Influence of Bit-Rock Interaction on Stick-Slip Vibrations of PDC Bits

Richard, Thomas; Detournay, Emmanuel; Fear, Martyn; Miller, B.D.; Clayton, Robert; Matthews, Oliver

doi:10.2118/77616-ms

Cited by 46 publications

(25 citation statements)

References 6 publications

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“…Stick/slip oscillations are characterized by a repeated alternation of sticking phases, where the bit comes to a complete standstill for a limited interval of time, and slipping phases, where its angular velocity ω increases up to two or three times the rotary speed Ω applied at the surface. The stick/slip effect has been the subject of numerous studies in the past and is still under investigation (Kyllingstad and Halsay 1988, Brett 1992, Jansen and van den Steen 1995, Richard et al 2002, Detournay et al 2008, Germay et al 2009, Navarro-Lopez 2009.…”

Section: Introductionmentioning

confidence: 99%

Development of an Innovative Model-Based Stick/Slip Control System

Rudat

Dashevskiy

2011

SPE/IADC Drilling Conference and Exhibition

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Stick/slip is a severe type of torsional drillstring oscillation that affects the efficiency of the drilling process and can cause bit damage as well as drillstring failure. Different approaches to mitigate stick/slip oscillations are used in the field, ranging from procedures for optimizing drilling parameters, to passive downhole damping devices, and active surface controllers. To improve performance, some of these systems use mathematical models of the rotary system. Since the drilling process is subject to permanent changes, model-based control systems can only perform adequately when constantly updated with the actual conditions. To date, surface data has been used for this, but some key drilling process characteristics can only be identified with downhole data.This paper presents an innovative model-based stick/slip control system. It is based on a model of the drilling process that predicts the intensity of downhole vibration with respect to drilling parameters. Using downhole measurements, the model is adapted to the actual drilling process and employed to find optimal drilling parameters. To overcome the limited bandwidth of the typically used mud-pulse telemetry systems, models are identified downhole in the dynamics measurement tool.The paper presents field tests performed to evaluate the stick/slip control system and the investigation of how model parameters can be identified from measurements as well as how well the identified models represent the drilling process. Results show that this model can be used to predict the intensity of torsional oscillations and determine optimal drilling parameter values.The presented stick/slip control system can provide quantitative recommendations on changing drilling control parameters to mitigate stick/slip and can be used in an automated mode by directly connecting to the rig control system for monitoring drilling conditions and adjusting drilling parameters. Proper handling of downhole vibrations can significantly increase reliability.

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Section: Introductionmentioning

confidence: 99%

Development of an Innovative Model-Based Stick/Slip Control System

Rudat

Dashevskiy

2011

SPE/IADC Drilling Conference and Exhibition

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“…However, the main drawback of these strategies results from the lack of knowledge concerning the rock to drill before drilling operations. To overcome this difficulty, bit-rock interaction model has been developed [5]. The specificity of the achieved model lies in the possibility of not involving rock properties.…”

Section: Introductionmentioning

confidence: 99%

“…In section V concluding remarks are drawn. Research activities regarding bit-rock interaction modeling have been investigated and significant contributions have been reported [5]. These models account for the cutting action of a single cutter, which is a Polycrystalline Diamond Compact (PDC).…”

Section: Introductionmentioning

confidence: 99%

“…The cutting components c T and c W correspond to the forces transmitted by the cutting face of each cutter and the friction components f T and f W correspond to others contacts generated from bit-rock interaction. The response of the bit is obtained by combining the cutting and frictional process [5]:…”

Section: Introductionmentioning

confidence: 99%

“…The specific energy which corresponds to the necessary energy to grind a given volume of rock is defined by [5]:…”

Section: Introductionmentioning

confidence: 99%

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Stochastic adaptive learning rate in an identification method: An approach for on-line drilling processes monitoring

Hbaieb

Mechbal

et al. 2009

2009 American Control Conference

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On-line drilling processes monitoring is an essential task in enhancing their performances. In oilfield industry, dysfunctions that might occur have to be detected at the earliest possible stage in order to preserve drilling efficiency. This paper deals with a methodology for drilling processes monitoring by identifying time varying parameters. The basic idea behind the proposed algorithm is to improve the tracking ability of parameters change by means of an identification method using a new approach to adjust the forgetting factor. The effectiveness of the developed method is highlighted through experimental data obtained from tests campaign.

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