)
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1329.10.2008
Ongoing Feasibility Studies• Fortum Power and Heat Ltd
– Feasibility studies ongoing - negotiations between Fortum, Vendors and STUK begun in May 2008
– Schedule:• EIA done in autumn 2008, • Readiness to submit the application for Decision in
Principle to the Ministry during second half of 2008 – Feasibility Studies for following designs:
• ABWR Toshiba Westinghouse (TWE)• AES2006 Atomstroyexport (ASE)• EPR (Areva)• ESBWR GE Hitachi (GEH)
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1429.10.2008
Ongoing Feasibility Studies• Fennovoima Ltd
– Fennovoima is a new Finnish nuclear power company that aims at constructing one or two 1000–1800 MW nuclear power plant units in Finland
– Feasibility studies are ongoing - negotiations between Fennovoima, Vendors and STUK begun in May 2008
– EIA conducted during 2008, application for Decision in Principle to be submitted to the Ministry (TEM) by the end of 2008 or early 2009
– Feasibility Studies for following designs: • ABWR Toshiba Westinghouse (TWE)• EPR (Areva)• SWR1000 (Areva)
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1529.10.2008
Site characterization
• Geology and seismology• Hydrology• Meteorology• Transport routes (sea, land and air routes, pipelines)
– oil and hazardous substances• Industrial activities
– production, storage• Population
Information on the following topics is required for assessing site suitability and for determining plant design values for external events
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1629.10.2008
Meteorology and hydrologyPhenomena considered in design of OL3• Highest and lowest outdoor air temperature
– instantaneous, short term, long term• Air humidity• Extreme wind speed
– including tornadoes (trombs) and downbursts• Seawater temperature
– high temparature– subcooling, frazil ice formation
• Seawater level, extreme high and low– all sites are coastal
• Ice conditions• Precipitation• Snow load • Lightning peak current, rise time etc.• Combinations of correlated events are potentially important
– snow and wind: potential for loss of offsite power and simultaneous failure of diesel generators due to combustion air intake blockage
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1729.10.2008
Principles of emergency zoning• YVL 1.10 Siting criteria
– site area, about 1 km radius
– protective zone, 5 km radius• the essential question is the possibility to evacuate the
population• no hospitals or other facilities difficult to evacuate• no activities that could cause danger to the plant
– detailed emergency planning area, about 20 km radius
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1829.10.2008
Simo, Karsikkoniemi
18
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR1929.10.2008
Pyhäjoki, Hanhikivi
19
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2029.10.2008
Ruotsinpyhtää, Kampuslandet and Gäddbergsö
20
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2129.10.2008
Overall reform of Finnish nuclear safety regulationsThe Nuclear Energy Act is revised• basic safety requirements are moved from the old Government
Decisions to the Act reflecting the new Finnish constitution of 2000 • the Act is completed with physical protection related requirements• requirements on decommissioning added• new Advisory Committee for security issues established• no changes in the licensing process
The new Government Decrees will replace the old Government Decisions• some existing requirements in the YVL Guides moved to the
Decrees• requirements concerning Management Systems revised• experiences from OL 3 project taken into account
– Design Extension Conditions introduced into Finnish regulations
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2229.10.2008
Design Extension ConditionsDesign Extension Conditions refer to events in which a common-cause
failure or a complex combination of failures occurring in the safety systems are related to an initiating event, and which the NPP is expected to withstand without severe fuel damages
Examples of DECs• ATWS• loss of a safety injection system in connection with a small leakage• loss of grid connection and normal emergency electrical power
supply in connection with a small leakage• loss of normal ultimate heat sink (3 days)• loss of digital I&C system/systems• loss of fuel ponds cooling system• rupture of several SG tubes• stuck-open safety relief valve in connection with a primary to
secondary circuit leakage• extreme weather conditions (cliff-edge effects)• airplane crash
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2329.10.2008
Overall reform of the STUK-YVL guidance approachInitiated in 2006 and continues until 2011
• structure of the whole system has been re-evaluated
• standard format for single guides has been developed
• consistent terminology / full coherence with the new Government Decrees and between different guides will be ensured
• experiences from OL3 project will be taken into account
• consideration of IAEA safety standards and WENRA reference requirements
• STUK-YVL Guides are to be applied as such to new NPPs, application to operating plants or plants under construction is considered case by case (no changes in this policy)
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2429.10.2008
5 Nuclear materials and nuclear waste5.1 Procurement of nuclear fuel (V/YMO)5.2 Safeguards control (II/YMA)5.3 Transportation of nuclear materials and nuclear waste (IV/YMA)5.4 Storage of nuclear fuel (III/YMO)5.5 Waste management and decommissioning (IV/YJÄ)5.6 Disposal of nuclear waste (II/YJÄ)
6 Structures and components of nuclear facilities6.1 Fabrication and operation of nuclear fuel (V/MEK)6.2 Mechanical structures and components (III/MEK)6.3 Structures of construction engineering (IV/VLT)6.4 Electrical and automation equipment (IV/VLT)
1 General Safety Requirements 1.1 Regulatory oversight of nuclear facilities (II/VR)
1.2 Definitions applied in STUK-YVL Guides (I/VR)
Structure of new STUK-YVL Guidance Approach
4 Radiation safety of nuclear facilities4.1 Radiation protection of personnel (III/SÄT)4.2 Environmental releases from NPPs (IV/SÄT)4.3 Measurement of environmental releases (IV/SÄT)4.4 Constructive arrangements for radiation safety in nuclear facilities (V/SÄT)
