Research Information System
OCEAN & COASTAL MANAGEMENT, vol.264, no.2025, pp.1-15, 2025 (SCI-Expanded)
Liquefaction is the phenomenon in which a material with soil-like properties rapidly transitions from a solid, dry state to a nearly fluid state, posing significant risks to maritime safety. This study employs Fuzzy Fault Tree Analysis (FFTA) and Failure Mode and Effect Analysis (FMEA) to systematically evaluate the risks associated with nickel ore liquefaction. The data were derived from expert consultations, literature review, and theoretical modeling to ensure a robust assessment framework. The analysis revealed that the probability of nickel ore liquefaction is 0.1192, with human-related factors contributing to approximately 54% of all risks. Additionally, the integration of severity and detectability values identified ‘leaking from hatch cover rubbers’ as the most critical failure mode, emphasizing the need for enhanced monitoring and crew training. This study uniquely integrates FFTA and FMEA to address human-factor-driven risks in maritime transportation. Unlike existing approaches, this dual-framework method prioritizes failure modes based on both probabilistic and consequencebased analyses, offering actionable insights for improving maritime safety. Compared to traditional methods, the proposed framework provides a comprehensive risk prioritization by integrating probabilistic analysis with consequence evaluation, allowing for more precise risk mitigation strategies.