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Date: 31st March 2011 Contact Email: [email protected]
Presented by : Dr Matt Randall
Performance Assessment
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Shareholder Executive NNL Ltd Board - Chair, 2 Non-
Execs, 3 Execs
Management Contract
• Management Secondees
• Reach-back
• 3yr+1yr+1yr contract
• Deliver Strategic and Business Plans
Executive Leadership Team
Introducing the NNL – A UK Government Owned Contractor Operated (GOCO) Organisation Department of Energy and
Climate Change (DECC)
Environmental Services Team
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• 1954 –
• 1971 –
• 1996 –
• 1998 –
• 2003 –
• 2003 –
• 2005 –
• 2006 –
• 2008 –
UKAEA formed to oversee the nation’s nuclear research programme
BNFL formed
R&T division
Magnox integration
NSTS established
Acquired AEAT nuclear science business
Nexia Solutions Limited launched
UK Government announces intention to establish National Nuclear Laboratory, based around Nexia Solutions NNL formed
Our heritage
Environmental Services Team
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NNL Environmental Capability
• Provides a broad and comprehensive range of technical services covering all aspects of nuclear site operations.
• Extensive experience of working and delivering in a tightly regulated environment
Capabilities and expertise includes: • Contaminated Land Assessment and Remediation
• Site Characterisation and monitoring
• Environmental risk assessment/Environmental safety cases
• Radioactive waste management and disposal
• Regulatory Permissioning
• Effluent treatment
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Presentation outline
•Geological Disposal Facility (GDF)
•Safety Case and performance assessment
•Regulatory Context
•Performance assessment process
•Representation of radionuclide behaviour in performance assessments
•Examples
•Summary
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Geological Disposal Facility
• A site has been selected for a GDF
• What needs to be considered in order to operate the facility
• Understanding of the wastes – Level of characterisation
– Have they been treated?
– How have they been packaged?
• An authorisation process needs to be undertaken
– Safety assessment
– Safety Case
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Some definitions (1)
“Safety assessment is the evaluation of long-term performance, of compliance with acceptance guidelines and of confidence in the safety indicated by the assessment results”
“A safety case is a collection of arguments, at a given stage of repository development, in support of the long-term safety of the repository. A safety case comprises the findings of a safety assessment and a statement of confidence in these findings. It should acknowledge the existence of any unresolved issues and provide guidance for work to resolve these issues in future development stages”
NEA, 1999
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The safety case and safety assessment
SAFETY ASSESSMENT
Assessment of features relevant to safety
SAFETY FUNCTIONS
SITE CHARACTERISTICS
ENGINEERING
PROCEDURES & OPERATIONAL SAFETY
LONG TERM SAFETY
AS
SE
SS
ME
NT
OF D
EFE
NC
E
IN D
EP
TH
SAFETY CASE
Limits and conditions
Supporting evidence and reasoning for the robustness and reliability of the safety
assessment and its assumptions
Maintenance and inspection
Management systems
Emergency preparedness
Safety Analysis •deterministic •probabilistic
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The safety case and safety assessment
• Periods of concern:
• Pre-operational period: – Site selection, design and construction of the disposal facility
• Operational period: – From site development until closure
• Post-closure period: – Begins the moment the site is closed
– Institutional control period (control disposal site and its use)
– Post-institutional control period (controls no longer in place)
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UK Regulatory Context
• Guidance on Requirements for Authorisation. New version issued 2009 - replaced version issued 1997
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Principles and requirements
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Key features
•High level key features of a PA include • aimed at synthesising system understanding
• based on underpinning studies (eg site characterisation research, modelling),
• involves the development and use of (highly) simplified models of reality (“total system model”)
• these models are used as tools to analyse system performance in support of decision making / or demonstration of meeting regulatory requirements
•Scope and detailed methodology is highly dependent on the “assessment context”
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Assessment process
IAEA ISAM Model development and implementation process
Assessment context
System description
Scenario development
Conceptual models
Mathematical models
Implementation of mathematical
models in computer
tool(s)
System data and
understanding
Model parameter
values
Model formulation
and implementation
(Step 4 of the ISAM Safety Assessment Approach)
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Assessment context
• The purpose of the assessment (eg to support Safety Case)
• The regulatory framework / criteria (eg GRA)
• Facility / site management assumptions (eg facility design, institutional control)
• Assessment end points (eg: dose/risk, flux, environmental concentrations, receptors considered, rad vs non-rad contaminants)
• Assessment philosophy (eg: realism vs conservatism, treatment of uncertainty)
• Previous iterations of the assessments
• Timeframe
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Example showing linkages between the assessment process and factors that are determined by the assessment context
(IAEA, 2009)
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System description - Pollutant linkages
• Assessments generally based on a Source-Pathway-Receptor (S-P-R) model
• Source: Release function (eg leaks and leaching from waste)
• Pathway: Means by which released activity is transmitted to Receptor (eg. transport within near field and geosphere, transfer between biosphere ‘compartments’, exposure pathways, eg inhalation or ingestion)
• Receptor: environmental media, humans (depends on assessment context)
• Pollutant linkages comprise the S-P-R relationships, i.e. the means by which a contaminant may impact a receptor
• Without a valid S-P-R linkage, there can be no risk
• System description entails the identification and characterisation of most important S-P-R linkages
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System description
• Description of the disposal system: • Near field (Source / Pathway)
• Geosphere (Pathway)
• Biosphere (Pathway / Receptor)
• Points to consider: • Ensure documentation of relevant
characteristics of multi-barrier system on which long-term safety relies.
