The coastal composite fishery has the highest rate of around 30.0% in registered fishing vessels of Korea for the last three years. The risk analysis for the fisher’s safety of coastal composite fishing vessels was conducted to serve as a basic data for improving the healthy and safe working environment of fisher using fisher’s occupational accidents of the national federation of fisheries cooperatives (NFFC) from 2016 to 2018 (n = 1,105). As a result, the occupational accident occurrence rate of coastal composite fishery was 3.76% in all industries, 7.8 times the rate of that. In addition, death and missing rate was found to have a serious level management to 10.10‱. Among the accidents, 76.0% occurred at sea. The slipping, others and contact with machinery or fishing gear occurred more frequently in order in the frequency of accident occurrence pattern. In the risk assessment using frequency and severity, slipping, contact with machinery and others showed high risk during fishing. The results are expected to contribute to identification and assessment of safety hazard occurred in coastal composite fishing vessels.
A small dam is of hydraulic structures, which is always exposed to risk by flood, and it’s very important to ensure structural safety. A probabilistic analysis, quantifying variable as a risk factor to ensure safety of small dam, identifying its coefficient of variation, which has become increasingly important. In this study, the risk of seepage failure of foundation within a small dam was estimated based on flood scenarios by rainfall quantile. The final compound risk was evaluated combining probabilities, related to seepage failure and flood level. The seepage failure probability was estimated by performing seepage analysis depending on the water level difference between upstream and downstream in small dam. The probable flood level was estimated by considering hydraulic uncertainty associated with channel geometry, and movable gate operation during the flooding season, applied a probable flood considering hydrologic uncertainty evaluated by Bayesian approach. The safety evaluation of small dam with probabilistic-based compound risk expect to use the index for hydraulic structure design in the future.
본 연구에서는 발생가능한 홍수시나리오를 기반으로 하천제방의 복합위험도를 산정하고자 하였다. 이를 위해 불확실성을 고려한 수문학적/수리 학적/지반공학적의 위험도를 각각 MCMC (Markov Chain Monte Carlo), MCS (Monte Carlo Simulation), FOSM (First-Order Second Moment) 기법을 활용하여 해석하였으며, 이들 각각의 확률을 연계하여 결합확률 형태로 나타내었다. 적용대상 유역은 낙동강에 위치한 강정고 령보를 기점으로 상․ 하류 12.5 km 구간으로 선정하였으며, 구간내의 총 6구간의 제방이 포함된다. 수문시나리오는 제방 월류가 발생하는 100년/ 200년 빈도 신뢰구간 상한치(97.5%)의 홍수량이 사용되었고, 이에 따른 홍수위 해석을 수행하여 월류위험도를 산정하였으며 월류가 발생하지 않는 구간에서는 침투, 사면안정, 수위급강하 등 제방의 지반공학적 위험도를 산정하였다. 기존 결정론적 위험도 해석보다 확률론적 위험도 해석 에 의한 복합위험도가 제방설계에 보다 안정적, 경제적인 상승효과를 가져올 수 있을 것이며, 향후 수변구조물 설계에 지표로 사용될 수 있을 것으 로 기대된다.