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在惯性约束聚变尚未达到能量得失相当的条件下,以惯性约束聚变产生的中子作为驱动源, ̄(238)U或 ̄(239)Pu与 ̄(238)U的混合物作为包层核燃料,进行了聚变裂变混合放能系统的概念研究。提出了以少量 ̄(239)Pu作为“助燃剂”,用以提高包层能量倍增的概念。 ̄(239)Pu的引入提高了包层的通量水平,加速了 ̄(238)U的造钚和钚的燃烧过程,实现了消耗 ̄(238)U释放能量而不消耗或很少消耗 ̄(239)Pu,并使包层能量倍增达到30以上,从而为惯性约束聚变的早期应用和以 ̄(238)U为裂变能源燃料的持续发展提出了一条可能的途径。
Under the condition that the inertial confinement fusion has not reached the equivalent energy gain and loss, using the neutron generated by the inertial confinement fusion as the driving source, the mixture of ¯ (238) U or ¯ (239) Pu and ¯ (238) U is used as the cladding nuclear fuel Conceptual Research on Fusion Fission Hybrid Energy Release System. Proposed a small amount of ~ (239) Pu as a “combustion agent” to improve the concept of cladding energy doubling. The introduction of Pu increases cladding flux and accelerates the combustion of plutonium and plutonium by ~ 238 U, resulting in the depletion of 238 238 U without or very little (239) Pu and doubling the cladding energy by more than 30, thus providing a possible approach for the early application of inertial confinement fusion and the continuous development of fissile energy fuels with ~ (238) U.