Application of Risk Management In Shipyards Based SNI IEC/ISO 31010:2016 on New Shipbuilding Projects
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Abstract
Shipbuilding in the shipyard needs to be analyzed for risk management to minimize and take action to avoid risk. Risk management techniques in SNI IEC/ISO 31010:2016, namely the consequence and probability matrix. This study aims to identify hazards in new construction works and determine the level of consequences and the probability of a risk arising. This research's benefit is knowing the danger and risk level category. This study uses qualitative research and data collection techniques through in-depth interviews or direct observation in the field. The results showed 14 hazards from 3 jobs: plate cutting, welding, and lifting. The risk analysis scale shows a very high risk (priority I). The high risk (priority II), medium-high risk (priority III), low risk (priority IV), and shallow risk (priority V) in new construction works.
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References
International Electrotechnical Commission (IEC). IEC/ISO 31010:2009 Risk management – Risk assessment techniques. Geneva: IEC, (2009).
International Organization for Standardization (ISO). ISO 31010:2016 Risk management – Risk assessment techniques. Geneva: ISO, (2016).
Lützhöft, M., Dahlgren, J., & Kircher, A. A Framework for Risk Management in Ship Newbuilding Projects. WMU Journal of Maritime Affairs, 17(3), 397-417, (2018).
Jeong, W. Application of the Fuzzy Analytical Hierarchy Process to the Evaluation of Shipbuilding Project Risk. Journal of Coastal Research, 70(sp1), 378-383, (2014).
Kim, B. S., & Kang, H. S. A Study on the Risk Management of Shipbuilding Projects Based on the Monte Carlo Simulation Technique. Journal of the Korean Society for Quality Management, 40(1), 82-93, (2012).
Zhao, C., Wang, Z., & Wang, Y. Shipbuilding Project Risk Identification and Evaluation Based on Analytic Hierarchy Process. Journal of Coastal Research, 70(sp1), 394-399, (2014).
Teh, P. L., Chou, S. Y., & Ou, C. P. Risk Assessment for Shipbuilding Projects: A Fuzzy Analytic Network Process Approach. Journal of Marine Science and Technology, 20(6), 788-799, (2012).