Quick Search Column Search Advanced Search
DI Qinfeng, PING Junchao, LI Ning, WANG Wenchang, WANG Mingjie, ZHANG He. PROGRESS IN MEASUREMENT TECHNOLOGY FOR DRILL STRING VIBRATION[J]. MECHANICS IN ENGINEERING, 2015, 37(5): 565-579. DOI: 10.6052/1000-0879-15-044
Citation: DI Qinfeng, PING Junchao, LI Ning, WANG Wenchang, WANG Mingjie, ZHANG He. PROGRESS IN MEASUREMENT TECHNOLOGY FOR DRILL STRING VIBRATION[J]. MECHANICS IN ENGINEERING, 2015, 37(5): 565-579. DOI: 10.6052/1000-0879-15-044
shu

PROGRESS IN MEASUREMENT TECHNOLOGY FOR DRILL STRING VIBRATION

  • 1 Shanghai University, Shanghai Institute of Applied Mathematics and Mechanics, Shanghai Key Laboratory of Mechanics in Energy Engineering, Shanghai 200072, China

  • 2 Tarim Oilfield Company, Korla 841000, the Xinjiang Uygur Autonomous Region, China

More Information
  • Received Date: February 15, 2015
  • Revised Date: March 26, 2015
  • Published Date: October 14, 2015
    Graphical Abstract
    • Abstract
  • The drill string fatigue failure caused by drill string vibration is increasingly an issue related with the development of ultra-deep drilling operations. The research methods of drill string vibration can be classified into two types, the theoretical analysis or numerical simulation, and the the measurement technology. Owing to various complicated nonlinear mechanical problems, especially, the impact between moving drilling tools and hole wall, it is dificult to study the drill string vibration in many cases using the theoretical analysis or numerical simulation method, and therefore, the down hole vibration measurement technology becomes more and more important. This paper gives a comprehensive and systematic review of the status and progress of drill string vibration measurement technology, followed by a detailed discussion of the working mechanism, analytical approach and application technology for several overseas measurement tools which have been widely used around the world. The results would provide important supports to develop the down hole vibration measurement technology in our country.
    • FullText(HTML)
    • References (86)
  • 1 韩春杰, 阎铁, 毕雪亮等. 深井钻柱振动规律的分析及应用. 天 然气工业, 2005, 25(9): 76-79
    2 屈展, 刘德铸. 钻柱振动问题及其理论研究进展. 石油机械,1996, 24(2): 54-57
    3 高岩, 郭学增, 于彤. 钻具振动分析技术的发展前景. 录井技术,1997, (3): 8-12
    4 宿雪, 葛洪魁, 杨微等. 钻柱振动录井的研究现状及发展趋势. 石油钻探技术, 2009, 37(5): 15-19
    5 胡以宝, 狄勤丰, 邹海洋等. 钻柱动力学研究及监控技术新进展. 石油钻探技术, 2006, 34(6): 7-10
    6 Rincon DM, Ulsoy AG. Complex geometry, rotary inertia and gyroscopic moment effects on drill vibrations. Journal of Sound and Vibration, 1995, 188(5): 701-715
    7 Jason W. Does lithology cause/effect drilling shocks and vibrations and how their effects relate to tool failures. [PhD Thesis]. Oklahoma: University of Oklahoma, 2004
    8 Jansen JD. Nonlinear Dynamics of Oilwell Drillstrings. Delft: Delft University Press, 1993. 73-76
    9 Ali H, Nayfeh, Balakumar B. Applied Nonlinear Dynamics: Analytical, Computational, and Experimental Methods. Weinheim: Wiley-VCH, 1995
    10 Ertas D, Bailey JR, Wang L, et al. Drill string mechanics model for surveillance, root cause analysis, and mitigation of torsional and axial vibrations. Society of Petroleum Engineers, Louisiana, USA, 2013
