自然循环
软件部署
模块化设计
核工程
热交换器
冷却液
天然铀
环境科学
超级明星
机械工程
计算机科学
工程类
核物理学
操作系统
物理
铀
广告
业务
作者
James J. Sienicki,A. Moisseytsev,G. Aliberti,Sara Bortot,Qiyue Lu
摘要
An improved 120 MWe (300 MWt) Secure Transportable Autonomous Reactor (STAR) lead-cooled, pool-type, small modular fast reactor named the Sustainable Proliferation-resistance Enhanced Refined Secure Transportable Autonomous Reactor (SUPERSTAR) is being developed at Argonne National Laboratory for international or remote deployment on growing electrical grids integrating lessons learned, innovations, and best features from the previous STAR-LM, SSTAR, and ELSY concepts. Initial efforts are focused on a near-term deployable SUPERSTAR demonstrator (demo) representing a first-of-a-kind deployment. Key new features of a SUPERSTAR demo concept including a long lifetime fissile self-sufficient converter core incorporating particulate-based metallic fuel, low pressure drop Intermediate Heat Exchangers incorporating compact diffusion-bonded Formed Plate Heat Exchanger technology exposing the reactor vessel to only cold Pb coolant, and a natural circulation Heavy Liquid Metal Coolant intermediate heat transport circuit are shown to be viable. (authors)
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