A Survey on the Design and Mechanical Analysis of Cryogenic Hoses for Offshore Liquid CO2 Ship-to-Ship Transfer DOI Creative Commons
H. K. Cheng,

Fangqiu Li,

Yufeng Bu

и другие.

Journal of Marine Science and Engineering, Год журнала: 2025, Номер 13(4), С. 790 - 790

Опубликована: Апрель 16, 2025

With the increasing severity of climate change, Carbon Capture, Utilization, and Storage (CCUS) technology has become essential for reducing atmospheric CO2. Marine carbon sequestration, which stores CO2 in seabed geological structures, offers advantages such as large storage capacity high stability. Cryogenic hoses are critical ship-to-ship transfer liquid from transportation vessels to offshore sequestration platforms, but their design methods mechanical analysis remain inadequately understood. This study reviews existing cryogenic hose designs, including reinforced corrugated hoses, vacuum-insulated composite assess suitability transfer. Based on CO2’s physicochemical properties, a conceptual structure is proposed, featuring double-spring-supported internal hose, thermal insulation layer, outer sheath. Practical recommendations material selection, corrosion prevention, monitoring strategies provided improve flexibility, pressure resistance, insulation, enabling reliable long-distance tandem A framework developed evaluate structural performance under conditions loads, stress, dynamic responses. manuscript includes an introduction background, methodology data collection, review characteristics, proposed methods, framework, discussion challenges, conclusions.

Язык: Английский

A Survey on the Design and Mechanical Analysis of Cryogenic Hoses for Offshore Liquid CO2 Ship-to-Ship Transfer DOI Creative Commons
H. K. Cheng,

Fangqiu Li,

Yufeng Bu

и другие.

Journal of Marine Science and Engineering, Год журнала: 2025, Номер 13(4), С. 790 - 790

Опубликована: Апрель 16, 2025

With the increasing severity of climate change, Carbon Capture, Utilization, and Storage (CCUS) technology has become essential for reducing atmospheric CO2. Marine carbon sequestration, which stores CO2 in seabed geological structures, offers advantages such as large storage capacity high stability. Cryogenic hoses are critical ship-to-ship transfer liquid from transportation vessels to offshore sequestration platforms, but their design methods mechanical analysis remain inadequately understood. This study reviews existing cryogenic hose designs, including reinforced corrugated hoses, vacuum-insulated composite assess suitability transfer. Based on CO2’s physicochemical properties, a conceptual structure is proposed, featuring double-spring-supported internal hose, thermal insulation layer, outer sheath. Practical recommendations material selection, corrosion prevention, monitoring strategies provided improve flexibility, pressure resistance, insulation, enabling reliable long-distance tandem A framework developed evaluate structural performance under conditions loads, stress, dynamic responses. manuscript includes an introduction background, methodology data collection, review characteristics, proposed methods, framework, discussion challenges, conclusions.

Язык: Английский

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