Survey for Reliability & Risk Analysis for Fusion Technologies workshop (https://docs.google.com/forms/d/e/1FAIpQLScBxi9BZ0VZpBBFkZ0OTIkqko0X9pFmkfVIyEkZlgQvwxp2HA/viewform?usp=dialog)
Discover the main Zirconium-based alloys in PWRs and become familiar with their properties and in-service behaviour under thermo-mechanical and chemical stresses and under strong irradiation.
The International School in Nuclear Engineering aims at promoting advanced knowledge in the field of nuclear sciences. The course breaks down into two distinct parts: the "Thermal hydraulics of light water reactors (LWR)", and "Modelling and multi-phase phenomenology of severe accidents in LWRs".
The course offers a journey in advanced science on materials behavior and the connection with nuclear safety and operation and maintenance.
The course deals with a global review of nuclear fuels, addressing physical properties, irradiation effects during normal and off-normal conditions, for both GenIII and GenIV reactors. Modelling approaches and challenges for the future are also presented.
The course deals with advanced numerical methods to solve the Boltzmann equation for neutron transport. Most recent deterministic and probabilistic methods developed respectively in APOLLO2/APOLLO3 and TRIPOLI4 codes are exposed.
Course - New to Nuclear Industry (English)
Kurs - Nukleare Sicherheitskultur (Deutsch)
Course - Nuclear Safety Culture (English)
3rd MEENAS webinar of 2025: Ethics in Ionising Radiation Research
This MOOC (Massive Open Online Course) is conceived as a first contact with the safety culture in all areas to continue, then, deepening in more specific concepts in the nuclear field. In order to establish a good safety culture and nuclear safety culture, aligned leadership is necessary. All these aspects will be worked in a dynamic, different and participative way, in which collaborative learning will be a key aspect. The goal of the MOOC is to ensure that students, industry workers and any person interested, know and transmit the safety culture and its importance. At the end of the MOOC, the participants will be able to understand and explain the aspects related to human behaviour and its management to achieve a strong safety culture. These general concepts will be focused to the nuclear industry and its differentiating characteristics.
This course explores the journey of the AP1000 from design to commercial operations of our fleet of advanced reactors, focusing on lessons learned in construction.
This course explores advanced concepts regarding plant systems and operating principles of the Westinghouse AP1000® Advanced Plant.
Study of the major systems that make up the AP1000® nuclear power plant.
The Senior Reactor Operator (SRO) Management Certification Course prepares the successful student to direct the operation of the Westinghouse AP1000 plant under normal, abnormal, and emergency plant conditions.
This course explains the different phases of project management.
Main concepts associated with the development and implementation of nuclear safety in its two aspects: technological safety awareness and commitment.
