• Basic knowledge about nuclear plants, nuclear measurements, radioprotection, materials
• Mechanical technology, science and construction technique, Quality Assurance, and safety
• Ability to interpret overall drawings and details.

The course is high interdisciplinary because of the topics and problems treated in the lectures, such as e.g. regulatory aspects, safety aspects and site characterisation, environmental impact assessment, financial aspects, management, etc.

The course consists of lectures, with visual aids such as .ppt/videos, case study analysis and applications integrated in the classroom together and correlated with theoretical notions presented.

The teaching activity, in relation to the level of preparation reached by the students, can be completed by the autonomous development, under the guidance of the teacher, of a simple project in which decommissioning activities and concepts will be applied.

The course can also be integrated with lectures and seminars of external teachers and experts.

The subdivision of the total working hours foreseen offers the student the possibility to verify and improve his own learning ability also through a synergic interaction between the student and the teacher (e.g. meetings, email or other methods of communication)

The attendance to lecture is advised.

Introduction to the decommissioning and radioactive waste management: overview of current status of plant under decommissioning. Activities relevant to decommissioning. Oversight to ensure safety waste Directive: National and European policy

Financial Resources: Waste Directive & EU recommendation strategies. General provisions and decommissioning strategies options

Decommissioning: considerations at the design and construction phase review of design features and specific factors influencing Decommissioning & RW Management. Consideration about the functional, structural and safety aspects affecting the decommissioning planning before/after the facility shut down. Planning and safety assessment for RWs decommissioning. Paper Flow and Authorization Decommissioning Planning (DP): phases and elements of planning. Graded approach to DECOM management

Management during Decommissioning: system for managing wastes from decommissioning or environmental remediation. Quality assurance and documentation. Significance of safety assessment and radiological characterization.

Plant decommissioning: facility constraints, siting and operation/life-cycle issues. Time period for the decommissioning activities and process (e.g. NPP DECOM phases). Integrated safety management decommissioning requirements: from the optimization of protection and safety to the responsibilities of the regulatory body and of the licensee

Decommissioning Requirements: Graded Approach to Safety Assessment. Safety Assessment methodology: overview, objectives and principles. IAEA Requirements relating the selection of a DECOM strategy, step for planning the DECOM and hoe to prepare a final decommissioning plan

Hazard analysis: identification and screening of the radiological and non-radiological hazards. Approaches to hazard identification and preliminary assessment: example list of hazards and risks associated with typical decom activities (Ref. IAEA) modelling and calculation of consequences

Radiological characterisation: radionuclide inventory and RWs classification. General objectives of the radiological characterization and efforts during all decommissioning planning stages (pre-operational, operation, transition phase, dismantling and release)

Key Activities in a Radiological Characterisation Campaign Methodology and development of the categorization system: contamination and activation processes. Radiological characterisation: methods and techniques for the characterization and measurement

Dismantling and decontamination techniques used in decommissioning: current main techniques, criteria and issues for decontamination: before/after dismantling; fixed and smearable contamination; metal, concrete, site or soil decontamination. Factors affecting the decontamination technology. Chemical decontamination (i.e. MEDOC® process), Electrochemical decontamination, Different electrochemical decontamination methods (i.e. PHADEC, ELDECON etc.). Treatment of the spent decontaminating reagents. Physical decontamination process.

Demolition and dismantling: techniques, advantages and drawbacks

RWs Management: Material destination and storage of RWM

Storage and Transportation (interim or long term) of radioactive material/waste: packaging system options.

Disposal Facility Characterization: Pre-disposal management. Long-term containment and isolation Disposal Practices. Surface Repository. Near-Surface Repository. Geological disposal

Identification and analysis of Decommissioning Costs

Immobilization of RWs: technique used for the solidification of radioactive waste, such as the cementation, bituminization, geo-polymerization, calcination etc.

• Decommissioning and radioactive waste management, A. Rahman
• Radioactive waste management, J.H. Saling and A. W. Fentiman
• National and Int. Regulations for the sectors of interest, generally available at the Library of the School of Engineering
• Teaching materials distributed during the course
• Further bibliography indicated during lessons

The teaching material, updated year by year by the teacher, will be provided to students by email or making it available on a shared folder

The receipt of the students is always available to support students in solving any possible encountered learning problem

The assessment method, as described above, consists in an oral examination that includes assignment of typical problems related to the theory and the decommissioning methods and techniques used for components and/or part of plants..