Abstract
Based on the existing research and combining with downhole conditions, this paper proposes a new type of downhole vibration tool to increase the rate of penetration (ROP), shorten the drilling and completion cycle and achieve more productive operations. As a whole, the axial vibration of the drill string is analyzed uniformly and the ROP is increased. A dynamic analysis model of the axial vibration of the drill string in the horizontal well is established. Based on the research on the working mechanism of the tool, this paper analyzes the flow area, pressure drop and axial force of the core valve system and determines the change law of the axial force. The field experiments verified the correctness of the established dynamic model method and the rationality of the tool and showed that the tool has a significant effect of increasing the ROP. The theoretical model established in this paper can improve the understanding of drill string dynamics. The proposed design method can provide ideas for the development of new drag reduction and speedup tools, and the calculation results can provide a reference for the determination and optimization of key parameters for drilling speedup.
Similar content being viewed by others
References
Qiu H, Yang J, Butt S (2018) Investigation on bit stick-slip vibration with random friction coefficients. J Petrol Sci Eng 164:127–139
Besselink B, Wouw NVD, Nijmeijer H (2011) A semi-analytical study of stick-slip oscillations in drilling systems. J Comput Nonlinear Dyn 6(2):293–297
Yang L, Tian J, Liu Q et al (2020) The multidirectional vibration and coupling dynamics of drill string and its influence on the wellbore trajectory. J Mech Sci Technol 34(7):2681–2692
Lobo DM, Ritto TG, Castello DA (2017) Stochastic analysis of torsional drill-string vibrations considering the passage from a soft to a harder rock layer. Journal of the Brazilian Society of Mechanical Sciences and Engineering 39(6):2341–2349
Tian J, Wei L, Yang L et al (2020) Research and experimental analysis of drill string dynamics characteristics and stick-slip reduction mechanism. J Mech Sci Technol 34(3):977–986
Richard T, Germay C, Detournay E (2007) A simplified model to explore the root cause of stick–slip vibrations in drilling systems with drag bits. J Sound Vib 305(3):432–456
Rudat J, Dashevskiy D (2011) Development of an Innovative Model-Based Stick/Slip Control System// Society of Petroleum Engineers.
Tian J, Zhou Y, Yang L et al (2019) Analysis of stick-slip reduction for a new torsional vibration tool based on PID control. Proceedings of the Institution of Mechanical Engineers Part K Journal of Multi-body Dynamics 234(1):82–94
Liu X, Vlajic N, Long X et al (2013) Nonlinear motions of a flexible rotor with a drill bit: stick-slip and delay effects. Nonlinear Dyn 72(1–2):61–77
Tian J, Li G, Dai L et al (2019) Torsional Vibrations and Nonlinear Dynamic Characteristics of Drill Strings and Stick-Slip Reduction Mechanism. ASME. J Computational Nonlinear Dyn. 14(8):081007–081011
Besselink B, Vromen T, Kremers N et al (2016) Analysis and Control of Stick-Slip Oscillations in Drilling Systems. IEEE Trans Control Syst Technol 24(5):1582–1593
Tian J, Hu X, Dai L et al (2020) Working mechanism and experimental study of dual-diameter and bi-speed composite drilling tool. Int J Green Energy 17(6):363–372
Ahmadi K, Altintas Y (2013) Stability of lateral, torsional and axial vibrations in drilling. Int J Mach Tools Manuf 68:63–74
Tian J, Yang Y, Dai L et al (2018) Kinetic characteristics analysis of a new torsional oscillator based on impulse response. Arch Appl Mech 88(10):1877–1891
Depouhon A, Detournay E (2014) Instability regimes and self-excited vibrations in deep drilling systems. J Sound Vib 333(7):2019–2039
Belokobylskii S, Prokopov V (1982) Friction-induced self-excited vibrations of drill rig with exponential drag law. Soviet Applied Mechanics 18(12):1134–1138
Tian J, Yang Y, Yang L (2017) Vibration characteristics analysis and experimental study of horizontal drill string with wellbore random friction force. Arch Appl Mech 87(2):1439–1451
Halsey G W, Kyllingstad A, Aarrestad T V, et al (1986) Drillstring torsional vibrations: comparison between theory and experiment on a full-scale research drilling rig. SPE/IADC Drilling Conference.
