Partitioning and transmutation contribution of MYRRHA to an EU strategy for HLW management and main achievements of MYRRHA related FP7 and H2020 projects: MYRTE, MARISA, MAXSIMA, SEARCH, MAX, FREYA, ARCAS

IF 0.9 Q3 NUCLEAR SCIENCE & TECHNOLOGY
H. Abderrahim, P. Baeten, A. Sneyers, M. Schyns, P. Schuurmans, A. Kochetkov, G. Eynde, J. Biarrotte
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引用次数: 8

Abstract

Today, nuclear power produces 11% of the world's electricity. Nuclear power plants produce virtually no greenhouse gases or air pollutants during their operation. Emissions over their entire life cycle are very low. Nuclear energy's potential is essential to achieving a deeply decarbonized energy future in many regions of the world as of today and for decades to come, the main value of nuclear energy lies in its potential contribution to decarbonizing the power sector. Nuclear energy's future role, however, is highly uncertain for several reasons: chiefly, escalating costs and, the persistence of historical challenges such as spent fuel and radioactive waste management. Advanced nuclear fuel recycling technologies can enable full use of natural energy resources while minimizing proliferation concerns as well as the volume and longevity of nuclear waste. Partitioning and Transmutation (P&T) has been pointed out in numerous studies as the strategy that can relax constraints on geological disposal, e.g. by reducing the waste radiotoxicity and the footprint of the underground facility. Therefore, a special effort has been made to investigate the potential role of P&T and the related options for waste management all along the fuel cycle. Transmutation based on critical or sub-critical fast spectrum transmuters should be evaluated in order to assess its technical and economic feasibility and capacity, which could ease deep geological disposal implementation.
MYRRHA对欧盟高放废物管理战略的划分和转变贡献以及MYRRHA相关FP7和H2020项目的主要成就:MYRTE、MARISA、MAXSIMA、SEARCH、MAX、FREYA、ARCAS
如今,核能发电量占世界电力的11%。核电站在运行过程中几乎不产生温室气体或空气污染物。它们整个生命周期的排放量非常低。核能的潜力对于当今世界许多地区实现深度脱碳的能源未来至关重要,在未来几十年里,核能的主要价值在于其对电力部门脱碳的潜在贡献。然而,核能未来的作用非常不确定,原因有几个:主要是成本不断上升,以及乏燃料和放射性废物管理等历史挑战的持续存在。先进的核燃料回收技术可以充分利用自然能源,同时最大限度地减少核扩散问题以及核废料的数量和寿命。许多研究指出,分区和转化(P&T)是一种可以放松地质处置限制的策略,例如通过减少废物的放射性和地下设施的占地面积。因此,我们特别努力调查P&T在整个燃料循环中的潜在作用以及废物管理的相关选择。应评估基于临界或亚临界快速频谱变换器的变换,以评估其技术和经济可行性和能力,从而简化深层地质处置的实施。
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来源期刊
EPJ Nuclear Sciences & Technologies
EPJ Nuclear Sciences & Technologies NUCLEAR SCIENCE & TECHNOLOGY-
CiteScore
1.00
自引率
20.00%
发文量
18
审稿时长
10 weeks
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