未来核电站的安全不能与经济相冲突

V. Petrochenko, G. Toshinsky, O. Komlev
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引用次数: 1

摘要

安全要求与经济要求之间的冲突是当前核电所特有的。冲突的要点在于,对于传统型反应堆来说,对核电站安全要求的提高使其经济特性恶化。这是由于在反应堆冷却剂中积累了大量势能造成的。本文论述了未来核电站改用重液态金属冷却剂(HLMC)反应堆的时机和可行性。首先,这是指核潜艇(NS)反应堆运行过程中掌握的铅铋冷却剂(LBC)。这种类型的反应堆设施不会造成防御屏障的破坏,并可能确定性地消除具有灾难性放射性释放的严重事故。这将使消除人们的放射恐惧症的突出冲突和存在原因成为可能。功率为100兆瓦的铅铋快堆SVBR-100就是该类型的反应堆设施。考虑了冷却液势能积累对安全性和经济性的影响。介绍了SVBR-100技术的主要特点,提供了高水平的固有自我保护和被动安全。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Safety of Future NPPs Must Not Be in Conflict with Economics
The conflict between safety and economics requirements is peculiar to the present nuclear power (NP). The main point of the conflict is that for traditional type reactors the increase of requirements to safety of nuclear power plants (NPP) worsens their economical characteristics. This is caused by large potential energy accumulated in reactor coolant. In the presented paper the opportunity and expediency of changeover to reactors with heavy liquid-metal coolants (HLMC) in future NP is grounded. First of all, this refers to lead-bismuth coolant (LBC) mastered in the process of operating nuclear submarines (NS) reactors. The reactor facilities (RFs) of that type cannot cause destruction of defense barriers and make possible deterministic elimination of severe accidents with catastrophic radioactivity release. So it will make possible to eliminate the highlighted conflict and reasons for existence of population’s radiophobia. Lead-bismuth fast reactor SVBR-100 with electric power of 100 MWe is the reactor facility of that type. The effect of accumulated in coolant potential energy on safety and economics is considered. Main specific features of SVBR-100 technology providing a high level of inherent self-protection and passive safety are presented.
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来源期刊
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