A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Multimode coupled failure assessment of an LNGC cargo containment system considering flexible boundary condition
Abstract In recent years, there has been a demand for the large-scale membrane type LNGC due to the energy crisis. The cargo containment system (CCS) attached to the LNGC cargo tank is directly exposed to the sloshing load. Different pressure distribution forms may cause different failure modes of insulation box. The separate analysis of a single component or a single failure form cannot fully reflect the strength of CCS. Besides, the traditional numerical model with single insulation box and simply supported condition may overestimate the strength. In this study, a refined CCS numerical model attached to the inner hull structure is proposed. The deformed hull structure under sloshing impact is taken as the flexible boundary condition of CCS. The ultimate shear, bending, crushing and buckling strengths of NO96 CCS are assessed under various structures and boundary conditions. Finally, the multimode coupled analysis is conducted to fully assess the failure of CCS. The results show that the increase of structural stiffnesses can directly improve the ultimate strength. The weak structural and supporting stiffnesses make the buckling failure of insulation box become the most dangerous failure mode. The support from the strong hull structure leads to the shear failure of primary bottom plate. In the rest of loading conditions, the bending failure of primary horizontal plates need to be focused.
Highlights The deformed hull structure is considered to simulate the onboard boundary condition of LNG cargo containment system (CCS). The multimode failure assessment can avoid overestimating the ultimate strength of CCS. The mechanisms of shear, bending, crushing and buckling failure are discussed separately. The most vulnerable component of CCS and its failure mode are analysed.
Multimode coupled failure assessment of an LNGC cargo containment system considering flexible boundary condition
Abstract In recent years, there has been a demand for the large-scale membrane type LNGC due to the energy crisis. The cargo containment system (CCS) attached to the LNGC cargo tank is directly exposed to the sloshing load. Different pressure distribution forms may cause different failure modes of insulation box. The separate analysis of a single component or a single failure form cannot fully reflect the strength of CCS. Besides, the traditional numerical model with single insulation box and simply supported condition may overestimate the strength. In this study, a refined CCS numerical model attached to the inner hull structure is proposed. The deformed hull structure under sloshing impact is taken as the flexible boundary condition of CCS. The ultimate shear, bending, crushing and buckling strengths of NO96 CCS are assessed under various structures and boundary conditions. Finally, the multimode coupled analysis is conducted to fully assess the failure of CCS. The results show that the increase of structural stiffnesses can directly improve the ultimate strength. The weak structural and supporting stiffnesses make the buckling failure of insulation box become the most dangerous failure mode. The support from the strong hull structure leads to the shear failure of primary bottom plate. In the rest of loading conditions, the bending failure of primary horizontal plates need to be focused.
Highlights The deformed hull structure is considered to simulate the onboard boundary condition of LNG cargo containment system (CCS). The multimode failure assessment can avoid overestimating the ultimate strength of CCS. The mechanisms of shear, bending, crushing and buckling failure are discussed separately. The most vulnerable component of CCS and its failure mode are analysed.
Multimode coupled failure assessment of an LNGC cargo containment system considering flexible boundary condition
Li, Muzhi (author) / Wan, Zhong (author) / Yuan, Yuchao (author) / Tang, Wenyong (author)
Marine Structures ; 92
2023-07-22
Article (Journal)
Electronic Resource
English
Mooring Systems of VLCC, LPGC and LNGC in Japan
| Springer Verlag | 1988
The 3-D Simulation of the LNGC in Pre-Cooling Process
| British Library Online Contents | 2011
Impact failure analysis of corrugated steel plate in LNG containment cargo system
| British Library Online Contents | 2019
Rotatable temporary construction for cargo containment system
| European Patent Office | 2018