Estimation of cuttings concentration and frictional pressure losses during drilling using data-driven models

Ocean, Offshore and Arctic Engineering Division 2021 40th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2021 -- 21 June 2021 through 30 June 2021 -- 172516 Drilling practice has been evolving parallel to the developments in the oil and gas industry. Current supply and dema...

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Bibliographic Details
Published in:Volume 10: Petroleum Technology
Main Authors: Özbayoğlu, Murat, Özbayoğlu, E., Özdilli, B.G., Erge, O.
Format: Conference Object
Language:English
Published: American Society of Mechanical Engineers (ASME) 2021
Subjects:
Artificial neural networks
Adaboost
Cuttings transport
Machine learning
Random forest
Boreholes
Complex networks
Decision trees
Gas industry
Horizontal wells
Infill drilling
Mean square error
Neural networks
Offshore oil well production
Oil field equipment
Oil wells
Data-driven model
Dimensionless groups
Drilling practices
Frictional pressure loss
Mechanistic models
Mechanistics
Model inputs
Random forests
Wellbore
Adaptive boosting
Arctic
Online Access:https://hdl.handle.net/20.500.11851/8312
https://doi.org/10.1115/OMAE2021-63653
Description
Summary:Ocean, Offshore and Arctic Engineering Division 2021 40th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2021 -- 21 June 2021 through 30 June 2021 -- 172516 Drilling practice has been evolving parallel to the developments in the oil and gas industry. Current supply and demand for oil and gas dictate search for hydrocarbons either at much deeper and hard-to-reach fields, or at unconventional fields, both requiring extended reach wells, long horizontal sections, and 3D complex trajectories. Cuttings transport is one of the most challenging problems while drilling such wells, especially at mid-range inclinations. For many years, numerous studies have been conducted to address modeling of cuttings transport, estimation of the concentration of cuttings as well as pressure losses inside the wellbores, considering various drilling variables having influence on the process. However, such attempts, either mechanistic or empirical, have many limitations due to various simplifications and assumptions made during the development stage. Fluid thixotropy, temperature variations in the wellbore, uncertainty in pipe eccentricity as well as chaotic motion of cuttings due to pipe rotation, imperfections in the wellbore walls, variations in the size and shape of the cuttings, presence of tool joints on the drillstring, etc. causes the modeling of the problem extremely difficult. Due to the complexity of the process, the estimations are usually not very accurate, or not reliable. In this study, data-driven models are used to address the estimation of cuttings concentration and frictional loss estimation in a well during drilling operations, instead of using mechanistic or empirical methods. The selected models include Artificial Neural Networks, Random Forest, and AdaBoost. The training of the models is determined using the experimental data regarding cuttings transport tests collected in the last 40 years at The University of Tulsa – Drilling Research Projects, which includes a wide range of ...

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