    11 Jansen JD. Nonlinear rotor dynamics as applied to oilwell drillstring vibrations. Journal of Sound and Vibration,1991, 147 (1): 115-135
    12 Navarro-Lopez EM, Cortes D. Avoiding harmful oscillations in a drillstring through dynamical analysis. Journal of Sound and Vibration, 2007, 307: 152-171
    13 Millheim K, Jordan S, Ritter CJ. Bottom-hole assembly analysis using the finite-element method. SPE Journal,1978, 30(2): 265-274
    14 Costa FS, Rebeiro PR. Finite element modeling of the mechanical behavior of unbalanced drillcollars, Society of Petroleum Engineers, Rio de Janeiro, Brazil, 1997
    15 Apostal MC, Haduch GA, Williams JB. A study to determine the effect of damping on finite-element-based, forcedfrequency-response models for bottomhole assembly vibration analysis. Society of Petroleum Engineers, New Orleans, LA, 1990
    16 Sampaio R, Piovan MT, Venero Lozano G. Non-linear model for coupled axial/torsional vibrations of drill-strings. COBEM, Rio de Janeiro, Brazil, 2005
    17 姚学诗, 郑春龙. 转子扭转-纵向耦合振动分析. 力学与实践,2010, 32(3): 89-91
    18 Zhu XH, Tang LP, Yang QM. A literature review of approaches for stick-slip vibration suppression in oilwell drillstring. Advances in Mechanical Engineering, 2014, 2014:967952
    19 Yigit AS, Christoforou AP. Coupled axial and transverse vibrations of oil well drill string. Journal of Sound and Vibration, 1996, 195 (4): 617-627
    20 Yigit AS, Christoforou AP. Coupled torsional and bending vibrations of drillstrings subject to impact with friction. Journal of Sound and Vibration, 1998, 215 (1): 167-181
    21 Richard T, Germay C, Detournay E. Self-excited stick-slip oscillations of drill bits. Comptes Rendus Mecanique, 2004,332: 619-626
    22 Khulief YA, Mohiuddin MA. On the dynamic analysis of rotors using modal reduction. Finite Elements in Analysis and Design, 1997, 26(1): 41-55
    23 Khulief YA, Al-Naser H. Finite element dynamic analysis of drillstrings. Finite Elements in Analysis and Design,2005, 41(13): 1270-1288
    24 Yevhen K. A simple model of bit whirl for deep drilling applications. Journal of Sound and Vibration, 2013, 332(24):6321-6334
    25 祝效华, 汤历平, 孟苹苹等. PDC 钻头粘滑振动机理分. 石油 矿场机械, 2012, (4): 13-16
    26 Kyllingstadand A, Halsey GW. Study of slip/stick motion of the bit. SPE Drilling Engineering, 1988, 3(4): 369-373
    27 Liu X, Vlajic N, Long X, et al. Nonlinear motions of a flexible rotor with a drill bit: stick-slip and delay effects. Nonlinear Dynamics, 2013, 72(1): 61-77
    28 Mihajlovi N, van de Wouw N, Rosielle PCJN, et al. Interaction between torsional and lateral vibrations in flexible rotor systems with discontinuous friction. Nonlinear Dynamics, 2007, 50(3): 679-699
    29 Luc P, Emmanuel D, Geoff D. Bit/rock interface laws in directional drilling. International Journal of Rock Mechanics & Mining Sciences, 2012, 52: 81-90
    30 Mitchell RF. Force on curved tubulars caused by fluid flow. Society of Petroleum Engineers, Adelaide, Australia, 1996
    31 Eronini IG, Somerton WH, Auslander DM. A dynamic model for rotary rock Drilling. J Energy Resources Technol, 1982, 6: 108-120
