燃料密度对球床反应器反应性系数和动力学参数的影响

S. Suwoto, R. A. P. Dwijayanto, W. Luthfi, Z. Zuhair
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引用次数: 0

摘要

燃料密度对球床反应器反应性系数和动力学参数的影响。几十年前,大量的核反应堆被设计成使用高浓铀作为燃料。但是,由于高浓铀有可能被用作核爆炸材料,具有扩散的可能性,因此不鼓励使用高浓铀。世界上大多数以高浓铀为燃料的核反应堆要么关闭,要么转换为其他类型的低浓铀燃料,235U浓度低于20%。为延长使用寿命,研制了高密度低浓铀燃料。燃料密度由低到高的变化也会改变堆芯中子和热工水力学,从而影响堆的瞬态响应。本文利用MCNP6代码结合ENDF/B-VII进行了多次计算,研究了燃料密度对球床堆反应性系数和动力学参数的影响。1 .连续能量截面核数据库。总体计算结果表明,多普勒温度系数(DTC)随着燃料密度的增大而增大,而慢化剂温度系数(MTC)由于中子谱的硬化而减小。有效延迟中子分数(βeff)、提示中子寿命(r)和中子生成时间(Ʌ)等动力学参数随着燃料密度的增加而显著减小,将对反应堆的控制和安全产生重大影响。本工作的结果表明,考虑到9-15 g/cm3燃料密度对反应堆可控性的影响,应仔细考虑其选择。关键词:燃料密度,反应性系数,动力学参数,MCNP6, ENDF/B-VII.1
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFECTS OF FUEL DENSITY ON REACTIVITY COEFFICIENTS AND KINETIC PARAMETERS OF PEBBLE BED REACTOR
EFFECTS OF FUEL DENSITY ON REACTIVITY COEFFICIENTS AND KINETIC PARAMETERS OF PEBBLE BED REACTOR. Few decades ago a large number of nuclear reactors were designed to use HEU as the fuel. But the use of  HEU is being discouraged since it can be used as a nuclear explosive material which makes its proliferation potential. Most of the HEU-fueled nuclear reactors in the world are either closed or converted into other types that have LEU fuel with 235U enrichment below 20%. To extend lifetime, LEU fuel with high density is developed. The change in fuel density from low to high will also change core neutronics and thermal-hydraulics of the reactor, and as a result, it affects the transient response of the reactor. This paper studies the effects of fuel density on reactivity coefficients and kinetic parameters of pebble bed reactor through several calculations with MCNP6 code combine with ENDF/B-VII.1 continuous energy cross-section nuclear data library. The overall calculation results show that the Doppler temperature coefficient (DTC) increases with increasing fuel density, but the moderator temperature coefficient (MTC) decreases due to hardening of neutron spectrum. Kinetic parameters such as effective delayed neutron fraction (βeff), prompt neutron lifetime(ℓ) and neutron generation time (Ʌ) which significantly reduced with increasing fuel density will strongly affect the reactor control and safety. The results of this work conclude that the selection of 9–15 g/cm3 fuel density should be considered carefully given that its effect on reactor controllability.Keywords: Fuel density, reactivity coefficients, kinetic parameters, MCNP6, ENDF/B-VII.1.
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