• Balance between qualitative / quantitative descriptions for input to assessment models.
• Importance of maintaining clear audit trail for documentation of key assumptions and associated uncertainties.
• Level of detail should be appropriate to assessment context.
Source
(near-field)
Groundwater and gaspathways (geosphere)
Gas pathwaysRainfall Receptor (biosphere)
near-field, geosphere and biosphere boundaries
Soils, surfacewater bodies,
run-off
Human / animalhabitation
Plant and rootzone activity
Beach
Marine sediments
Water table
Release
Marine plantsand animals
Transport
Future humanactions / disruptive
events
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Scenarios (1)
• In order to assess disposal system performance, a variety of different factors need to be evaluated in a consistent way, often in absence of quantitative data.
• Typically achieved through formulation and analysis of a set of scenarios:
• A scenario is a broad description of the evolution of the disposal system and its surroundings as a result of natural, human induced, waste-related and engineering-related events and processes.
• Initial stage in scenario construction – compilation of comprehensive list of features, events and processes (FEPs) that could directly or indirectly influence the disposal system and the fate and transport of radionuclides within it.
• Commonly done through screening international FEP list (e.g. IAEA ISAM, NEA).
• Scenarios may be assessed qualitatively or quantitatively.
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0. Assessment Context
1. External Factors 1.1 Repository
factors 1.2 Geological
processes and events 1.3 Climate processes
and events 1.4 Future human
actions and behaviours
2. Internal Process System Domain Environment Factors 2.2 Geological environment
2.3 Surface environment
2.4 Human behaviour
2.1 Wastes and engineered features
3. Radionuclide and Contaminant Factors 3.1 Contaminant characteristics
3.2 Release / migration factors
3.3 Exposure factors
Impact
FEPs
ISAM FEP list
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Source and treatment of uncertainties
•Sources of uncertainty include Parameter uncertainty (eg due to incomplete data)
Conceptual model uncertainty (eg due lack of knowledge of future state of system
Model uncertainty (eg ‘numerical dispersion’)
• PA needs to take account of these uncertainties
•This is achieved by Multiple conceptual models and PA model implementation (eg to account for various potential groundwater pathways)
Multiple scenarios and calculation cases (eg modelling of various climate states, or barrier degradation scenarios)
Sensitivity analysis
Probabilistic modelling approaches (eg Monte Carlo analysis of selected parameters)
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Scenarios (2)
• Scenario development and justification:
• Reference Scenario: – Initial consideration
– Often considered to be the most likely scenario
– Benchmark scenario to compare impact of alternative scenarios
– Normal evolution scenario, design scenario, base case scenario
• Alternative Scenarios: – Investigate impact of scenarios different from reference scenario
– Sensitivity analysis of reference scenario
– Altered evolution scenario, deteriorated evolution scenario
• Methodologies for scenario development: – Systematic methodologies (geological and near-surface disposal systems)
– None of them claimed to be only or best one
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Scenarios – Yucca Mountain Example
•Scenar
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• Purpose: – Assess consequences of scenarios in terms of assessment context and
system description
• Requirement: – Formal, defensible and transparent to independent review
• Three stages: 1.Generate conceptual models of disposal systems using information from
assessment context, system description and scenario generation
2.Represent conceptual models and associated processes in mathematical models
3.Implementation of mathematical models in computer codes
• Considerations: – Type of model, e.g. detailed or assessment level
– Available computer codes
– Treatment of uncertainty, e.g. deterministic or probabilistic
Assessment models
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Example: models used in the 2010 PCSA by NDA
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Example: models used in TSPA for Yucca
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Specifications, properties, and phenomena for the evaluation of performance of cementitious barriers
PA model integration example: CBP (2)
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Modelling challenge
• Requirement to capture key FEPs for a complex system and its evolution for very long timescales
• PA models need to be – Flexible (analysis of a large number of scenarios, calculation cases in
support of decision making and regulatory requirements)
– Robust and transparent (Public confidence, by Regulator scrutiny)
– As simple as possible, but to produce realistic results (competing requirements of complexity versus transparency)
• Underpinned by multiple models (see for example 2010 PCSA by NDA), BUT: how interfaced?
