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This Module first defines plant states, initiating events, acceptance criteria. Further it discusses different types of deterministic safety analysis, namely conservative and best estimate plus uncertainty safety analysis, sensitivity and uncertainty analysis, verification and validation of computer codes and at the end the application of deterministic safety analysis.
Case studies describe what types of computer codes are used for deterministic safety analysis and no exercises to be performed by students are envisaged. There are 13 multiple choice questions that he lecturer can use for the weekly exam.
The textbook contains 40 pages, and there are 147 transparencies for a 3-months course and 69 transparencies for a one-month course.
Nuclear Physics and Nuclear Reactor Principles
Radiation Protection in Nuclear Facilities
Basic Principles of Nuclear Safety
Design of Nuclear Reactor
Safety Classification of Structures, Systems and Components
Deterministic safety Assessment
Probabilistic Safety Assessment
Integrated risk informed decision making
Siting considerations and Environmental Impact Assessment
Operational safety including operational feedback
Operational Limits and Conditions
Plant Renewals, Modifications and Upgrades, Ageing
In-plant Accident Management
Emergency Preparedness and Response
Nuclear Fuel Cycle
Management System, Leadership and Safety Culture