In 2017, Kori unit 1 nuclear power plant was permanently shut down at the end of its life. Currently, Historical Site Assessment (HSA) for MARSSIM characteristics evaluation is being conducted according to the NUREG-1575 procedure, this is conducted through comprehensive details such as radiological characteristics preliminary investigation and on-site interview. Thus, the decommissioning of nuclear power plant must consider safety and economic feasibility of structures and sites. For this purpose, the establishment of optimal work plan is required which simulations in various fields. This study aims to establish procedure that can form a basis for a rational decommissioning plan using the virtual nuclear power plant model. The mapping procedure for 3D platform implementation consisted of three steps. First, scan the inside and outside of the nuclear power plant for decommissioning structure analysis, 3D modeling is performed based on the data. After that, a platform is designed to directly measure the radiation dose rate and mapped the derived to the program. Finally, mapping the radiation dose rate for each point in 3D using the radiation dose rate calculation factor according to the time change the measured value created on the 3D mapping platform. When the mapping is completed, it is possible to manage the exposure dose of workers according to the ALARA principle through the charge of radiation dose rate over time because of visualization of the color difference to the radiation dose rate at each point. For addition, the exposure dose evaluation considering the movement route and economic feasibility can be considered using developed program. As the interest in safety accidents for workers increases, the importance of minimum radiation dose and optimal work plan for workers is becoming increasingly important. Through this mapping procedure, it will be possible to contribute to the establishment of reasonable process for dismantling nuclear power plant in the future.
의료용 사이클로트론 해체시 많은 양의 저준위 방사성 폐기물을 발생시키며 이에 따른 큰 해체 비용을 야기한다. 이에 국외에서는 동위원소 생산시설 도입시 해체 자금에 관한 계획을 제출할 것을 권고하고 있다. 해체 자금 계획 수립을 위해서는 해체 비용을 해체 활동과 시설의 구성 요소에 맞게 합리적으로 계산되어야 한다. 본 연구에서는 2012년 12월 수행된 국내 서울대학교병원 사이클로트론(TR-13) 해체 사례를 통하여 폐기 시나리오일 때의 방사성 폐기물 처리 비용을 분석하고 해체 비용 산정시 필요한 고려사항에 대해 살펴보고 향후 해체 자금 계획 수립에 필요한 사항을 도출하고자 하였다.