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REACTOR CORE PHYSICS DETERMINISTIC AND MONTE CARLO METHODS
Course Objective: - Describe the neutron interactions in a nuclear reactor. - Compare the deterministic and probabilistic methods for solving the neutron ...
CRITICALITY SAFETY
Criticality safety 101: from the physics basics to criticality accident. This course is intended for engineers who will participate in ...
PRINCIPLES AND OPERATION OF NUCLEAR REACTORS
Module Objective: - Provide the basic elements for the understanding of the production process and fission energy related to the nuclear ...
THERMAL HYDRAULICS AND SAFETY
Objective: - Describe the various scales of two-phase flow modelling and their significance. - Present the different formulations of the 1D two-phase ...
NEUTRONICS FOR LIGHT WATER REACTORS ADVANCED
Objectives: - Present the general principles of neutronics calculation schemes (i.e from sub-assembly to core calculations, fundamental mode, equivalence techniques ...
RADIATION PROTECTION AND CONFINEMENT
The objective of the Training Module is to provide a transfer of knowledge in the fields of radiation protection, both ...
NUCLEAR FUEL CYCLE SAFETY
The objective of this Training Module is to provide a transfer of knowledge in the fields of the front and ...
DECOMMISSIONING SAFETY
The objectives of this Training Module are to introduce into the fundamentals of decommissioning of nuclear facilities, including inter alia ...
MANAGEMENT OF SPENT FUEL AND RADIOACTIVE WASTE
The training module provides an overview on waste management, in particular in terms of international standards, waste classification and safety ...
DECOMMISSIONING FUNDAMENTALS
This course describes the general process of decommissioning and the main aspects of regulation. Upon completion, participants will be able ...
DECOMMISSIONING PROJECT MANAGEMENT
This course provides a global vision of the organization and implementation of dismantling projects. Upon completion, participants will be able ...