Transmutation of MA in the high flux thermal reactor

Abstract We study the MA transmutation characteristics in the high flux thermal reactor, our calculation shows that different MA nuclides may have the drastically different effects on k eff , Np-237, Am-241 and Am-243 decrease k eff greatly, Cm-244 affects the k eff slightly, but Cm-245 boosts the k eff significantly. The MA nuclides actually can act as the burnable poisons in the thermal reactors. The SCALE simulation shows that after 300-day-exposure in high flux thermal reactor the disappearance rate of Np-237, Am-241 and Am-243 are 73.7%, 98.1% and 82.8% respectively. The SCALE simulation results also show that the total transmutation rate of MA nuclides by fission which include direct and indirect fission after 300-day-exposure in the high flux thermal reactor is 6.3%. The SCALE simulation indicates at least 44.2% MA nuclides transmute to plutonium isotopes by various reactions and 63% of the Pu-238 in the MOX fuel is consumed during 300-day-exposure in this reactor.