Suppressing Stick-Slip Oscillations in Drill-Strings by Modified Integral Resonant Control  

James Donald Maclean, Vahid Vaziri* (Corresponding Author), Sumeet S. Aphale, Marian Wiercigroch

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

2 Citations (Scopus)

Abstract

This paper describes the efficacy of a novel control scheme for suppressing stick–slip oscillations of drill-strings. This novel scheme utilises Modified Integral Resonant Control (MIRC) with tracking in order to meet a desired drilling velocity. A low-dimensional two degrees-of-freedom drill-string model and a bit-rock model adopted for an open-loop control clearly demonstrate the unwanted stick–slip responses. This is followed by a detailed design of the MIRC-based damping scheme (without tracking) capable of eliminating this undesired behaviour. Then in order to accommodate the current drilling control trends, this MIRC-based scheme is combined with an integral tracking controller to show that this combined damping and integral tracking control scheme is not only capable of eliminating stick–slip oscillations but also maintaining the desired drill-bit angular velocity. To highlight the benefits of the proposed combined scheme, it is compared with the recently proposed Sliding-Mode Controller (SMC). Its inherent simplicity, robustness to parameter uncertainty and excellent performance of the proposed combined scheme propels it to be a leading candidate for stick–slip mitigation in drill-strings. To further showcase the efficacy of the proposed control scheme, its closed-loop performance when implemented on an 8-DOF system, has also been presented.
Original languageEnglish
Article number107425
Number of pages14
JournalInternational Journal of Mechanical Sciences
Volume228
Early online date14 Jun 2022
DOIs
Publication statusPublished - 15 Aug 2022

Keywords

  • Nonlinear oscillations
  • Drill-string dynamics
  • Robustness
  • Stability analysis
  • Damping and tracking control
  • Modified Integral Resonant Control

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