• Continuum of approaches for interfacing – Incorporate understanding only (as part of PA conceptual model)
– Partial integration of computer models
– Fully integrated
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• Integration with underpinning models via appropriate model platform
– eg CBP, ASCEM
• Increasing use of probabilistic methods – (but makes for more complex analysis)
• Predominance of GoldSim software – (originally developed for Yucca mountain project)
• Increasing emphasis on model QA
Trends in modelling approaches
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Waste inventory
Flux through barriers (EBS / geological)
Flux to biosphere
Concentration in environment
Concentration / dose in humans / biota
Risk
Contaminant migration and impact
Criteria or indicators to compare against
Regulatory concentration limits.
Regulatory criteria for releases from the facility.
Naturally occurring fluxes.
Regulatory concentration limits. Naturally occurring concentrations.
Regulatory concentration limits. Naturally occurring concentrations.
Background doses.
Regulatory risk limits. Risk from natural background. Risks from
other activities / sources
As
the
conta
min
ant
mig
rate
s aw
ay fro
m
dis
posa
l fac
ility
, unce
rtai
nty
incr
ease
s
Analysis of results
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Barriers to radionuclide migration
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Factors influencing mobility
• pH • influences speciation (hydrolysis) • solubility generally decreases at
higher pH (dependent on other ligands)
• sorption generally increases at higher pH (dependent on other ligands)
• Eh (pe) • influences speciation (redox state) • mobility generally increases at
higher Eh (pe) – some exceptions – also effects mineral surfaces
• Substrate properties • loading capacity • irreversibility
• Complexation/colloids • inorganic (CO3
2-, OH-, F-. SO42-, PO4
3- etc)
• organic (short chain aliphatics, humic/fulvic, anthropogenic complexing agents, degradation products etc.)
• complexation generally increases mobility
• Time • increasing crystallinity • migration to less accessible sorption
sites • radioactive decay
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Processes influencing radionuclide migration
• The same processes often occur at the different scales in a GDF – wasteform, EBS, Geosphere and Biosphere
• Processes affecting radionuclide release from the wasteform: • wasteform dissolution or leaching
• solubility limitation
• Processes affecting radionuclide transport: • advection and hydrodynamic dispersion
• diffusion
• transport by colloids, non aqueous phase liquids (NAPLs) and microbes
• Processes affecting radionuclide retardation and immobilisation: • sorption
• complexation
• precipitation/co-precipitation
• molecular filtration and ion exclusion
• rock-matrix diffusion
• microbial activity
• non-aqueous phase liquids
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Solubility
1.0E-13
1.0E-11
1.0E-09
1.0E-07
1.0E-05
1.0E-03
4.0 6.0 8.0 10.0 12.0 14.0
pH
Tota
l Am
(log
M)
Am(OH)3 Eh -4.0 NCAm(OH)3 Eh -4.0 Carb
1.00E-10
1.00E-09
1.00E-08
1.00E-07
1.00E-06
1.00E-05
1.00E-04
1.00E-03
1.00E-02
1.00E-01
1.00E+00
1 2 3 4 5 6 7 8 9 10 11 12 13 14
pH
log
Ura
nium
Con
cent
ratio
n (M
)
NEA9
CHEMVAL 6
Rai et al
Yajima et al
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Sorption
• Sorption is a set of processes, excluding the formation of discrete solid phases, by which entities such as ions or molecules are partitioned between the solution and a solid surface
• Sorption may occur on any material surface exposed to water. In the context of radionuclides disposed in a GDF, this includes
• the wasteform and waste container (including corrosion products and secondary minerals formed from interaction with water),
• the near field (which, dependent on the concept, contains clay-, salt- or cement-based backfills and buffers)
• natural rock surfaces in the surrounding geosphere
0
20
40
60
80
100
1 3 5 7 9 11
pH
% S
orpt
ion
U(VI) sorption onto Koongara weathered schist
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Complexation
• General trend for actinides
• OH-, CO32- > F-, HPO4
2-, SO4
2- > Cl-, NO3-
• Other elements (e.g. Cu, Zn, Cd, Pb etc) strongly associated with soft bases such as sulphides.
