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The control of drilling vibrations: A coupled PDE-ODE modeling approach

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main purpose of this contribution is the control of both torsional and axial vibrations occurring along a rotary oilwell drilling system. The model considered consists of a wave equation coupled to an ordinary differential equation (ODE) through a nonlinear function describing the rock–bit interaction. We propose a systematic method to design feedback controllers guaranteeing ultimate boundedness of the system trajectories and leading consequently to the suppression of harmful dynamics. The proposal of a Lyapunov–Krasovskii functional provides stability conditions stated in terms of the solution of a set of linear and bilinear matrix inequalities (LMIs, BMIs). Numerical simulations illustrate the efficiency of the obtained control laws.
Rocznik
Strony
335--349
Opis fizyczny
Bibliogr. 45 poz., rys., tab., wykr.
Twórcy
autor
  • Faculty of Engineering, Autonomous University of the State of Mexico, Instituto Literario No. 100 Ote., 50130 Toluca, Mexico
autor
  • Department of Automatic Control, CINVESTAV-IPN, Av. IPN No. 2508, Col. San Pedro Zacatenco, C.P. 07360, México D.F., Mexico
  • Faculty of Engineering, Autonomous University of the State of Mexico, Instituto Literario No. 100 Ote., 50130 Toluca, Mexico
Bibliografia
  • [1] Anabtawiii, M. (2011). Practical stability of nonlinear stochastic hybrid parabolic systems of Itô-type: Vector Lyapunov functions approach, Nonlinear Analysis: Real World Applications 12(1): 1386–1400.
  • [2] Bailey, J. and Finnie, I. (1960). An analytical study of drillstring vibration, Journal of Engineering for Industry, Transactions of the ASME 82(2): 122–128.
  • [3] Ben-Tal, A. and Zibulevsky, M. (1997). Penalty/barrier multiplier methods for convex programming problems, SIAM Journal on Optimization 7(2): 347–366.
  • [4] Boussaada, I., Mounier, H., Niculescu, S. and Cela, A. (2012). Analysis of drilling vibrations: A time delay system approach, 20th Mediterranean Conference on Control and Automation MED, Barcelona, Spain, pp. 610–614.
  • [5] Canudas-de Wit, C., Rubio, F. and Corchero, M. (2008). D-OSKIL: A new mechanism for controlling stick-slip oscillations in oil well drillstrings, IEEE Transactions on Control Systems Technology 16(6): 1177–1191.
  • [6] Challamel, N. (2000). Rock destruction effect on the stability of a drilling structure, Journal of Sound and Vibration 233(2): 235–254.
  • [7] Detournay, E. and Defourny, P. (1992). A phenomenological model for the drilling action of drag bits, International Journal of Rock Mechanics, Mining Science and Geomechanical Abstracts 29(1): 13–23.
  • [8] Fliess, M., Lévine, J., Martin, P. and Rouchon, P. (1995). Flatness and defect of non-linear systems: Introductory theory and examples, International Journal of Control 61(6): 1327–1361.
  • [9] Fridman, E. and Dambrine, M. (2010). Control under quantization, saturation and delay: A LMI approach, Automatica 45(10): 2258–2264.
  • [10] Fridman, E., Dambrine, M. and Yeganefar, N. (2008). Input to state stability of systems with time-delay: A matrix inequalities approach, Automatica 44(9): 2364–2369.
  • [11] Fridman, E., Mondié, S. and Saldivar, B. (2010). Bounds on the response of a drilling pipe model, IMA Journal of Mathematical Control and Information 27(4): 513–526.
  • [12] Grujić, L.T. (1973). On practical stability, International Journal of Control 17(4): 881–887.
  • [13] Halsey, G., Kyllingstad, A. and Kylling, A. (1988). Torque feedback used to cure slip-stick motion, Proceedings of the 63rd Society of Petroleum Engineers Drilling Engineering Annual Technical Conference and Exhibition, Houston, TX, USA, pp. 277–282.
  • [14] Jansen, J. (1993). Nonlinear Dynamics of Oilwell Drillstrings, Ph.D. thesis, Delft University of Technology, Delft.
  • [15] Jansen, J. and van den Steen, L. (1995). Active damping of self-excited torsional vibrations in oil well drillstrings, Journal of Sound and Vibration 179(4): 647–668.
  • [16] Javanmardi, K. and Gaspard, D. (1992). Application of soft torque rotary table in mobile bay, Technical Report IADC/SPE 23913, International Association of Drilling Contractors/Society of Petroleum Engineers, Dallas, TX.
  • [17] Khalil, H. (2002). Nonlinear Systems, Third Edition, Prentice-Hall, Upper Saddle River, NJ.
