Design and safety analysis of Ultra-long Cycle Fast Reactor (UCFR)

• Design of primary & secondary systems of UCFR – Thermal-hydraulic design of primary system (flow and temperature conditions) and optimized design of energy conversion system (nitrogen Brayton cycle) of UCFR
• Design of passive safety system for UCFR – Design of passive residual heat removal system using liquid gallium for safety enhancement
• Safety analysis of UCFR – Thermal-hydraulic analysis of UCFR in steady state operation and Deterministic safety analysis of UCFR in transient, along with Probabilistic safety analysis

 References

1. Seok Bin Seo, In Guk Kim, In Cheol Bang*, Risk-reduction of passive decay heat removal system by using gallium-water for UCFR and SMR, International Journal of Energy Research, Vol 41, pp. 207-219, 2017
2. Seok Bin Seo, Han Seo, In Cheol Bang*, Adoption of nitrogen power conversion system for small scale ultra-long cycle fast reactor eliminating intermediate sodium loop, Annals of Nuclear Energy, Vol 87, pp. 621-629, 2016
3. Sarah Kang, Seong Dae Park, In Guk Kim, In Cheol Bang*, Numerical study of in-vessel retention under the gallium-water external reactor vessel cooling system using MARS-LMR, Journal of Nuclear Science and Technology, Vol 53, pp. 345-352, 2016
4. Han Seo, Ji Hyun Kim, In Cheol Bang*, Subchannel analysis of a small ultra-long cycle fast reactor core, Nuclear Engineering and Design, Vol 270, pp. 389-395, 2014