• Trend for actinides with organics
• DTPA > EDTA > NTA > tricarboxylic acid > dicarboxylioc acid, monocarboxylic acid
-11
-10
-9
-8
-7
-6
-5
-4
-3
1.00E-06 1.00E-05 1.00E-04 1.00E-03 1.00E-02 1.00E-01 1.00E+00Bicarbonate Concentration, M
log
Pu,
M
pH 10.1pH 9.7pH 9.4
Yamaguchi, T., Sakomoto, Y. and Ohnuki, T. Effect of the Complexation on Solubility of Pu(IV) in aqueous Carbonate Systems. Radiochimica Acta 66/67 p9 (1994)
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Pu(IV) Pu(III) Pu(V) Pu(VI)
REDOX
REDUCING
LOWER pH HIGHER pH
OXIDISING
LOWER pH HIGHER pH
HYDROLYSIS COMPLEXATION
HYDROLYSIS COMPLEXATION
SORPTION SORPTION PRECIPITATION
PuO2
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Representation within a PA
• The parameters used to describe radionuclide behaviour are:
• the half-life of each radionuclide;
• the rate at which each radionuclide enters the groundwater system;
• the solubility limit of the radionuclide under the chemical conditions of the engineered system;
• the sorption of each radionuclide onto the various engineered and natural barrier materials through which it may travel;
• the accessibility of radionuclides to the pore space of certain engineered barrier materials and of different rock types.
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Example outputs
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Low level waste repository
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Uranium solubility
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C-14 distribution
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Solubility and sorption
1.E-15
1.E-14
1.E-13
1.E-12
1.E-11
1.E-10
1.E-09
1.E-08
1.E-07
1.E-06
1.E-05
1.E-04
1.E-03
1.E-02
1.E-01
1.E+00
0 500 1000 1500 2000 2500
Time (years post 1995)
Gro
undw
ater
conc
(mg/l
)
C-14
Cl-36
Np-237 (parent)
Tc-99
U-234 (parent)
U-238 (parent)
Start of assessment
Cl-36 and Tc-99 quickly washed out the near field
C-14 solubility limited in near-field, slightly delaying release
Uranium and neptunium significantly retarded in the near-field (and geosphere). Concentrations still increasing at assumed site termination
Near-surface disposal, no containment-Concentrations of radionuclides at the site
boundary over time
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Dose and Risk – UK Context
• GRA - After the period of authorisation, the assessed radiological risk from a disposal facility to a person representative of those at greatest risk should be consistent with a risk guidance level of 10-6 per year (ie 1 in a million per year)
• Radiological risk corresponds to product of • Estimated effective dose
• Estimated probability (quantified uncertainty) that dose received
• Estimated probability that detriment occurs
• Exposed group: For a given source, any group of people within which the exposure to radiation is reasonably homogeneous: where the exposure is not certain to occur, the term ‘potentially exposed group’ (PEG) is used.
• Choice of PEGs based on present and past habits
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Radionuclides in the biosphere
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UK Geological Disposal Facility
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Risk Results from DSSC
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Yucca Mountain
Exposure pathways to Hypothetical Future Humans considered in TSPA for Yucca Mountain
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Example results (Barrier capability analysis in the Yucca Mountain TSPA)
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Example result: probabilistic dose results for Yucca Mountain TSPA
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Conclusions
•Demonstration of the performance and safety of a disposal facility is made through a safety assessment and a safety case
•Aimed at synthesising system understanding, based on underpinning studies, involving the development and use of simplified models of reality (“total system model”)
• these models are used as tools to analyse system performance in support of decision making / or demonstration of meeting regulatory requirements
•UK experience demonstrated by the 2011 LLWR ESC and NDA DSSC
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References and background reading (2)
• IAEA, 2004. Safety Assessment Methodologies for Near Surface Disposal Facilities. Vienna.
• Environment Agency et al. Geological Disposal Facilities on Land for Solid Radioactive Wastes. Guidance on Requirements for Authorisation. (2009)
• IAEA. Geological disposal of radioactive waste. IAEA Safety Standard Series. WS-R-4 (2006)
• IAEA. Safety assessment for facilities and activities. IAEA Safety Standard Series No. GSR Part 4 (2009)
• NDA. Geological Disposal: Geological Disposal, Generic Post-closure Safety Assessment, NDA/RWMD/030, December 2010.