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Technical Paper: Design Method and LRFD for HPHT Subsea Equipment for Extreme and Survival Load Conditions

Society: OTC
Paper Number: 25352
Presentation Date: 2014
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Abstract

The current API standards and technical reports for subsea equipment that falls under API SC 17, especially those relevant to subsea trees and wellheads, do not particularly provide the design methods for extreme and survival load conditions. As the industry continues moving forward with high-pressure, high-temperature (HPHT) applications, it has increased its attention toward safety and design precautions have the utmost priority. Hence, the industry is redoubling its focus on extreme and survival load conditions for subsea equipment, especially for HPHT conditions. 

The recently published API TR 1PER15K-1 and in-progress API TR 17TR8 address the design methods for subsea HPHT equipment, but do not specifically provide the design methods for extreme and survival load conditions. API RP 17G Recommended Practice for Completion/Workover Risers addresses these loading scenarios by providing the design condition factors, but suggests testing for plastic collapse load. API RP 2RD Recommended Practice for Design of Risers for Floating Production Systems and Tension-Leg Platforms recommends the consideration of these load conditions, but does not provide specific design rules. 

This paper posits a design method for subsea equipment governed by API SC 17, especially for API 17D subsea trees and wellheads, under extreme and survival load conditions. The proposed method combines the elastic-plastic design analysis method from ASME Boiler and Pressure Vessel Code (BPVC), Section VIII, Div. 2 and 3 and the API RP 17G structural resistance methods. It combines the API RP 17G design condition factors with the ASME Section VIII BPVC Div. 2 and 3 load and resistance factor for design (LRFD) to establish new LRFDs for extreme and survival load conditions. Fatigue life estimation is also addressed for these conditions. An example analysis of a subsea tree component is reviewed, evaluating its combined load capacity for normal, extreme, and survival conditions. Additionally, the review includes the fatigue life cycle estimation for this component.

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