Validation of Global Riser/Wellhead Analysis Using Data from a Full-Scale Measurement Campaign
- Puneet Agarwal (Stress Engineering Services) | Scot McNeill (Stress Engineering Services) | Kenneth Bhalla (Stress Engineering Services) | Karen Walker (ExxonMobil Upstream Research Company)
- Document ID
- Offshore Technology Conference
- Offshore Technology Conference, 1-4 May, Houston, Texas, USA
- Publication Date
- Document Type
- Conference Paper
- 2017. Offshore Technology Conference
- 1.8 Formation Damage, 7.6.4 Data Mining, 1.7.5 Well Control, 1.10 Drilling Equipment, 4.2 Pipelines, Flowlines and Risers, 7 Management and Information, 2.1.3 Completion Equipment, 4.2.4 Risers, 3 Production and Well Operations, 1.7 Pressure Management, 4.5 Offshore Facilities and Subsea Systems, 7.2 Risk Management and Decision-Making, 1.6 Drilling Operations, 7.2.2 Risk Management Systems, 1.10 Drilling Equipment, 7.6 Information Management and Systems, 1.10.5 Offshore Drilling Units, 4 Facilities Design, Construction and Operation
- Global Riser Analysis, Wellhead Fatigue, Model Validation, Drilling Riser, Full Scale Measured Data
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Fatigue damage predictions of risers and wellhead/casing systems due to drilling operations require predictive modeling techniques for load calculation/estimation. This work attempts to address the uncertainty as to whether the global riser analyses are overly conservative due to model idealizations, analytical assumptions, the use of time- or frequency-domain techniques, and incorporation of certain linear or non-linear behavior. To address these questions, a field measurement program was executed to obtain vessel, riser and stack motions data, which were used to validate analytical models and procedures.
A real-time monitoring system was deployed on a 6th generation semi-submersible mobile offshore drilling unit operating in a shallow water, harsh environment region. Accelerations and angular rates were captured on the Lower Marine Riser Package (LMRP), drilling riser and vessel. The metocean data consisting of measured seastates and full-depth current profiles, as well as riser tensions, mud weights, and vessel offsets were also concurrently recorded. The global models of the riser, wellhead, stack, casing and soils were created using two in-house software, DERP (frequency-domain) and RAMS (both frequency- and time-domain), using "as-designed" input information.
Analytically predicted motions (displacements and rotations) of the LMRP, riser, and vessel were compared with the measured motions. It was found that the frequency-domain analytical results match the measured data well over all the measured significant wave heights, which ranged from 6.5-ft to 26-ft. Since the riser and LMRP RMS motions are well predicted by models, it follows that wellhead loads are well estimated from analytical models. The frequency-domain analytical results were further verified for a few cases by time-domain analyses. Both measured and analytical spectra generally exhibit peaks at similar frequencies. While the first analytical riser mode is clearly identified in the measured data, the analytical blow out preventer (BOP) stack/riser mode is not as evident in the measured data. Further, the measured peak close to the analytical stack/riser frequency is very broad. These observations and additional sensitivity studies showed that further investigation for sources of damping due to soil and/or stack hydrodynamics is required.
This work shows that the modeling techniques used presently for analyzing the global riser/stack response in frequency- domain are reasonably accurate for the analyzed conditions.
|File Size||2 MB||Number of Pages||26|
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