2 Safety management of nuclear facilities2.1 Management systems (IV/NiK)2.2 Personnel (II/NiK)2.3 Construction operations (III/PT)2.4 Operating operations (II/TiE)2.5 Safety assessment (IV/REA) 2.6 Risk management (I/RV)2.7 Manufacturing, inspection and technical support (III/MEK)2.8 Management of modifications (II/TV)2.9 Condition monitoring, maintenance and ageing management (I/PK) 2.10 Physical protection (II/RO) 2.11 Emergency preparedness (I/TS)2.12 Nuclear liability (V/VR)2.13 Reporting (V/OKA)2.14 Operating experience and feedback (III/OKA)
3 Plant and system level design3.1 General design criteria (II/REA)3.2 Safety classification of systems, structures and components (I/KV)3.3 Reactor and nuclear fuel (IV/REA)3.4 Primary circuit (IV/MEK)3.5 Safety systems (III/REA) 3.6 Containment (III/REA)3.7 Internal and external threats (III/VLT)3.8 Fire protection (V/VLT)
Stage I, Pilot study, four guides and definitions, 2006 - 2007Stage II, Eight guides, 2007 - 2008Stages III - V, seven to eight guides in each stage
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2529.10.2008
Organization and Resource ManagementChange of the NRR organization • effective 1 April, 2008• several goals, among them
– to enable growing of the organization– to enable succession planning– to make the organization less vulnerable– to expand the knowledge of superiors– to increase co-operation between the basic organizational
units– to spread decision-making to assistant directors– to develop internal reporting
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2629.10.2008
Organization 1.4.2008
Security
Management Support
Department Services
Structures and Components Assistant Director
Matti Ojanen
Projects and OperationalSafety
Assistant DirectorPetteri Tiippana
Reactor and SafetySystems
Risk Assessment
Electrical andAutomation Systems
Radiation Protection
Nuclear Facilities andSystems
Assistant DirectorKeijo Valtonen
Director Lasse Reiman
Deputy Directors:Marja-Leena Järvinen
Pentti Koutaniemi
MechanicalEngineering
Civil Engineering
ManufacturingTechnique
Organisations andOperation
Projects
Regulation
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2729.10.2008
Organization and Resource Management• STUK’s strategy and long-term action plan (2008-2011) of
NRR renewed in the beginning of this year• Action plan includes for example basic principles for
– development of activities– knowledge management– resource management– actions to promote well-being of the staff
• In addition a separate long-term resource plan of NRR (2008-2013) is made and updated yearly
• Use of TSOs and consultants for short-term activities an important part of RM
• Changes in the regulations and practices need to be considered, too– safety classification– inspections in lower safety classes
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2829.10.2008
Organization and Resource ManagementShort-term RM• as a part of the yearly planning process the work of each
inspector is allocated to different projects for each quadrant of the year
• work-load of inspectors is followed in several ways
Long-term RM• long-term plan takes into account future tasks and
retirements, updated yearly • replacement recruitments typically 1-2 years in advance• essential issue is the scheduling of new NPP projects• in addition to oversight activities, resources are needed for
renewing regulations
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR2929.10.2008
Organization and Resource Management• Net-budgeting is a pre-requisite for flexible practices• Long-term plan does not yet take into account resources
needed for construction of more than one NPP at the same time
• Plan includes about 30 recruitments of which about half are replacements due to retirements
• Three main sources in recruitments– Technical Universities– Technical Research Center of Finland (VTT)– conventional industry
• For each new inspector a personal development plan is made– Basic Professional Training Course on Nuclear Safety (YK)– on-the-job training – mentoring
• National research programs (SAFIR2010) produce experts and basic capabilities into the nuclear field in Finland
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3029.10.2008
NRR long-term resource plan 2009 - 2013
60 61 62 6876
83 88 86100 102 106 107 108 108
0
20
40
60
80
100
120
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3129.10.2008
Age distribution of NRR
0
5
10
15
20
25
30
25-29 30-34 35-39 40-44 45-49 50-54 55-59 60-
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3229.10.2008
Number of Documents Received
1414 1486 1520 1568
2541
3150
3768
4300 42003900
37003400
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000D
ocum
ents
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3329.10.2008
OL3: Number of Documents Received
6
314
928
1394
1967
2450
1900
15001300 1200
0
500
1000
1500
2000
2500
3000
Doc
umen
ts
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3429.10.2008
Conclusions (1)
Regulator’s role in bidding phaseThe licensee and the regulator need to discuss early enough on
how national safety requirements should be included in the call for tenders, to ensure that requirements are clearly defined and accurate – just making reference to national regulatory guides is not adequate.
SÄTEILYTURVAKESKUS • STRÅLSÄKERHETSCENTRALENRADIATION AND NUCLEAR SAFETY AUTHORITY
LR3529.10.2008
Conclusions (2)Preparedness for project implementationPlanning of the project management resources and the assessment
of preparedness of each party to implement a major project in proposed schedule is necessary to avoid unexpected delays – overall human resources, expertise, experience, and
organisation (including QA arrangements) available to the licensee and vendor
– capability of each potential vendor to implement the project– status of each design which is considered as true alternative
The regulator should verify that the licensee has adequate in-house capabilities and has properly evaluated the state of the design, and the design and engineering, manufacturing and constructing resources available to the vendor.
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