Abstract
Offshore platforms may potentially collide with vessels of various types, including visiting ships such as supply ships and passing ships. The most critical and relevant conditions, including the analysis and design approaches are introduced. Different ship types having different displacements and structural designs exert different vessel impact loads on impacted structures. This paper presents the findings of collision impact analyses of the side shell panel, bow and stern structures of Floating Production Storage Offloading (FPSO) platforms in case of impact, e.g. by a supply vessel or methanol tanker. As collision impact simulations continue to be conducted conservatively, the colliding positions of the striking vessel are presumed to be bow and stern only, with side force. In order to assess hull strength in collision events, non-linear FE simulations were performed by means of the MSC / DYTRAN tool, as these collision events result in more complex reactions. The degree of hull damage suffered by an FPSO vessel in different collision scenarios and at varying impact energy levels was determined in accordance with the NORSOK N-004 standard guidelines. Post-collision analyses were conducted to establish the structural integrity of the damaged hull after being exposed to environmental conditions for one year. The reduction of hull girder strength associated with the worst damage was evaluated and accounted for in the present study, providing no further damage occurs. Furthermore, the acceptance criteria for evaluation and corresponding consequences are calculated and discussed in detail. Finally, the findings from the present paper will help clarify the impact response of offshore structures and evaluation approaches and give valuable guidance for the design and operation of FPSO platforms.
Highlights
During operation, supply vessels are continuously servicing offshore production platforms and drilling rigs
Strain rate is determined as 0.2, a value normally used in ship collision events to determine stress limit
Structural strength was estimated by comparing the maximum stress obtained by collision analysis with the stress limit stipulated in the NORSOK code, taking into account the increase in strain rate
Summary
Supply vessels are continuously servicing offshore production platforms and drilling rigs. Vessel impact with offshore facilities is one of the main issues to be considered in the design and evaluation of facility performance and safety, as a significant safety threat to ships and other offshore installations that can result in serious economic damage, environmental contamination and fatalities. FPSO hull should be designed with due regard to potential loads caused by accidents such as collisions, dropped objects, fire, explosion and other abnormal events such as mooring line failures or broken risers. Structural improvements and/ or protective structures ensuring that the consequences of accidental loads do not compromise installation safety will be considered. Collision is a major hazard to the safety of ships and other offshore installations and may result in severe economic loss, environmental pollution and fatalities. Ship collision accidents can be divided into approximately four categories, such as ship-ship, ship-offshore structure, ship-bridge and ship-iceberg collisions (ISSC, 2018)
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