    32 Ledgerwood LW, Jain JR, Hoffmann OJ, et al. Down hole measurement and monitoring lead to an enhanced understanding of drilling vibrations and polycrystalline diamond compact bit damage. Society of Petroleum Engineers, Louisiana, USA, 2013
    33 Raap C, Craig AD, Graham RB. Drill pipe dynamic measurements provide valuable insight into drill string dysfunctions. Society of Petroleum Engineers, Ohio, USA, 2011
    34 Oueslati H, Jain JR, Reckmann H, et al. New insights into drilling dynamics through highfrequency vibration measurement and modeling. Society of Petroleum Engineers, Louisiana, USA, 2013
    35 Chien ML, Nicholas V, Hamad K, et al. Parametric studies on drill-string motions. International Journal of Mechanical Sciences, 2012, 54(1): 260-268
    36 Besaisow AA, Payne ML. A study of excitation mechanisms and resonances inducing BHA vibrations. Society of Petroleum Engineers, New Orleans, LA, 1986
    37 Schen AE, Snell AD, Stanes BH. Optimization of bit drilling performance using a new small vibration logging tool. Society of Petroleum Engineers, Amsterdam, Netherlands, 2005
    38 Field DJ, Swarbrick AJ, Haduch GA. Techniques for successful application of dynamic analysis in the prevention of field-induced vibration damage in MWD tools. Society of Petroleum Engineers, Amsterdam, Holland, 1993
    39 Wolf SF, Zacksenhouse M, Arian A. Field measurements of downhole drillstring vibrations. Society of Petroleum Engineers, Las Vegas, USA, 1985
    40 Lutz J, Raynaud H, Gstalder S, et al. Dynamics therory of drilling and instantaneous logging. Society of Petroleum Engineers, Los Angeles, California, 1971
    41 Stephen WL, Mitch W, Aaron E, et al. Stick-slip detection and friction factor testing using surface-based torque and tension measurements. Society of Petroleum Engineers, Netherlands, 2014
    42 刘清友, 马德坤, 钟青. 钻柱扭转振动模型的建立及求解. 石油 学报, 2000, 21(2): 78-82
    43 韩春杰, 阎铁, 毕雪亮等. 钻柱横向振动规律及应用. 大庆石油 学院学报, 2004, 2(1): 14-16
    44 刘伟, 周英操, 王瑛等. 井下振动测量、分析原理研究. 石油钻 采工艺, 2012, (1): 14-18
    45 李成, 丁天怀, 王鹏等. 底部钻柱动态力学特性测量方法与实验 研究. 中国机械工程, 2009, (8): 933-936
    46 翟小强, 王瑛, 刘伟等. 存储式井下振动测量工具的设计与室内 试验. 石油钻探技术, 2011, (4): 111-114
    47 高岩, 陈亚西, 郭学增. 钻柱振动信号采集系统及谱分析. 录井 技术, 1998, 9(3): 44-51
    48 高岩, 刘志国, 郭学增. 钻柱轴向振动固有频率的计算和测量. 西安石油学报(自然科学版), 2000, 15(1): 39-43
    49 高岩, 邹克元, 董樱花等. 随钻钻柱振动声波技术在塔里木超深 井和水平井中的应用实例分析. 录井工程, 2011, (3): 29-36
    50 崔学政, 管志川, 韩志勇等. 钻柱测量接头的机械结构设计与制 造. 机械设计, 2002, (3): 30-32
    51 刘瑞文, 管志川, 李春山. 钻柱振动信号在线监测及应用. 振动 与冲击, 2013, (1): 60-64
    52 刘瑞文, 陈蓓蓓, 李春山. 岩性实时识别方法研究. 钻采工艺,2012, (4): 16-18
    53 Macpherson JD, Mason JS, Kingman JEE. Surface measurement and analysis of drillstring vibrations while drilling. Society of Petroleum Engineers, Amsterdam, Holland, 1993
    54 Besaisow AA, Jan YM, Schuh FJ. Development of a surface drillstring vibration measurement system. Society of Petroleum Engineers, Las Vegas, USA, 1985
    55 Dubinsky VSH, Henneuse HP, Kirkman MA. Surface monitoring of downhole vibrations: Russian, European, and American approaches. Society of Petroleum Engineers, Cannes, French, 1992
    56 Ledgerwood LW, Hoffmann OJ, Jain JR, et al. Downhole vibration measurement, monitoring, and modeling reveal stick/slip as a primary cause of PDC-Bit damage in today. Society of Petroleum Engineers, Florence, Italy, 2010