Wang R, Xue Q, Han L et al (2014) Torsional vibration analysis of push-the-bit rotary steerable drilling system. Meccanica 49(7):1601–1615
Li Z, Guo B (2007) Analysis of longitudinal vibration of drill string in air and gas drilling[C]//Rocky Mountain Oil & Gas Technology Symposium. Society of Petroleum Engineers.
Ritto TG, Escalante MR, Sampaio R et al (2013) Drill-string horizontal dynamics with uncertainty on the frictional force. J Sound Vib 332(1):145–153
Cunha A, Soize C, Sampaio R (2015) Computational modeling of the nonlinear stochastic dynamics of horizontal drillstrings. Comput Mech 56(5):849–878
Tian J, Yang Z, Li Y et al (2016) Vibration analysis of a new drill string system with hydro-oscillator in horizontal well. J Mech Sci Technol 30(6):2443–2451
MohammedDaniel FS (2020) Vibration analysis of simultaneous drilling and reaming BHA. Journal of Petroleum Exploration and Production Technology. https://doi.org/10.1007/s13202-020-00977-3
Barton SP, Baez F, Alali A (2011) Drilling performance improvements in gas shale plays using a novel drilling agitator device. Society of Petroleum Engineers. https://doi.org/10.2118/144416-MS
Jialin T, Ge Tongxu Hu, Zhichao, et al (2020) The effect of Negative pressure pulse on the drill string dynamics and its friction-reduction performance. Recovery, Utilization and Environmental Effects, Part A. https://doi.org/10.1080/15567036.2020.1827094
Khulief YA, Al-Sulaiman FA, Bashmal S (2007) Vibration analysis of drillstrings with self-excited stick–slip oscillations. J Sound Vib 299(3):540–558
Tian J, Zhang T, Dai L et al (2018) Dynamic characteristics and test analysis of a new drilling downhole tool with anti-stick-slip features. J Mech Sci Technol 32(10):4941–4949
Kapitaniak M, Hamaneh VV, Chávez JP et al (2015) Unveiling complexity of drill–string vibrations: Experiments and modelling. International Journal of Mechanical Sciences, s 101–102:324–337
Tian J, Wei L, Zhang T (2019) Dynamic Research and Experimental Analysis of a New Downhole Drilling Tool. Arabian Journal for Science and Engineering 44(12):10231–10244
Canudas-de-Wit C, Rubio FR, Corchero MA (2008) D-OSKIL: A New Mechanism for Controlling Stick-Slip Oscillations in Oil Well Drillstrings. IEEE Trans Control Syst Technol 16(6):1177–1191
Yinao Su (2001) Research and Application of Screw Drilling Tools. Petroleum Industry Press, Beijing
Wang Wenlong Hu, Qunai LH, etc, (2011) Analysis and application of drill string longitudinal vibration. Vibration and Shock 30(6):229–233 ((In Chinese))
Acknowledgments
All authors gratefully acknowledge the support of The State Scholarship Fund of the China Scholarship Council (CSC) (No. 201608515039), National Natural Science Foundation of China (NSFC) (No.51674216) and National Science and Technology Major Project (No.2016ZX05038).
Author information
Authors and Affiliations
Corresponding authors
Additional information
Technical editor: Thiago Ritto
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Tian, J., Wei, L., Dai, L. et al. Study on the mechanism of drilling speed increase considering the axial vibration of drill string. J Braz. Soc. Mech. Sci. Eng. 43, 8 (2021). https://doi.org/10.1007/s40430-020-02712-9
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s40430-020-02712-9