Managed-Pressure Drilling Using a Parasite Aerating String

Okafor, Zimuzor Michael; Akinniranye, Goke; Bratton, Tom; Avila, R.; Boone, D.A.

doi:10.2118/119964-pa

SPE Drilling &Amp; Completion

2010

DOI: 10.2118/119964-pa

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Managed-Pressure Drilling Using a Parasite Aerating String

Zimuzor Michael Okafor

Goke Akinniranye

Tom Bratton

et al.

Abstract: Drilling on top of the mesa in the Piceance basin presents a significant lost-circulation and stuck-pipe challenge to operators wanting to exploit the gas reserves in the area. Operators have experienced losses that exceed 4,000 bbl of mud when the intermediate section is drilled using conventional techniques. This is because of a combination of natural fractures and weak rock. Various strategies have been deployed to tackle the problems, including underbalanced-drilling (UBD) operations and directional casing… Show more

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Cited by 2 publications

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Multi-objective optimization of parameters design based on genetic algorithm in annulus aerated dual gradient drilling

Li,

Zhang,

Yin

2024

J Petrol Explor Prod Technol

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The optimization of drilling parameters is crucial for resolving the drilling problems in low-pressure and leaky formations using the annulus aerated dual gradient drilling technology. However, the previous studies have mostly focused on engineering applications and wellbore fluid flow models, with less emphasis on parameter optimization. This paper combines the wellbore multiphase flow model with genetic algorithms for the first time, proposing a key parameter optimization method for annulus aerated dual gradient drilling based on genetic algorithms. The study investigates the impact of selection operators on the performance of genetic algorithms and compares genetic algorithms with PSO algorithm and SAA. The results indicate that the convergence and stability of genetic algorithms can be improved by enhancing the selection operators. Compared to the gas–liquid ratio parameter optimization method, the IRSGA optimization method reduces the cost coefficient by 36.46%. Through comparative analysis of different optimization methods, the IRSGA demonstrates over 95% accuracy in large-scale computations. The research findings contribute to the optimization of parameters design under low-cost conditions and are of significant importance for promoting the use of this technology to address the serious issue of lost circulation in drilling technology.

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Multi-objective optimization of parameters design based on genetic algorithm in annulus aerated dual gradient drilling

Li,

Zhang,

Yin

2024

J Petrol Explor Prod Technol

View full text Add to dashboard Cite

show abstract

Feasibility Study of Fracture Propagation Controlled by Use of Managed Pressure Drilling during Laser-Assisted Drilling Operation

et al. 2021

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Summary Managed pressure drilling (MPD) is a form of drilling that allows greater and more precise wellbore pressure control than conventional drilling. In addition, the mud weight used will be lower than for the conventional mud weight, and a secondary choke or frictional pressure will be applied on the surface to create a combined annular pressure profile within the well. For this paper, we investigated the effect of high power fiber laser heat tension on the carbonate rock body of the Kangan Formation during the irradiation process with accurate simulation work and by comparing the model with experimental results. First, the enforced stress by heat from the laser source was analyzed, and then the fracture propagation pattern in the rock body throughout the entire irradiation process was obtained. This research presented the weakening and fracturing mechanism that was generated from heat exposure during laser irradiation and determined numerical results for fracture pressure before and after laser irradiation. Also, MPD as an effective technology to control this induced anomaly was proposed during the laser-assisted drilling (LAD) operation to prevent any loss, gain, hole instability, or other drilling problem related to this fracturing and weakening.

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Managed-Pressure Drilling Using a Parasite Aerating String

Cited by 2 publications

References 9 publications

Multi-objective optimization of parameters design based on genetic algorithm in annulus aerated dual gradient drilling

Multi-objective optimization of parameters design based on genetic algorithm in annulus aerated dual gradient drilling

Feasibility Study of Fracture Propagation Controlled by Use of Managed Pressure Drilling during Laser-Assisted Drilling Operation

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