小型模块化反应堆的设计和防扩散可行性

Z. Koreshi
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摘要

小型模块化反应堆(SMRs)是具有经济竞争力的核电系统,旨在提供可持续、清洁、安全、可靠的核能,不存在裂变材料扩散的风险。它们是目前大型核反应堆的小型版本,在设计上进行了进一步的简化,改进了可靠的被动安全系统,并结合了创新的概念。smr具有高功率密度和无碳排放的固有优势,特别是其创新特性是核能回归的信号,或者用阿尔文·温伯格博士的话来说,在许多方面是“第二个核时代”。根据一些估计,到2030年将有多达96个小型反应堆。本文论述了理解新兴全球环境下SMR的三个重要方面:(i)设计,(ii)运行期间钚的生产,以及(iii)其应用范围。东芝创新的4S设计是一个代表性的小型SMR,用于估算钚产量,这也适用于其他SMR。为了更好地理解中小企业管理模式的可行性,本研究考虑了新兴的开发商、出口商和市场,在这些市场中,中小企业管理模式可以显著改善面临巨大障碍的社会的整体社会经济发展。
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Design and Non-Proliferation Viability of Small Modular Reactors
Small Modular Reactors (SMRs) are economically competitive nuclear power systems aimed to provide sustainable clean safe and reliable nuclear energy free from the risk of fissile material proliferation. They are smaller versions of the present-day large nuclear power reactors with additional design simplifications, improved and reliable passive safety systems incorporating innovative concepts. With the intrinsic advantage of high power density and carbon-free emissions, SMRs and especially their innovative features are the signals for a nuclear comeback, or in Dr Alvin Weinberg’s words “the second nuclear era” in many ways. According to some estimates, there could be up to 96 SMRs by 2030. This paper addresses three vital areas to the understanding of the SMR’s in emerging global environments: (i) design, (ii) production of plutonium during operation, and (iii) their scope of applications. A representative, though very small SMR, Toshiba’s innovative 4S design is used for presenting estimates of plutonium production which are applicable to other SMRs as well. To better understand the viability of SMRs, this work considers the emerging developers, exporters and markets where SMRs can make significant improvements to the overall socio-economic development of societies challenged with formidable barriers.
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