Geologic Analysis of the Democratic People’s Republic of Korea’s Uranium Resources and Mines

IF 0.7 Q3 INTERNATIONAL RELATIONS Science & Global Security Pub Date : 2020-05-03 DOI:10.1080/08929882.2020.1789275

Sulgiye Park, Allison Puccioni, C. Tracy, E. Serbin, R. Ewing

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引用次数: 1

Abstract

Abstract The mining and milling of uranium ore is the first step in the production of fissile material and is a rate-limiting step for the indigenous production of nuclear weapons in the Democratic People’s Republic of Korea (DPRK). This study reports a geologic analysis of uranium mines in the DPRK in order to bound the state’s potential uranium production. The analysis suggests that the uranium deposits of the possible mines are of four types: (1) black shale (metamorphosed organic shale); (2) limestone; (3) granite/metasomatic; and (4) metamorphic deposits. Comparison with geologically-related, uranium-bearing host rocks in the Republic of Korea (ROK) indicate that DPRK uranium mines are associated with medium-to-high quantities of average low-grade ore (0.001–0.04 wt.% uranium). Using this low-grade ore, expansion of the state’s nuclear arsenal would require the extraction of larger quantities of uranium ore than has been previously assumed. The DPRK’s geology could, therefore, limit the future development of its nuclear weapons program.

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朝鲜民主主义人民共和国铀资源和矿山地质分析

铀矿石的开采和磨矿是裂变材料生产的第一步，也是朝鲜民主主义人民共和国自主生产核武器的限速步骤。本研究报告了朝鲜铀矿的地质分析，以约束该国的潜在铀生产。分析认为，可能存在的铀矿床类型为4种类型:(1)黑色页岩(变质有机页岩);(2)石灰岩;(3)花岗岩/交代;(4)变质矿床。与韩国含铀主岩的地质相关对比表明，朝鲜铀矿具有中高含量的平均低品位矿石(0.001 ~ 0.04 wt.%的铀)。使用这种低品位的矿石，扩大该州的核武库将需要提取比以前假设的更多的铀矿石。因此，朝鲜的地质条件可能会限制其核武器计划的未来发展。

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来源期刊

Science & Global Security INTERNATIONAL RELATIONS-

CiteScore

1.00

自引率

14.30%

发文量