The rational utilization of nuclear energy is crucial in current global energy system.Using a flame denitrificationreactor,this study develops uranium trioxide(UO_(3)),a critical intermediate product in the nuclear fu...The rational utilization of nuclear energy is crucial in current global energy system.Using a flame denitrificationreactor,this study develops uranium trioxide(UO_(3)),a critical intermediate product in the nuclear fuel cycle,and systematically characterizes its physicochemical properties.The UO_(3) products are comprehensively examined to assess their suitability for downstream nuclear industry applications.Our results indicates that high-quality UO_(3) products can be obtained using flamedenitrificationreactor at temperatures between 440℃ and 480℃.This study reveals the considerable potential of UO_(3) production via flamedenitrification,marking a significantadvancement towards enhanced nuclear fuel cycle systems.展开更多
基金Xing Yuan Program of China National Nuclear Corporation(CNPE-8208)National Natural Science Foundation of China(22478056)for the financialsupport.
文摘The rational utilization of nuclear energy is crucial in current global energy system.Using a flame denitrificationreactor,this study develops uranium trioxide(UO_(3)),a critical intermediate product in the nuclear fuel cycle,and systematically characterizes its physicochemical properties.The UO_(3) products are comprehensively examined to assess their suitability for downstream nuclear industry applications.Our results indicates that high-quality UO_(3) products can be obtained using flamedenitrificationreactor at temperatures between 440℃ and 480℃.This study reveals the considerable potential of UO_(3) production via flamedenitrification,marking a significantadvancement towards enhanced nuclear fuel cycle systems.
