Abstract
The decommissioning of subsea bundles presents a significant challenge to the industry.
Bundles are unique to the North Sea with more than 70 bundles currently in use with diameters reaching 1,400 mm. The OSPAR convention, which is the international treaty governing offshore decommissioning in the North East Atlantic, presumes all installations will be removed and the London convention prohibits dumping at sea so the decommissioning of
subsea bundles is a legal requirement. This study identifies that cutting and lifting subsea
bundles is the best option for decommissioning bundles and is the first use of finite element
analysis to design such a tool to cut bundles and determine the forces required. This modelling of the hydraulic shear indicates that the required shearing force is 18.65 MN when using a blade with a 60o cutting angle, and a 180o shape angle. The modelling further demonstrates that the shearing force varies with the cutting and shape angles. On the other hand, the modelling for the guillotine cutter indicates a required shearing force of 19 MN. This analysis demonstrates the parameters required to design a subsea bundle cutting tool and is the first step towards developing a practical tool for decommissioning subsea bundles.
Bundles are unique to the North Sea with more than 70 bundles currently in use with diameters reaching 1,400 mm. The OSPAR convention, which is the international treaty governing offshore decommissioning in the North East Atlantic, presumes all installations will be removed and the London convention prohibits dumping at sea so the decommissioning of
subsea bundles is a legal requirement. This study identifies that cutting and lifting subsea
bundles is the best option for decommissioning bundles and is the first use of finite element
analysis to design such a tool to cut bundles and determine the forces required. This modelling of the hydraulic shear indicates that the required shearing force is 18.65 MN when using a blade with a 60o cutting angle, and a 180o shape angle. The modelling further demonstrates that the shearing force varies with the cutting and shape angles. On the other hand, the modelling for the guillotine cutter indicates a required shearing force of 19 MN. This analysis demonstrates the parameters required to design a subsea bundle cutting tool and is the first step towards developing a practical tool for decommissioning subsea bundles.
Original language | English |
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Journal | Journal of offshore mechanics and arctic engineering-Transactions of the asme |
Publication status | Accepted/In press - 30 May 2024 |
Keywords
- decommissioning
- subsea bundles
- finite element analysis
- shear force assessment