Chihyung Kim scite author profile

SUMMARYThis paper compares the performance and characteristics of two innovative sodium-cooled fast reactors (iSFRs) with different fuel types. One is loaded only with low-enriched uranium fuel and the other one is loaded with spent nuclear fuels. The iSFR is designed based on the Korean prototype Gen-IV sodium-cooled fast reactor in order to enhance the safety and economics through innovative core designs. The iSFR core is also equipped with two new and unique passive safety devices called floating absorber for safety at transient and static absorber feedback equipment to improve the safety performance of iSFR and particularly to address the positive coolant void reactivity coefficients. In this work, several important parameters such as core reactivity, kinetics parameters, reactivity feedback coefficients, power profiles, and fuel composition changes have been analyzed by using the McCARD Monte Carlo code. The sub-channel code MATRA-LMR is used to perform the thermal-hydraulics analysis. The balance of reactivity method has also been utilized to investigate the self-controllability of the two iSFR cores.

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Uranium Enrichment Reduction in the Prototype Gen-IV Sodium-Cooled Fast Reactor (PGSFR) with PBO Reflector

Kim

Hartanto

Kim

2016

Nuclear Engineering and Technology

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Neutronics feasibility of simple and dry recycling technologies for a self-sustainable breed-and-burn fast reactor

Kim

Hartanto

Kim

2017

Annals of Nuclear Energy

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Impacts of Burnup-Dependent Swelling of Metallic Fuel on the Performance of a Compact Breed-and-Burn Fast Reactor

Hartanto

Heo

Kim

et al. 2016

Nuclear Engineering and Technology

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Chihyung Kim

An advanced core design for a soluble-boron-free small modular reactor ATOM with centrally-shielded burnable absorber

A comparative physics study for an innovative sodium-cooled fast reactor (iSFR)

Uranium Enrichment Reduction in the Prototype Gen-IV Sodium-Cooled Fast Reactor (PGSFR) with PBO Reflector

Neutronics feasibility of simple and dry recycling technologies for a self-sustainable breed-and-burn fast reactor

Impacts of Burnup-Dependent Swelling of Metallic Fuel on the Performance of a Compact Breed-and-Burn Fast Reactor

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