Abstract
Drilling is one of the costliest activities in oil and gas industry due to the complexity of interactions with downhole rock formation. Under such conditions, the uncertainty of drillstring behaviour increase and hence it becomes difficult to predict the causes, occurrences, and types of failures. Lateral and torsional vibrations often cause failure of Bottom Hole Assembly (BHA), drillstring failure, drill bit and wall borehole damages. In this work, a model is presented to determine the impact of lateral and torsional vibrations on a drillstring during the drilling operation. The model aims to mimic real drillstring behaviour inside a wellbore with regards to its dynamic movements due to multiple real situations such as eccentricity of collars, drill pipe sections, and stick-slip phenomena occurring due to the interaction of the bit and the drillstring with the well formation. The work aims to develop a basis for determining critical operating speeds and design parameters to provide safe drilling procedures and reduce drill string fatigue failure. Lagrangian approach is used in this study to attain drillstring lateral and torsional vibration coupling equations. The nonlinear equations are solved numerically to obtain the response of the system. In this work, we also present a brief description of an in-house constructed experimental setup. The setup has the capability to imitate the downhole lateral and torsional vibration modes. Parameters from the experimental investigations are incorporated for validation of the mathematical models and for prediction of the drillstring fatigue life. Such investigations are essential for oil and gas industries as they provide solutions and recommendations about operational speed, lateral and torsional amplitudes measurements and corrections, and the conditions for avoiding occurrence of natural frequencies of the system.
Highlights
In drilling of oil and gas wells, severe shock and vibrations occur that are detrimental to the service life of drillstrings and down-hole assembly tools
Laboratory testing to investigate lateral behaviour of a part of a drillstring represented by a rod and subjected to axial loading was highlighted in [7]
The lateral behaviour of the drill string subjected to axial excitations of the drill bit is governed by time varying parameter equations due to torsion-lateral and longitudinal-lateral couplings
Summary
In drilling of oil and gas wells, severe shock and vibrations occur that are detrimental to the service life of drillstrings and down-hole assembly tools. Drillstring fatigue failure is very common due to generation of single and coupled vibration modes and mechanisms These severe vibrations often cause failures of BHA tool, drill pipe abrasive wear, drill bit and wall borehole damages, reduction of the rate of penetration (ROP), and incur high costs [5,6]. Comparative study of full-scale fatigue test results and field data were presented in [12,13,14] The Lagrangian approach is used to obtain the drill pipe lateral and torsional vibration coupling equations of motion. The experimental setup provides further development of a more comprehensive testing of drillstring
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