考虑先进腐蚀退化的船体梁偶然失效概率分析框架:面向基于风险的船舶设计

A framework to analyse the probability of accidental hull girder failure considering advanced corrosion degradation for risk-based ship design

Reliability Engineering and System Safety · 2024
被引 14
ABS 3

中文导读

提出一个框架,结合新型腐蚀模型和偶然损伤,用蒙特卡洛模拟计算船体梁失效概率,对船舶设计师和结构安全评估者有用。

Abstract

Ship’s hull girder failure could result from maritime accident that can cause human life loss, environmental disaster, and major economic impacts. In risk-based ship design paradigm, accounting for rare phenomena (e.g. ship-ship collision or grounding) is important to provide safe and durable structure. In-service corrosion-induced hull degradation should be considered at the design stage, as it can significantly affect structural strength. The current study presents a novel framework to estimate the probability of ship hull girder failure, accounting for novel corrosion modelling techniques and accidental damage. The associated uncertainties are considered using statistical sampling from evidence-based distributions. A state-of-the-art deterministic model for ultimate strength calculation is applied using Monte Carlo simulation approach, resulting in the probability of hull failure through a reliability assessment. Wave and still-water bending moments are considered random variables. Two case studies of tanker ships with varying sizes are executed to show the applicability of the proposed framework. The results indicate that proper consideration of corrosion is of high importance, as ageing can significantly increase the probability of failure if accidental damage happens. Therefore, whereas future research and model refinement are discussed, the presented framework can serve for risk-based ship design tool and assess existing structures’ safety.

船舶工程结构可靠性腐蚀退化风险设计蒙特卡洛方法