Design, Construction and Operation of an Automated Drilling Rig for the DSATS University Competition

Bavadiya, V. A.; Aljubran, Mohammad; Kibe, J. M.; Christy, S. M.; Le, Han; Ahmed, Ramadan; Florence, Fred

doi:10.2118/174920-ms

Cited by 2 publications

References 3 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Design and simulation of a lab-scale down-hole drilling system

Bajpai

Ghasemi

Song

2018

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

As global energy demand rises, so does the need for resources and the means to extract them safely and efficiently by means of, for example, down-hole drilling. These large mechanical rigs often encounter lateral, axial, and torsional vibrations which can cause serious equipment damage and possibly failure. To minimize malignant effects, control algorithms are developed and tested on lab-scale models before implementation on large-scale rig systems. Many previous lab-scale systems artificially reproduce vibrations via inertial masses, shakers, braking systems, etc. However, they do not attempt to match the physical properties or natural response of the drill string. The goal of this research is to naturally reproduce a drilling system’s physical behaviors at lab scale through systematic analysis and design. First, a lumped parameter model is used to model the system dynamics. Through nondimensional stiffness ratios, which dictate the drill string material and geometric selection, the drill string’s elastic nature is reproduced. From this selection, the system parameters are further defined by the maximum allowable forces, derived from a bit–rock interaction model and chosen failure criteria. After development of a dynamics model and outline of design constraints, a systematic method of design and simulation of a customizable lab-scale drilling system is proposed.

show abstract

Design and simulation of a lab-scale down-hole drilling system

Bajpai

Ghasemi

Song

2018

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

show abstract

Challenges in the Automation of a Laboratory-Scale Drilling Rig and Comparison with the Requirements for Full Scale Drilling Automation

Cayeux

Sui

Akisanmi

et al. 2017

Day 1 Wed, April 05, 2017

View full text Add to dashboard Cite

During the last decade, there has been a growing interest in developing automatic drilling process control solutions to increase drilling efficiency and consistency. But any drilling automation solution must be able to cope with drilling incidents as unexpected situations occur very frequently during the drilling process. Testing and verifying how drilling process control functions respond to drilling incidents on full scale rigs is both costly and risky, therefore it is tempting to perform such tests at a smaller scale where expenses and hazards are easier to manage. At the laboratory-scale, it is possible to reproduce many of the classical drilling problems, like torsional vibrations, forward and backward whirls, pack-offs, drill-pipe washouts, overpulls, buckling. However, the very small scale of the rig highlights specific technical challenges that are not usually relevant for full-scale drilling operations, while other demanding conditions associated with drilling wells over several kilometers, are absent at such a small scale. For that reason, the small scale of the autonomous drilling rig influences greatly the mechanical setup and its instrumentation, as the requirements for autonomy forces to cope, in a timely fashion, with extremely short reaction times. This paper describes the limits by which a small-scale rig should work and analyzes whether these restrictions are relevant for a standard drilling setup. The first part of the analysis focuses on how such small-scale rig experiments can be used to support the investigation of new real-time fault detection and model-based control algorithms and their associated instrumentation requirements, when the final objective is to improve full scale drilling automation. But thereafter, the study investigates how an autonomous small-scale rig can be used as a pedagogical tool for drilling engineering students. The comparison between the specific requirements of the small-scale laboratory setup with those of a standard drilling operations exacerbates the importance of scale when analyzing drilling automation solutions, as technical solutions that may look satisfactory for wells of normal dimensions may be inadequate for more extreme drilling conditions.

show abstract

Design, Construction and Operation of an Automated Drilling Rig for the DSATS University Competition

Cited by 2 publications

References 3 publications

Design and simulation of a lab-scale down-hole drilling system

Design and simulation of a lab-scale down-hole drilling system

Challenges in the Automation of a Laboratory-Scale Drilling Rig and Comparison with the Requirements for Full Scale Drilling Automation

Contact Info

Product

Resources

About