Evolution of Rotary Steerable BHA Designs in Mexico Offshore: Solution to Stop Multiple Drillstring Failures in High-Vibration Environment

Ramirez, Silvestre; Arias, Rafael Aguilar; González, Luis F.; Wong, W.; Bautista, Omar; Noriega, Ivan

doi:10.2118/138963-ms

SPE Latin American and Caribbean Petroleum Engineering Conference 2010

DOI: 10.2118/138963-ms

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Evolution of Rotary Steerable BHA Designs in Mexico Offshore: Solution to Stop Multiple Drillstring Failures in High-Vibration Environment

Silvestre Ramirez

Rafael Aguilar Arias

Luis F. González

et al.

Abstract: Pemex, the local oil producer in Mexico, has identified young fields as potential alternatives to compensate for the production decline experienced in recent years. However, those with the largest reserves and the lightest oil offer the most difficult drilling conditions. Just such an example is a target field in the Marine Southwest region where production objectives have been compromised by significant delays in drilling operation. The complexity of the 17 ½-in borehole section, made so by high lateral and t… Show more

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Cited by 2 publications

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Tackling Drilling Challenges Through Engineered BHA and Optimized Drilling Parameters: A Case Study from the Niger Delta

Okoronkwo

Ibrahim

2014

IADC/SPE Asia Pacific Drilling Technology Conference

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In the Niger Delta in Nigeria, some fields are classified as tough drilling environment due to numerous challenges encountered during the drilling phase of well construction process. In the Gbaran field in the Niger Delta, the greatest challenge is encountered in top hole drilling in 16" hole size and above. From a stratigraphical standpoint, the surface hole formation down to 6000ft in this field and other fields of similar drilling challenges shared common characteristics, with the lithology ranging from soft and loose to medium and abrasive sand inter-bedded with stringers of lignites, gumbo shale, and hard streaks (cemented sand). Bottom hole assembly (BHA) failures such as wash outs, cracks and twist-offs caused by erratic torques, excessive lateral, axial and torsional vibration are regular occurrence while drilling top hole at depths between 3000ft and 6000ft. From offset well records, more than 75% of 16" and 17-1/2" surface hole drilled in the Gbaran field ended up with unplanned side-tracks due to twist-off and lost hole. In some wells, the non productive time arising from these failures is up to 100% of planned AFE time for the section with the attendant cost impact on the wells in addition to lost-in-hole charges.To address these challenges, steps were taken to analyse the failures in the offset wells and come up with BHA design capable of withstanding the inherent down-hole vibrations and shock. This paper discusses this engineered approach which is centred on two things: Fit-for-purpose BHA design and optimized drilling parameters. It also highlights the success story of drilling the deepest 16" hole so far in the fields without BHA failure as experienced in other wells drilled in the same field. The result from field application showed a tremendous reduction in drilling days from average of 27days per well in the last three offset wells to average of 9.5 days per well. Furthermore, the MWD output of down-hole vibration chart also showed a 50% reduction in severity compared to offset wells in the field.

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Tackling Drilling Challenges Through Engineered BHA and Optimized Drilling Parameters: A Case Study from the Niger Delta

Okoronkwo

Ibrahim

2014

IADC/SPE Asia Pacific Drilling Technology Conference

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How is the Dynamic of Drillstring Going Under Internal & External Countercurrent-Axial Flows?

Liu

Gao

Tan

et al. 2018

Day 1 Mon, November 12, 2018

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A dynamic model of drillstring under internal and external countercurrent-axial flows is presented, and the stability of drillstring under different drilling parameters is analyzed. Results are compared to previously published simplified models (e.g., fluid-free models, influx models, outflow models). The dynamic governing partial differential equation (PDE) of drillstring is established under internal and external countercurrent-axial flows by means of the differential element method. The equation taking into account the mechanical force, the fluid pressure, the buoyancy force, the inertial force, the gyroscopic force, and the Coriolis force. PDE equation can be converted into the ODE equations by using the Differential quadrature method (DQM) and combining the boundary conditions under different working situation of drillstring. The vibration response to submerged drillstring under different parameter αc, which represents the annular clearance, is studied by plotting the stability diagram. The results were compared with the reference model established by the former researcher. Two cases, cantilever beam model and hinged-hinged boundary conditions, were discussed and found that increases the value of αc that means the annular gap increases, the outflow velocity should be decreasing, thus the effect of fluid induced vibration would be decreasing. As for cantilever case, the stability region will change obviously with the change of parameter αc, but for Hinged-Hinged case, parameter αc has little influence on the stability region. The novelty of the new dynamic model of drillstring is lying in considering the internal and external countercurrent-axial flows effect for the first time. The numerical results can be implemented in drilling engineering to predict drillstring vibration and guide drillstring design.

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Evolution of Rotary Steerable BHA Designs in Mexico Offshore: Solution to Stop Multiple Drillstring Failures in High-Vibration Environment

Cited by 2 publications

References 10 publications

Tackling Drilling Challenges Through Engineered BHA and Optimized Drilling Parameters: A Case Study from the Niger Delta

Tackling Drilling Challenges Through Engineered BHA and Optimized Drilling Parameters: A Case Study from the Niger Delta

How is the Dynamic of Drillstring Going Under Internal & External Countercurrent-Axial Flows?

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