Structural Integrity of Fixed Offshore Platforms by Incorporating Wave-in-Deck

Abstract: The structural integrity of offshore platforms is affected by degradation issues such as subsidence. Subsidence involves large settlement areas, and it is one of the phenomena that may be experienced by offshore platforms throughout their lives. Compaction of the reservoir is caused by pressure reduction, which results in vertical movement of soils from the reservoir to the mud line. The impact of subsidence on platforms will lead to a gradually reduced wave crest to deck air gap (insufficient air gap) and cau… Show more

“…This extra force disturbs the balance of platforms and can cause significant damage and eventually collapse of the platform. Figure 6c shows the impact of the presence or absence of the wave-in-deck load on the failure probability of two different platforms, which increases the failure probability up to 100% in the presence of this excess load [28].…”

“…This extra force disturbs the balance of platforms and can cause significant damage and eventually collapse of the platform. Figure 6c shows the impact of the presence or absence of the wave-in-deck load on the failure probability of two different platforms, which increases the failure probability up to 100% in the presence of this excess load [28]. Today, in all sectors, including in the automotive industry, aerospace, construction, etc., reducing costs and increasing reliability are two primary and essential goals.…”

A Comprehensive Review on Design, Monitoring, and Failure in Fixed Offshore Platforms

“…This extra force disturbs the balance of platforms and can cause significant damage and eventually collapse of the platform. Figure 6c shows the impact of the presence or absence of the wave-in-deck load on the failure probability of two different platforms, which increases the failure probability up to 100% in the presence of this excess load [28].…”

“…This extra force disturbs the balance of platforms and can cause significant damage and eventually collapse of the platform. Figure 6c shows the impact of the presence or absence of the wave-in-deck load on the failure probability of two different platforms, which increases the failure probability up to 100% in the presence of this excess load [28]. Today, in all sectors, including in the automotive industry, aerospace, construction, etc., reducing costs and increasing reliability are two primary and essential goals.…”

A Comprehensive Review on Design, Monitoring, and Failure in Fixed Offshore Platforms

Investigation of the corrosion factor to the global strength of aging offshore jacket platforms under different marine zones

A framework for implementing structural integrity management of an aging fixed offshore platform using wave modeling for risk-based underwater inspection provision