  • [18] Knuppel, T., Woittennek, F., Boussaada, I., Mounier, H. and Niculescu, S. (2014). Flatness-based control for a non-linear spatially distributed model of a drilling system, in A. Seuret et al. (Eds.), Low Complexity Controllers for Time Delay Systems: Advances in Delays and Dynamics, Volume 2, Springer, Cham, pp. 205–218.
  • [19] Kǒcvara, M. and Stingl, M. (2003). PENNON—a code for nonlinear and convex semidefinite programming, Optimization Methods and Software 8(3): 317–333.
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  • [22] Levinson, N. (1944). Transformation theory of non-linear differential equations of the second order, Annals of Mathematics 45(4): 723–737.
  • [23] Lu, H., Dumon, J. and de Wit, C.C. (2009). Experimental study of the D-OSKIL mechanism for controlling the stick-slip oscillations in a drilling laboratory testbed, 2009 IEEE Control Applications (CCA) & Intelligent Control (ISIC), St. Petersburg, Russia, pp. 1551–1556.
  • [24] Ma, R., Dimirovski, G. and Zhao, J. (2013). Backstepping robust H∞ control for a class of uncertain switched nonlinear systems under arbitrary switchings, Asian Journal of Control 15(1): 41–50.
  • [25] Navarro-López, E. and Cortés, D. (2007a). Avoiding harmful oscillations in a drillstring through dynamical analysis, Journal of Sound and Vibration 307(1): 152–171.
  • [26] Navarro-López, E. and Cortés, D. (2007b). Sliding-mode control of a multi-DOF oilwell drillstring with stick-slip oscillations, Proceedings of the 2007 American Control Conference, New York, NY, USA, pp. 3837–3842.
  • [27] Navarro-López, E. and Licéaga-Castro, E. (2009). Non-desired transitions and sliding-mode control of a multi-DOF mechanical system with stick-slip oscillations, Chaos, Solitons and Fractals 41(4): 2035–2044.
  • [28] Navarro-López, E. and Suárez, R. (2004). Practical approach to modelling and controlling stick-slip oscillations in oilwell drillstrings, Proceedings of the 2004 IEEE International Conference on Control Applications Taipei, Taiwan, pp. 1454–1460.
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  • [31] Saldivar, B., Knuppel, T., Woittennek, F., Boussaada, I., Mounier, H. and Niculescu, S. (2014). Flatness-based control of torsional-axial coupled drilling vibrations, 19th World Congress of the International Federation of Automatic Control, Cape Town, South Africa, pp. 7324–7329.
  • [32] Saldivar, B. and Mondié, S. (2013). Drilling vibration reduction via attractive ellipsoid method, Journal of the Franklin Institute 350(3): 485–502.
  • [33] Saldivar, B., Mondié, S., Loiseau, J. and Rasvan, V. (2013). Suppressing axial torsional coupled vibrations in oilwell drillstrings, Journal of Control Engineering and Applied Informatics 15(1): 3–10.
  • [34] Serrarens, A., van de Molengraft, M., Kok, J. and van den Steeen, L. (1998). H∞ control for suppressing stick-slip in oil well drillstrings, IEEE Control Systems 18(2): 19–30.
  • [35] Skaugen, E. (1987). The effects of quasi-random drill bit vibrations upon drillstring dynamic behavior, Technical Report SPE 16660, Society of Petroleum Engineers, Dallas, TX.
  • [36] Suh, Y., Kang, H. and Ro, Y. (2006). Stability condition of distributed delay systems based on an analytic solution to Lyapunov functional equations, Asian Journal of Control 8(1): 91–96.
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  • [38] Tucker, R. and Wang, C. (1999). On the effective control of torsional vibrations in drilling systems, Journal of Sound and Vibration 224(1): 101–122.
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  • [40] Wu, J., Li, S. and Chai, S. (2010). Exact controllability of wave equations with variable coefficients coupled in parallel, Asian Journal of Control 12(5): 650–655.
  • [41] Yang, L. and Wang, J. (2014). Stability of a damped hyperbolic Timoshenko system coupled with a heat equation, Asian Journal of Control 16(2): 546–555.
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  • [44] Zhang, X. and Zuazua, E. (2004). Polynomial decay and control of a 1-D hyperbolic-parabolic coupled system, Journal of Differential Equations 204(2): 380–438.
  • [45] Zhou, Z. and Tang, S. (2012). Boundary stabilization of a coupled wave-ode system with internal anti-damping, International Journal of Control 85(11): 683–693.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-732ccd7b-a96c-451a-8a92-10e85dc1da92
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