Stick-slip suppression and speed tuning for a drill-string system via proportional-derivative control
Lin, W; Chávez, JP; Liu, Y; et al.Yang, Y; Kuang, Y
Date: 28 January 2020
Journal
Applied Mathematical Modelling
Publisher
Elsevier BV
Publisher DOI
Abstract
This paper studies the problems of stick-slip mitigation and speed tuning for a lumped-parameter drill-string system by using a proportional-derivative feedback controller via path-following analysis. In this study, we consider two main control parameters, the weight-on-bit and the desired drill-bit speed, which in general differs from ...
This paper studies the problems of stick-slip mitigation and speed tuning for a lumped-parameter drill-string system by using a proportional-derivative feedback controller via path-following analysis. In this study, we consider two main control parameters, the weight-on-bit and the desired drill-bit speed, which in general differs from the real angular speed. In particular, we determine the combinations of these two parameters for which the proposed control scheme is applicable, which is affected by the non-smooth nature of the system induced by bit-rock interaction. Our analysis using path-following techniques for non-smooth systems reveals the inherent coexistence of stick-slip vibration and constant rotation, and identifies a critical point where the drill-bit speed coincides with the desired angular speed. Furthermore, our analysis proposes a strategy that allows controlling the drill-bit speed to suppress stick-slip, by tuning the controller in a suitable manner.
Engineering
Faculty of Environment, Science and Economy
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