英国SMR组件设计方法

C. Bell
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摘要

英国小型模块化反应堆(SMR)正在由罗尔斯·罗伊斯公司牵头的财团开发,以提供市场驱动的、负担得起的低碳能源发电能力。英国SMR是一种压水反应堆(PWR),其设计基于成熟的技术,通过多个主动和被动系统实现了高水平的安全性。本文介绍了在英国SMR压力容器的早期设计阶段所采用的方法。它考虑了关键的设计原则,例如标准化,简化和制造,检查和组装设计,这些原则正在应用于使成本和交货时间减少,这是英国SMR成为大型常规核电站的可行替代方案所必需的。以反应堆压力容器(RPV)为例,说明需要解决的一些关键设计要求。核部件的设计和制造必须符合与其所执行的安全功能的重要性相称的标准。本文介绍了英国对具有灾难性失效模式的部件(如RPV)进行失效不可思议设计的实践。它描述了额外的功能,包括更严格的材料规格和测试,额外的缺陷公差研究和制造检查的资格,这些需要在设计中解决,以满足高可靠性要求。
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Approach to UK SMR Component Design
The United Kingdom (UK) Small Modular Reactor (SMR) is being developed by a Rolls-Royce led consortium to provide a market driven, affordable, low carbon energy, generation capability. The UK SMR is a Pressurised Water Reactor (PWR) design based on proven technology with a high level of safety achieved through multiple active and passive systems. This paper presents the approach that has been taken in the early design phases of the pressure vessels for the UK SMR. It considers the key design principles e.g. standardisation, simplification and design for manufacture, inspection and assembly which are being applied to enable the cost and lead-time reductions which are necessary for the UK SMR to be a viable alternative to larger conventional nuclear plants. The Reactor Pressure Vessel (RPV) is used as an example to illustrate some of the key design requirements which need to be addressed. Nuclear components are required to be designed and constructed to standards which are commensurate with the significance of the safety functions which they perform. This paper covers the practice established in the UK of designing to Incredibility of Failure for those components with catastrophic failure modes such as the RPV. It describes the additional features including more stringent materials specification and testing, additional defect tolerance studies and the qualification of manufacturing inspections which need to be addressed in the design to satisfy the high reliability claim.
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