Development of Strength Evaluation Methodology for Independent IMO TYPE C Tank with LH2 Carriers

Journal of Ocean Engineering and Technology Pub Date : 2024-06-03 DOI:10.26748/ksoe.2024.047

Beom-Il Kim, Kyoung-Tae Kim, MD Shafiqul Islam

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Abstract

: Given the inadequate regulatory framework for liquefied hydrogen gas storage tanks on ships and the limitations of the IGC Code, designed for liquefied natural gas, this study introduces a critical assessment procedure to ensure the safety and suitability of such tank designs. This study performed a heat transfer analysis for boil-off gas (BOG) calculations and established separate design load cases to evaluate the yielding and buckling strength. In addition, the study assessed methodologies for both high-cycle and low-cycle fatigue assessments, complemented by comprehensive structural integrity evaluations using finite element analysis. A comprehensive approach was developed to assess the structural integrity of Type C tanks by conducting crack propagation analysis and comparing these results with the IGC Code criteria. The practicality and efficacy of these methods were validated through their application on a 23K-class liquefied hydrogen carrier at the concept design stage. These findings may have important implications for enhancing safety standards and regulatory policies

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为独立的 IMO C 型液化氢储罐开发强度评估方法

:鉴于船舶液化氢气储罐的监管框架不完善，以及为液化天然气设计的 IGC 规范的局限性，本研究引入了一个关键评估程序，以确保此类储罐设计的安全性和适用性。本研究对沸腾气体 (BOG) 计算进行了传热分析，并建立了单独的设计载荷案例来评估屈服和屈曲强度。此外，该研究还评估了高循环和低循环疲劳评估方法，并利用有限元分析进行了全面的结构完整性评估。通过进行裂纹扩展分析，并将这些结果与 IGC 规范标准进行比较，开发出一种综合方法来评估 C 型储罐的结构完整性。通过在概念设计阶段对 23K 级液化氢载体的应用，验证了这些方法的实用性和有效性。这些发现可能对提高安全标准和监管政策具有重要意义

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Ocean Engineering and Technology

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