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- ↳ Official EURAD website
- ↳ EURAD School website
- ↳ Download EURAD Roadmap
- EURAD School of Radioactive Waste Management
- ↳ Courses & Events
- ↳ Mobility actions
- ↳ PhD students
- ↳ Publications
- EURAD Roadmap
- ↳ Theme 1: Managing implementation and oversight of a radioactive waste management programme
- ↳ 1.1 Programme Planning
- ↳ 1.1.1 National RWM policy
- ↳ 1.1.2 Timetable for decision making
- ↳ 1.1.3 Public information and participation
- ↳ 1.1.4 Safety, security, use of resources
- ↳ 1.1.5 Open or closed cycle, contribution to national energy mix, etc.
- ↳ 1.2 Programme Organization
- ↳ 1.2.1 Licensing framework
- ↳ 1.2.2 Licensing criteria
- ↳ 1.2.3 Allocate responsibilities
- ↳ 1.2.4 Waste management system
- ↳ 1.2.5 RD&D strategy
- ↳ 1.3 Programme Resources
- ↳ 1.4 National Inventory
- ↳ 1.4.1 National radioactive waste inventory
- ↳ 1.5 Management Solutions
- ↳ 1.5.1 Identify and evaluate potentially available concepts and technical solutions for spent fuel and RWM, taking account of national or local conditions, such as available predisposal and storage options, geological environments
- ↳ 1.5.2 Perform iterative evaluation of options at each stage of programme development taking account of international technological advances
- ↳ Theme 2: Radioactive waste characterization, processing and storage, and source term understanding for disposal
- ↳ 2.1 Planning
- ↳ 2.1.1 Inventory
- ↳ 2.1.2 Waste Acceptance Criteria
- ↳ 2.1.3 Technology selection
- ↳ 2.1.4 Waste hierarchy
- ↳ 2.2 Implementation
- ↳ 2.2.1 Characterisation
- ↳ 2.2.2 Treatment processing
- ↳ 2.2.3 Conditioning
- ↳ 2.2.4 Storage
- ↳ 2.2.5 Transport
- ↳ 2.3 Operations
- ↳ 2.3.1 Quality & Management systems
- ↳ 2.3.2 Optimisation
- ↳ 2.3.3 Secondary Waste Management
- ↳ Theme 3: Engineered Barrier System properties, function and long-term performance
- ↳ 3.1 Wasteform
- ↳ 3.1.1 Spent Nuclear Fuel
- ↳ 3.1.2 High level waste
- ↳ 3.1.3 Cemented LL-ILW
- ↳ 3.1.4 Other wasteforms
- ↳ 3.2 Waste packages for disposal
- ↳ 3.2.1 HLW and SF disposal containers
- ↳ 3.2.2 LL-ILW disposal containers
- ↳ 3.2.3 Other disposal containers
- ↳ 3.3 Buffers, backfills, plugs and seals
- ↳ 3.3.1 Buffer
- ↳ 3.3.2 Backfills
- ↳ 3.3.3 Plugs and seals
- ↳ 3.4 EBS system integration
- ↳ 3.4.1 EBS system
- ↳ 3.4.2 Co-disposal
- ↳ Theme 4: Geoscience to understand rock properties, radionuclide transport and long-term geological evolution
- ↳ 4.1 Site description
- ↳ 4.1.1 Site descriptive model
- ↳ 4.1.2 Aqueous transport and retention
- ↳ 4.1.3 Gas transport
- ↳ 4.1.4 Biosphere model
- ↳ 4.2 Long-term stability
- ↳ 4.2.1 Geological and tectonic evolution
- ↳ 4.2.2 Climate change
- ↳ 4.3 Perturbations
- ↳ 4.3.1 Perturbations
- ↳ Theme 5: Geological disposal facility design and the practicalities of construction, operations and closure
- ↳ 5.1 Design
- ↳ 5.1.1 Design specification
- ↳ 5.1.2 Design qualification
- ↳ 5.2 Constructability, demonstration and verification testing
- ↳ 5.2.1 Pilot-scale, full-scale testing and active commissioning
- ↳ 5.2.2 Optimisation
- ↳ 5.2.3 Manufacture, inspection and testing
- ↳ 5.2.4 Robotics
- ↳ 5.2.5 Virtual Reality / Digital Twin
- ↳ 5.3 Security and safeguards
- ↳ 5.3.1 Safeguards
- ↳ 5.3.2 Security and physical protection
- ↳ 5.4 Operational safety
- ↳ 5.4.1 Construction and non-radiological safety
- ↳ 5.4.2 Normal operations safety
- ↳ 5.4.3 Accident safety
- ↳ 5.4.4 Criticality safety
- ↳ 5.5 Monitoring and Retrievability
- ↳ 5.5.1 Baseline monitoring
- ↳ 5.5.2 Monitoring during construction and operations
- ↳ 5.5.3 Retrievability
- ↳ Theme 6: Siting and Licensing
- ↳ 6.1 Site selection process
- ↳ 6.1.1 Conceptual planning
- ↳ 6.1.2 Site evaluation
- ↳ 6.2 Detailed site investigation
- ↳ 6.2.1 Site characterization
- ↳ 6.2.2 Site confirmation
- ↳ 6.3 Licensing
- ↳ 6.3.1 Stakeholder involvement
- ↳ 6.3.2 Regulatory licensing
- ↳ Theme 7: Performance assessment, safety case development and safety analysis
- ↳ 7.1 Safety strategy
- ↳ 7.1.1 Safety requirements
- ↳ 7.1.2 Performance indicators
- ↳ 7.2 Integration of safety related information
- ↳ 7.2.1 Safety case production
- ↳ 7.2.2 Information, data and knowledge management
- ↳ 7.3 Safety Assessment and Tools
- ↳ 7.3.1 Performance assessment and system models
- ↳ 7.3.2 Treatment of uncertainty
- ↳ 7.3.3 Scenario development and FEP analysis
- General
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