Comparative Analysis of the Excitation Functions of 238U as Breeder Fuel Using OPTMAN Code.

M. Anthony,, O. Ige, U. Rilwan, S. Jonah,, M. Aliyu, Atef El-Taher
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引用次数: 1

Abstract

The comparative analysis of the excitation function of Uranium-238 was carried out using a Coupled-Channeled Optical Model code, OPTMAN. The high demand for nuclear reactor fuels has necessitated this research. As one of the major naturally occurring radioisotope of Uranium with lots of fuel prospect, Uranium-238 occur in large quantities (99%). Two steps process away from Uranium-238 on neutron capture can produce fissile materials to be used as reactor fuel. Though, Uranium-238 is not by itself a fissile material. But, it is a breeder reactor fuel. Computations were done for both the Potential Expanded by Derivatives (PED) which account for the Rigid-Rotor Model (RRM) that treat nuclei as rigid vibrating sphere as well as account for nuclear volume conservation and Rotational Model Potentials (RMP) which account for the Soft-Rotator Model (SRM) that treat nuclei as soft rotating spherical deformed shapes. Each of the calculated data was compared with the retrieved data from Evaluated Nuclear Dada File (ENDF) which was found to be in good agreement. The threshold energies in all cases were found to be ≤4 MeV for both PED (Potential Expanded by Derivatives) and RMP (Rotational Model Potentials). It is observed that results from RMP much better agreed with the retrieved data than one obtained from PED.
利用OPTMAN代码对238U作为增殖燃料的激励函数进行比较分析。
利用耦合通道光学模型代码OPTMAN对铀-238的激发函数进行了对比分析。对核反应堆燃料的高需求使这项研究成为必要。铀-238是铀的主要天然放射性同位素之一,储量很大(99%),具有很好的燃料前景。中子捕获过程中铀-238的两个步骤可以产生用作反应堆燃料的裂变材料。不过,铀-238本身并不是一种可裂变物质。但是,它是一种增殖反应堆燃料。计算了将核视为刚性振动球体的刚性转子模型(RRM)的导数展开势(PED)以及考虑核体积守恒的旋转模型势(RMP),并计算了将核视为软旋转球面变形形状的软旋转模型(SRM)的旋转模型势(RMP)。计算数据与ENDF (evaluatednucleardatada File)的检索数据进行比较,发现两者吻合较好。所有情况下的阈值能量均≤4 MeV,其中PED(由导数展开的势)和RMP(旋转模型势)都是如此。观察到RMP的结果比PED的结果更符合检索数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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