Transient analysis for possible prompt supercritical accidents of fuel debris is important. In such analysis, it is necessary to include reactivity feedback effects properly. In this study, an analysis was performed in order to reveal reactivity effect of radiolysis gas void on prompt supercritical transient analysis in fuel debris systems.

In the analysis, radiolysis gas calculation was conducted using power profile which was obtained by the MIK code with Doppler feedback effect. The reactivity effect of the gas was analyzed by comparing generation time of the gas void and peak-time of the power.

It was concluded that the reactivity feedback effect of the radiolysis gas void can be ignored for the prompt supercritical transient analysis in the fuel debris systems.