Space dependent kinetics analysis of control rod withdrawal accident in liquid metal fast breeder reactors.

Abstract: A two-dimensional (in r-z geometry) space dependent kinetics program coupled with thermo-hydraulics for an accident analysis of a liquid metal fast breeder reactor was developed.Validation of the code was made by applying the code to the NEA CRP benchmark problem and comparing the result with those calculated at other institutions. Then, the code was applied to study the transient of a homogeneous, a tightly coupled heterogeneous and a loosely coupled heterogeneous core where a control rod was withdrawn with a… Show more

“…It has been pointed out< 4 ) that the sodium void effect cannot be accurately treated with few-energy groups. The reason is twofold; (1) the slowing down component of the sodium void reactivity cannot be accurately represented by few-energy -1-Therefore, we have developed a new method to treat the sodium void reactivity during the transient properly and incorporated the method in QUASAR( 6 ), which is a two-dimensional space dependent kinetics code. The code, named as QUASAR-IT, also includes the feedbacks due to the fuel movement by the fuel expansion and fuel slumping<!).…”

New treatment of sodium void effect in fast reactor transient study.

“…It has been pointed out< 4 ) that the sodium void effect cannot be accurately treated with few-energy groups. The reason is twofold; (1) the slowing down component of the sodium void reactivity cannot be accurately represented by few-energy -1-Therefore, we have developed a new method to treat the sodium void reactivity during the transient properly and incorporated the method in QUASAR( 6 ), which is a two-dimensional space dependent kinetics code. The code, named as QUASAR-IT, also includes the feedbacks due to the fuel movement by the fuel expansion and fuel slumping<!).…”

New treatment of sodium void effect in fast reactor transient study.

Studies of the origins of random burst and anomalous fluctuation based on the non-linear dynamical power-reactor model