Addressing wellhead fatigue issues and proving sufficient margin for drilling operations has been a growing challenge for the oil and gas industry over the last decade. Wellhead fatigue can have significant technical, financial and safety implications for the system. In close cooperation with industry partners, DNV GL is addressing this issue through an on-going joint industry project (JIP). This has resulted in a new recommended practice (RP) addressing the structural loading of offshore well systems.
Wellhead schematic. From DNV GL. |
Fatigue loading has increased as blowout preventer (BOP) systems are getting bigger due to regulatory development and the need for deepwater functionality. Furthermore, the rigs are spending more days to drill multilateral wells and install complex completions. DNVGL-RP-0142 for wellhead fatigue analysis provides a framework for assessing fatigue of wellhead and casing systems due to wave-induced loading. It provides an overview of the different analysis methods, challenges and modelling details to consider.
“During all riser-connected operations, the well system is subjected to fatigue loading induced by environmental conditions and associated rig motions. Analysis of a connected riser system, including the well system, is both complex and multidisciplinary,” Ole Rengård, DNV GL senior VP and project manager said.
“The RP will become an important industry reference and provide a methodology for assessing the fatigue of the subsea wellhead and associated riser systems forming a common basis for exchanging data between the wellhead supplier, rig owners, analysis houses and operators,” Buba Kebadze JIP steering committee chairman from BP Exploration said.
The on-going JIP work involves the following participants:
The JIP’s advisory board is chaired by Statoil and consists of BP, Chevron, ExxonMobil, Hess, and Marathon, who are all actively working with the development. Currently, the JIP is preparing for detailed studies of the uncertainties in the analysis methodologies, and is investigating when and how to use the different modelling methods. The studies will be carried out by different analysis houses and the results will be documented in technical reports and further annexes to the RP.
“Every year DNV GL invests up to 5% of revenue into research and innovation and manages 100 on-going joint industry projects annually. Providing a neutral ground for the industry to meet and discuss its most complex challenges means we can quickly find solutions for the whole industry. Our openly accessible industry standards and recommended practices can help ensure safety, increase predictability throughout the supply chain and help the industry to manage costs, without hindering innovation,” Elisabeth Tørstad, CEO of DNV GL said.
The assessment of wellhead fatigue damage under this RP is applicable during all stages (or types) of operations when riser systems interface to the well, including drilling, completion, production, workover and plugging and abandonment. Fatigue accumulation continues until the riser is ultimately disconnected from the wellhead.
DNV GL has a broad experience in analysis and in helping the industry assessing the integrity of drilling systems and wells.
DNV GL will be presenting technical papers at OTC in Houston on Dynamic Risers for Floating Production Systems and a Case Study of Asset Integrity and Risk Assessment for Subsea Facilities and Equipment Life Extension.