TECHNICAL PROBLEMS OF CREATION OF POWER REACTORS COOLED BY WATER OF SUPERCRITICAL PRESSURE

A. Glebov
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Abstract

The supercritical Water-cooled Reactor (SCWR) was adopted as one of the promising IV-generation reactors within the framework of the international forum “Generation-IV” (MFP). More than 45 organizations in 16 countries with advanced nuclear power are developing SCWR concept proposals for this program. The SCWR concept is based on the implementation of a direct-flow single-circuit scheme of a nuclear power plant, cooled by SCP water. The introduction of this type of nuclear power plant will increase the efficiency up to 45 %, increase the fuel reproduction coefficient, reduce metal consumption and construction volumes, and improve economic and environmental performance. Countries participating in the SCWR MFP consider the development of a reactor with a thermal neutron spectrum and uranium fuel as a priority task, but in the subsequent stages, with increasing problems with the storage of spent nuclear fuel (SNF) and small actinides (SA), it is possible to switch to a reactor with a fast neutron spectrum, MOX fuel and a closed fuel cycle (CFC). Within the framework of the MFP, various versions of SCWR are being developed differing in the parameters of the coolant and its circulation schemes in the core. Groups have been created to study the issues of physics, thermohydraulics, heat transfer, materials, personnel training. Water-cooled reactors research carried out during ~15 years in A.I. Leypunsky Institute for Physics and Power Engineering (IPPE), OKB “Gidropress”, NRC “Kurchatov Institute” with supercritical thermal and fast neutron spectra, it seems more promising to develop a reactor with fast spectrum of neutrons. For ~10 years, IPPE and OKB “Gidropress” have been working together on the VVER-SKD concept project - a single-circuit RC with a coolant SCP with a fast-resonance neutron spectrum with a capacity of Ne = 1700 MW. This rector is recognized as a prospect for the development of VVER technology with the possibility of using uranium fuel and switching in the future to MOX-based fuel (U-Pu-Th) and to SNF. When developing VVER-SKD, it is necessary to solve a complex of scientific and technical problems: development and verification of calculation codes of improved estimation for neutron physics, hydrodynamics and water heat transfer of SCP in fuel assemblies (FA) of the core and throughout the reactor; development of fuel elements and FA structures, justification of their operability; analysis of reactor stability under transient and emergency conditions; selection of heat-resistant structural materials for fuel rods and reactor vessel with high corrosion resistance; justification and development of optimal water-chemical regime, etc. Some of these problems are investigated in bench and loop tests, but to solve most of them and justify the technology for subsequent licensing, it is necessary to create an experimental test reactor. In relation to the VVER-SKD reactor Ne = 1700 MW, the paper presents the results of calculations of fuel cycles with MOX and nitride fuels, justifies the use of NPS in the ZTC, discusses the problems of heat exchange and thermal hydraulics, and suggests a test reactor option.
超临界压力水冷却反应堆的制造技术问题
超临界水冷堆(SCWR)在“第四代”国际论坛(MFP)框架内被采纳为最有前途的第四代反应堆之一。在拥有先进核电的16个国家,超过45个组织正在为该项目制定SCWR概念提案。SCWR的概念是基于核电站直接流动单回路方案的实施,由SCP水冷却。引进这种类型的核电站将提高效率高达45%,增加燃料再生系数,减少金属消耗和建筑体积,并改善经济和环境绩效。参与SCWR MFP的国家将开发具有热中子能谱和铀燃料的反应堆作为优先任务,但在后续阶段,随着乏核燃料(SNF)和小锕系元素(SA)储存问题的增加,有可能切换到具有快中子能谱、MOX燃料和封闭燃料循环(CFC)的反应堆。在MFP的框架内,正在开发各种版本的SCWR,其冷却剂的参数及其在堆芯中的循环方案不同。已经成立了研究物理学、热工学、传热、材料、人员培训等问题的小组。A.I. Leypunsky物理与动力工程研究所(IPPE)、OKB“Gidropress”、NRC“Kurchatov研究所”对水冷堆进行了近15年的超临界热中子和快中子谱研究,似乎更有希望开发具有快中子谱的反应堆。大约10年来,IPPE和OKB“Gidropress”一直在VVER-SKD概念项目上合作,这是一个单回路RC,带有冷却剂SCP,具有快共振中子谱,容量为Ne = 1700 MW。该载体被认为是VVER技术发展的前景,有可能使用铀燃料,并在未来转向基于mox的燃料(U-Pu-Th)和SNF。在开发VVER-SKD时,需要解决一系列复杂的科学和技术问题:开发和验证改进的计算代码,以估计堆芯和整个反应堆燃料组件(FA)中SCP的中子物理、流体力学和水传热;燃料元件和FA结构的发展,其可操作性的论证;瞬态和应急条件下反应堆稳定性分析高耐腐蚀性燃料棒和反应堆容器耐热结构材料的选择最佳水化学状态的论证与发展等。其中一些问题已经在台架和环路试验中进行了研究,但要解决其中的大多数问题,并证明该技术在随后的许可中是合理的,有必要创建一个实验测试堆。以VVER-SKD反应器Ne = 1700 MW为例,介绍了MOX和氮化物燃料循环的计算结果,论证了NPS在ZTC中的使用,讨论了热交换和热工水力问题,并提出了试验堆方案。
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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