1. Introduction to liquid metal cooled reactors 2. Thermal-hydraulic challenges in liquid-metal-cooled reactors 3. Thermal-hydraulic experiments with liquid metals 4. System thermal hydraulics for liquid metals 5. Sub-channel analysis for LMR 6. CFD 7. Multi-scale simulations of liquid metal systems 8. Verification and validation and uncertainty quantification 9. Best practice guidelines for nuclear liquid metal CFD 10. Conclusions and outlook
Ferry Roelofs is account manager research at NRG in the Netherlands. He is known as an expert in nuclear thermal hydraulics (specifically Computational Fluid Dynamics) and as such performed simulations on various generations of nuclear reactors (Generation II, III and IV). He has been working in the nuclear field since 1997. Apart from being active in the thermal hydraulics field, he has also been seconded at the Dutch nuclear power plant of Borssele assisting the update of safety specifications and providing engineering support to the second large modification project at the plant. Furthermore, he performed nuclear fuel cycle analyses to study the impact of future nuclear power generation on availability of uranium resources, size of the reactor park, final storages, and human resource requirements at a European level. Finally, he has also been involved in the design review of the future PALLAS reactor aiming at medical isotope production and nuclear research.
Since the year 2000, he has been actively involved in design and safety support of various liquid metal cooled reactors. As such, he initiated in 2015 a European collaborative project 'thermal hydraulics Simulations and Experiments for the Safety Assessment of Metal cooled reactors (SESAME)' which is sponsored by the European Commission. The textbook 'Thermal Hydraulics Aspects of Liquid Metal cooled Nuclear Reactors' is one of the major outcomes of this project. Ir. Roelofs published about 200 scientific articles, many of which deal with SESAME related subjects.