• Nuclear industry
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• v.35 no.8
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• pp.72-76
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• 2015

• Proceedings of the Korean Radioactive Waste Society Conference
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• 2006.11a
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• pp.171-172
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• 2006

• Journal of Nuclear Fuel Cycle and Waste Technology(JNFCWT)
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• v.5 no.3
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• pp.229-238
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• 2007

In this paper, structural design requirements and safety evaluation criteria of the spent nuclear fuel disposal canister are studied for deep geological deposition. Since the spent nuclear fuel disposal canister emits high temperature heats and much radiation, its careful treatment is required. For that, a long term(usually 10,000 years) safe repository for the spent nuclear fuel disposal canister should be secured. Usually this repository is expected to locate at a depth of 500m underground. The canister which is designed for the spent nuclear fuel disposal in a deep repository in the crystalline bedrock is a solid structure with cast iron insert, corrosion resistant overpack and lid and bottom, and entails an evenly distributed load of hydrostatic pressure from underground water and high pressure from swelling of bentonite buffer. Hence, the canister must be designed to withstand these high pressure loads. If the canister is not designed for all possible external loads combinations, structural defects such as plastic deformations, cracks, and buckling etc. may occur in the canister during depositing it in the deep repository. Therefore, various structural analyses must be performed to predict these structural problems like plastic deformations, cracks, and buckling. Structural safety evaluation criteria of the canister are studied and defined for the validity of the canister design prior to the structural analysis of the canister. And structural design requirements(variables) which affect the structural safety evaluation criteria should be discussed and defined clearly. Hence this paper presents the structural design requirements(variables) and safety evaluation criteria of the spent nuclear fuel disposal canister.

• Explosives and Blasting
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• v.35 no.3
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• pp.31-54
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• 2017

In the countries operating nuclear reactors, the development of high-level radioactive waste(HLW) disposal technique is considered as an urgent and important issue for sustainable utilization of nuclear energy. In Korea, in which a low and intermediate radioactive waste repository is already operating, the construction of an underground research laboratory for in situ validation studies became a matter of interest with increasing concerns on the management of HLW. In order to construct and to operate an underground HLW repository safely in deep underground, the stability of rock mass should be guaranteed. As an important factor on rock stability, excavation damaged zone (EDZ) has been studied in many underground research laboratories in foreign countries. For accurate evaluation of the characteristics and effects of EDZ under disposal condition, it is required to use reliable investigation method based on the analysis of previous studies in similar conditions. In this study, status of foreign underground research laboratories in other countries, approaches for investigation the characteristics, size, and effect of EDZ, and major findings from the researches were surveyed and reported. This will help the accomplishment of domestic researches for developing HLW management techniques in underground research laboratory.

• Nuclear Engineering and Technology
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• v.19 no.4
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• pp.249-265
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• 1987

For the probabilistic risk assessment of the high level radioactive waste repository, some methods have been proposed up to now. Since the system has highly uncertain input parameters, the evaluated risk for some input parameter values has high uncertainty. In this paper, methods of uncertainty and sensitivity analysis are devised to analyse systematically these factors and applied to a probabilistic risk assessment model of the high level waste repository, The statistical package SPUSA developed through this study can be used for any other fields, e.g., statistical thermal margin analysis, source term uncertainty analysis, etc.

• Nuclear industry
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• v.23 no.5 s.243
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• pp.24-30
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• 2003

• Nuclear industry
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• v.25 no.11 s.273
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• pp.48-55
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• 2005

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2001.09a
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• pp.41-46
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• 2001

요오드나 세순 같은 핵종들은 고용해도 핵 종들로서 사용 후 핵연료 내 피복관 이나 연료 결정 경계면에 위치하고 있다가 고준위 방사성폐기물 처분 후 지하수가 용기를 부식시키고 용기 내부로 침투하면 고용해도를 가지고 유출된 후 공학적, 천연 방벽을 통해 최종적으로 유출되게 된다. 본 연구에서는 한국원자력연구소에서 개발한 MASCOT-K글 이용하여 고용해도 핵 종들이 조화 유출과 고용해도 유출할 경우 유출 량을 평가 분석해 보았다. 평가 결과 요오드와 같은 고용해도 핵 종인 경우 전체 핵 종 재고량의 최대 10%만이 고용해도 유출을 하지만 그 영향은 조차 유출에 비해 훨씬 중요한 것으로 판명되었다. 이러한 결과를 바탕으로 현재 국내 고 준위 처분 환경에서 보수적인 시나리오로 주목받고 있는 우물 굴착 시나리오를 대상으로 우물까지의 거리 등 입력 자료의 불확실성을 평가해 보았다. 36,000 톤의 사용 후 핵연료를 처분 대상으로 했을 때 성능 평가 결과는 현재 처분 개념이 안전함을 입증한다.

• Proceedings of the Korean Radioactive Waste Society Conference
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• 2016.05a
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• pp.157-158
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• 2016

• The Journal of Engineering Geology
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• v.34 no.1
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• pp.117-136
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• 2024

Deep geological disposal of high-level radioactive waste is imperative to national safety and environmental protection and it relies on establishing siting criteria suited to the geological and social conditions of each country. This paper compares the various geological and social criteria applied by different countries in the process of securing sites for the deep geological disposal of high-level radioactive waste. The present comparative analysis considers the siting criteria established by the worlds leading countries in high-level radioactive waste disposal with the aims of establishing detailed criteria appropriate to Korea's conditions and applying the criteria to explore safe and suitable sites for deep geological disposal. The findings of this research are expected to serve as a foundation for establishing criteria for the selection of disposal sites for high-level radioactive waste in Korea and are anticipated to contribute significantly to sustainable national development and environmental protection.