ESG 경영을 위한 석유화학 산업단지 사고 위험도 분석

ESG management has garnered increased attention from both companies and governments, with growing international emphasis on its importance. In preparation for upcoming changes, industries across the board are gearing up for transformative shifts. However, prior to embracing change, a clear analysis of existing processes through risk assessment is crucial for effective environmental impact management and ensuring worker safety—both fundamental aspects of ESG. This study aimed to evaluate the risk levels of accidents oc- curring at different stages of industrial complexes through the analysis of accident data. The risk analysis for accident prevention was conducted in three stages. In the first stage, classification was carried out based on the characteristics of accident occurrences. In the second stage, a series of procedures representing the general flow of processes in the petrochemical industry were developed and classified as "process stages." Similarly, accidents occurring during tasks were categorized by procedure stages based on the type of work. In the third stage, the frequency and severity of each accident were calculated and scored. Based on the results, key risk stages were identified for each type of accident. Industrial complex accidents were broadly classified into acci- dents during the production of petrochemical substances ("process") and other "task" accidents. Accidents oc- curring during tasks were further classified into general tasks, hazardous material tasks, and confined space tasks. The identification of key risk stages for each process/task in the industrial complex aims to formulate safety strategies for accident prevention at each risk stage. Moreover, the derived information can be utilized in establishing worker-centric risk analysis, promoting ethical governance, and practicing social responsibility through accident prevention. It can also contribute to the development of ESG strategies in the petrochemical industry, including the establishment of environmentally friendly processes to minimize environmental impact.