Litcius/Paper detail

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

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

2024Journal of Ocean Engineering and Technology13 citationsDOIOpen Access PDF

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.

Topics & Concepts

Liquefied natural gasEngineeringStructural integritySize effect on structural strengthReliability engineeringStructural engineeringCivil engineeringEnvironmental scienceRisk analysis (engineering)Waste managementNatural gasMedicineSpacecraft and Cryogenic TechnologiesOffshore Engineering and TechnologiesMarine and Coastal Research