According to the second high-level radioactive waste management national basic plan announced in December 2021, the reference geological disposal concept for spent nuclear fuels (SNF) in Korea followed the Finnish concept based on KBS-3 type. Also, the basic plan required consideration of the development of the technical alternatives. Accordingly, Korea Atomic Energy Research Institute is conducting analyses of various alternative disposal concepts for spent nuclear fuels and is in the final selection stage of an alternative disposal concept. 10 disposal concepts including reference concept were considered for analysis in terms of disposal efficiency and safety. They were reference concept, mined deep borehole matrix, sub-seabed disposal, deep borehole disposal, multi-level disposal, space disposal, sub-sea bed disposal, long-term storage, deep horizontal borehole disposal, and ice-sheet disposal. Among them, first 4 concepts, mined deep borehole matrix, sub-seabed disposal, deep borehole disposal, multi-level disposal, were selected as candidate alternative disposal concepts by the evaluation of qualitative items. And then, by the evaluation of quantitative and qualitative items with specialists, multi-level disposal concept was being selected as a final alternative disposal concept. Design basis and performance requirements for designing alternative disposal systems were laid in the previous stage. Based on this, the design strategy and main design requirements were derived, and the engineered barrier system of a high-efficiency disposal concept was preliminary designed accordingly. In addition, as an alternative disposal concept, performance targets and related requirements were established to ensure that the high-efficiency repository system and its engineered barrier system components, such as disposal containers, buffer bentonites, and backfill perform the safety functions. Items that qualitatively describe safety functions, performance goals, and related requirements at this stage and items whose quantitative values are changed according to future test results will be determined and updated in the process of finalizing and specifically designing an alternative highefficiency disposal system.
The country has been to industrialization, urbanization, centralization due to rapid economic growth and industrial facilities are aging by focusing on economic growth. These industrial facilities are often due to an unexpected accident occurred. This study was performed for suggesting the plan to promote the function of safety management for national infrastructures. In order to achieve the goal of study, safety association laws were analyzed, and safety-related organizations were investigated by business fields.
This study aims at developing the paraglider with the enhanced function and safety of flight by performing the simulation and test of flight with two slots at each wing tip of canopy. When the distributions of velocity and shear stress at wall around the canopy were compared, the canopy with slots showed the distribution of less velocity and shear stress at wall significantly than the canopy without slots by confirming the safety of the paraglider. Series of simulation were conducted to achieve the optimal shape of slots by applying various sizes and positions of the slots, resulting nine cases with the better outcome on which flight tests were based. The flight test results in this study confirmed that canopy with slots showed the improved flight function by increasing the maximum velocity, decreasing the minimum velocity, delaying the stall timing significantly and consequently improving the safety of the paraglider. Based on the simulation and flight tests, three cases with the best outcome have been selected for merchandising strategies.
In recent years, the surroundings of Fire have rapidly changed and citizens need for Fire have been demanding very high. Under these situations, in order for satisfaction to all these demands, Seoul Metropolitan Government Fire Academy(SFA) have only to improve its educational training program as the fire educational training center in Korea. The purpose of this study is to scrutinize current educational training program of SFA and measure the relative weight among the hierarchy of disaster management(prevention and mitigation-prepare dness-response-recovery) by using the Analytic Hierarchy Process(AHP). The result of this study presents that how many hours must be allocated and set the educational training program with scientific and systematic way of AHP compared the current program of SFA in 2013. And This study is applied to increase access and comprehension about the AHP and will be able to present guideline for the selection of optimal the educational training of SFA to serve Seoul citizens the best Fire services.
현재 국도개량사업으로 국도의 이동성이 향상되었으나 유출부에 설치된 도로안전시설인 시선유도시설은 일관성 없이 설치되거나 미설치된 경우가 많다. 유출부의 시선유도시설은 유출부의 안전성을 높이는 시설임에도 불구하고 각 유출부마다 서로 다른 유형으로 설치되어 그 기능적 검토가 필요할 것으로 판단하였다. 이에 본 연구에서는 현장조사를 통하여 조사된 시설유형별로 설치기준의 적합성을 검토한 후 운전자 인지특성을 고려한 효과적인 시설유형을 제시하고자 하였다. 이를 위하여 3D-시뮬레이션을 개발하여 보다 객관적인 비교실험을 수행하였다. 시설유형 간 비교변수는 운전자 인지특성을 대변할 수 있는 현저성, 시인성으로 선정하여 시설유형에 대한 각각의 특성실험을 수행하였으며 인지 특성변수로 채택된 시인성의 실험에 대한 피 실험자의 측정오차를 줄이기 위하여 초점기록계(Eye Marker Recorder)를 이용하여 실험함으로서 보다 정량적이고, 객관적인 주시빈도를 측정할 수 있었다. 각각의 측정 변수들에 대한 시설유형 간 유의성을 검증하기 위하여 분산 분석으로 검토하였다. 그 결과 현저성은 시설유형 간 유의미한 차이를 나타냈으며, 유출부를 인지하는데 안전표지, 장애물표적표지, 시선유도등, 시선유도봉이 설치된 시설유형이 가장 유리한 것으로 평가되었다. 또한 시인성의 효과척도로 주시빈도를 측정한 결과 시설유형 간 유의미한 차이를 알 수 있었으며, 현저성과 동일한 시설유형이 설치되었을 때 유출부를 인지하는데 유리한 것으로 평가되었으며 전체적인 결과를 종합하여 볼 때 안전표지, 장애물표적표지, 시선유도등, 시선유도봉의 시설이 가장 유리한 것임을 알 수 있었다.
We achieved a Quantitative economic growth through rapid developed in 1970' and 1980'. It was confronted after IMF crisis that we needed to improve the past economic policy and the industrial structure. In line of that, the problem of the industrial structure like huge accidents of 1990' converted the recognition of safety. And to improve the conversion, the research of a safety management was needed. In this paper, we thought 4M1E(Man, Machine, Method, Material, Environment) as the cause of accident using the principal of process, assuming that output is accident. Applying 4M1E to the structure of QFD(Quality Function Deployment), we propose the safety function deployment, which has the flow line as followed; demand safety, safety characteristic, direct cause, 4M1E and safety management.