This paper described a method for analyzing the structural performance of a metal container used for disposing radioactive waste generated during the decommissioning of a nuclear power plant, and numerical analysis results of a method for reinforcing the container. The containers to be analyzed were those that can be used in near-surface and landfill disposal facilities scheduled to be operated at the Gyeongju radioactive waste disposal facility. Structural reinforcement of the container was performed by lattice reinforcement, column reinforcement, and bottom plate reinforcement. Accordingly, a total of 14 reinforcement cases were modeled. The external force causing damage to the container was set equivalent to the impact of a 9-m fall, accounting for the height of the vault at the near-surface disposal facility. The reinforcement methods with a high contribution to the structural performance of the container were concluded to be lattice and column reinforcements.

The type of radioactive waste that may occur in the process of nuclear power plant dismantling can be classified into solid, liquid, gas, and mixed waste. The amount of these wastes must be defined in the Final Decommissioning Plan for approval of the licensing. Also, in the case of liquid radioactive waste, it is necessary to calculate the generation amount in order to treat radioactive waste at a Radioactive Waste Treatment Facility (RWTF) or on-site. In this regard, there is no Code and Standard for the amount of liquid radioactive waste generated during NPP are dismantled, but ANSI/NS-55.6 describes the amount of liquid radioactive waste generated from a light water reactor type NPP. This code is applied to nuclear power-related facilities such as domestic NPP and radioactive waste disposal facility. Therefore, this review intends to suggest an application plan for domestic NPP decommissioning through codes for liquid radioactive waste expected to generate during nuclear power plant decommissioning.

Radioactive waste generated in large quantities from NPP decommissioning has various physicochemical and radiological characteristics, and therefore treatment technologies suitable for those characteristics should be developed. Radioactively contaminated concrete waste is one of major decommissioning wastes. The disposal cost of radioactive concrete waste is considerable portion for the total budget of NPP decommissioning. In this study, we developed an integrated technology with thermomechanical and chemical methods for volume reduction of concrete waste and stabilization of secondary waste. The unit devices for the treatment process were also studied at bench-scale tests. The volume of radioactive concrete waste was effectively reduced by separating clean aggregate from the concrete. The separated aggregate satisfied the clearance criteria in the test using radionuclides. The treatment of secondary waste from the chemical separation step was optimally designed, and the stabilization method was found for the waste form to meet the final disposal criteria in the repository site. The final volume reduction rates of 56.4~75.4% were possible according to the application scenario of our processes under simulated conditions. The commercial-scale system designs for the thermomechanical and chemical processes were completed. Also, it was found that the disposal cost for the contaminated concrete waste at domestic NPP could be reduced by more than 20 billion won per each unit. Therefore, it is expected that the application of this technology will improve the utilization of the radioactive waste disposal space and significantly reduce the waste disposal cost.

영구정지후 해체가 계획된 고리 1호기 원자력발전소는 해체과정에서 다양한 종류의 방사성폐기물이 대량으로 발생될 것으 로 예상되고 있으며, 이 중 원자로 및 내부구조물은 방사능 수치가 높으므로 1차측에서 적절한 크기와 중량으로 해체된다. 고리 1호기 해체시 원자로 및 내부구조물에서 발생되는 방사성폐기물에 대하여 기존 폐기물의 자체처분 현황 및 법적 제한 사항 분석 등을 통해 적절하고 효율적인 처분방법을 마련하는 것은 중요한 사안일 것으로 판단된다. 원자로 및 내부구조물 에서 발생되는 폐기물은 중준위에서부터 자체처분까지 다양한 준위의 폐기물들이 발생되며, 이 중 자체처분 준위에 해당되 는 폐기물은 방사화 평가 결과, 원자로 상부 헤드와 상부 헤드 인슐레이션에서 발생되는 것으로 나타났다. 본 논문에서는 방사화 평가 결과를 바탕으로 자체처분 준위에 해당되는 폐기물을 자체처분 평가 코드인 RESRAD-RECYCLE 코드를 사용하여 자체처분 안전성 평가를 수행하였다. 대상 폐기물의 자체처분 시나리오를 선정하고 자체처분시 개인 및 집단별 최대선량을 계산하여 국내 원자력안전법에서 규정하는 자체처분 기준 제한치의 만족 여부를 판단하였다. 평가 결과, 전체적으로 상당히 낮은 결과값을 보이며 기준 제한치를 만족하는 결과를 나타내었으며, 핵종별 자체처분 허용농도를 도출하였다.

Since the commercial operation of Kori Unit #1 nuclear power plant(NPP) started in 1978, 23 units at present are operating in Korea. Radioactive wastes will be steadily generated from these units and accumulated. In addition, the life-extension of NPPs, construction of new NPPs and decontamination and decommissioning research facilities will cause radioactive wastes to increase. Recently, Korea has revised the new classification criteria as was proposed by IAEA. According to the revised classification criteria, low-level, very-low-level and exempt waste are estimated to about 98% of total disposal amount. In this paper, current status of overseas cases and disposal method with new classification criteria are analyzed to propose the most reasonable method for estimating the amount of decommissioning waste when applying the new criteria.