Joint ICTP-IAEA 2nd Course on Scientific Novelties in the Phenomenology of Severe Accidents in Water Cooled Reactors | (smr 3303)
Starts 24 Jun 2019
Ends 28 Jun 2019
Central European Time
Euler Lecture Hall (LB)
Strada Costiera, 11
I - 34151 Trieste (Italy)
The course programme covers scientific topics of direct relevance to the physical, chemical and radiological phenomena occurring during the progression of severe accidents in WCRs, including an overview of past events and the advanced technologies designed to cope with such events.
The course will build a complete understanding of the science underpinning the complex phenomena associated with the progression of severe accidents in WCRs and their consequences. Knowledge transfer will be facilitated between the international expert lecturers and the young nuclear professional and engineer participants through discussions and hands-on learning, with the goal to gain a comprehensive understanding of the physical, chemical and radiological phenomena specific to severe accidents in WCRs. Relevant nuclear safety principles and recent advancements in scientific methods, approaches and simulation tools to assess the interrelated scientific phenomena during in-vessel and ex-vessel phases of severe accident progression, and the role of technologies required to prevent progression of, and mitigate consequences from, such accidents in WCRs are presented.
As part of the application, participants should submit a 2-page original essay, covering two of the course topics of their choice from Phenomenology of Scientific Phenomena in Propagation of Severe Accidents.
Physics of Water Cooled Power Reactors;
Nuclear Safety, Defence in Depth and Design Basis Accidents in Water Cooled Power Reactors;
Progression of Fukushima Daiichi Accident and its Consequences.
Phenomenology in Severe Accident Progression
Nuclear Fuel Degradation and Relocation;
In-Vessel Melt Retention;
Reactor Vessel Failure Mechanisms;
Ex-Vessel Corium Cooling;
Containment Failure Mechanisms;
Physics and Chemistry of Fission Products;
Hydrogen Generation, Transport and Explosion.
Challenges in Severe Accident Consequence Mitigation
Level of Knowledge and Uncertainties in Severe Accident Phenomena;
Numerical Simulations of Severe Accident Phenomena;
Technologies for core and containment protection;
Emergency Response during, and Remediation after, Severe Accidents.
A limited number of grants are available to support the attendance of selected participants, with priority given to participants from developing countries. There is no registration fee.