    57 MacPherson JD, Jogi PN, Kingman JEE. Application and analysis of simultaneous near bit and surface dynamics measurements. Society of Petroleum Engineers, Dallas, Texas, 1998
    58 Zannoni SA, Cheatham CA, Chen CKD, et al. Development and field testing of a new downhole MWD drillstring dynamics sensor. Society of Petroleum Engineers, Houston, Texas, 1993
    59 Chen DCK, Smith M, LaPierre S. Integrated drilling dynamics system closes the model measure optimize loop in real time. Society of Petroleum Engineers, Amsterdam, Netherlands, 2003
    60 Dykstra MW, Chen DCK, Warren TM. Experimental evaluations of drill bit and drill string dynamics. Society of Petroleum Engineers, New Orleans, Louisiana, 1994
    61 Lapierre SG, Seiler N, Chen DCK. Mitigating vibration in bi-center drilling programs. Society of Petroleum Engineers, Dallas, USA, 2004
    62 Akinniranye G, Megat A, Elsweisy H, et al. Implementation of a shock and vibration mitigation process: achieving real-time solutions and savings. SPE Journal, 2009,24(2):1-10
    63 Ashley DK, McNary XM, Tomlinson JC. Extending BHA life with multi-axis vibration measurements. Society of Petroleum Engineers, Amsterdam, Netherlands, 2001
    64 Adam B, Lojini L, Junichi S, et al. Continuous highfrequency measurements of the drilling process provide new insights into drilling system response and transitions between vibration modes. Society of Petroleum Engineers, Amsterdam, Netherlands, 2014
    65 Arevalo YI, Fernandes AJ. Quantification of drillstringintegrity-failure risk using real-time vibration measurements. Society of Petroleum Engineers, Jakarta, Indonesia,2012
    66 高效曾. 用于地层倾角仪的加速度计和磁力计. 地球物理测井,1989, (6): 20-25
    67 Omjuwa E, Osisanya S, Ahmed R. Measuring and controlling torsional vibrations and stick-slip in a viscousdamped drillstring model. International Petroleum Technology Conference, Bangkok, Thailand, 2012
    68 Wu X, Karuppiah V, Nagaraj M, et al. Identifying the root cause of drilling vibration and stick-slip enables fitfor-purpose solutions. Society of Petroleum Engineers, Jakarta, Indonesia, 2012
    69 Martin EC, Mark EW. Laboratory testing of an active drilling vibration monitoring & control system. National Technical Conference and Exhibition, Houston, Texas, 2005
    70 梅冬琴, 刘巨保, 李治淼等. 基于加速度传感器的钻柱振动测量 方法研究. 石油矿场机械, 2012, (2): 1-7
    71 杨卓君, 廖明夫. 基于加速度传感器测量扭振方法的研究. 噪声 与振动控制, 2008, (5): 163-167
    72 张绍槐, 韩继勇, 朱根法. 随钻地震技术的理论及工程应用. 石 油学报, 1999, 20(2): 67-72
    73 Yezid IA, Yonnellybeth M, Andre N. Vibration risk index offers tool for preventing drillstring failure. World Trends and Technology for Offshore Oil and Gas Operations, 2011
    74 杨福生. 随机信号分析. 北京: 清华大学出版社, 1990
    75 张义民. 机械振动. 北京: 清华大学出版社, 2007
    76 Cooley JW, Tukey JW. An algorithm for the machine calculation of complex Fourier series. Math Comput, 1965, (19): 297-301
    77 Morlet J. Continuous wavelet transform and continuous multiscale analysis. Journal of Mathematical Analysis and Applications, 2003, 169(1): 179-196
    78 黄建林, 罗飞, 付建红等. 小波理论在钻柱振动谱分析中的应用. 钻采工艺, 2008, (2): 7-9
    79 金朝娣, 能昌信, 王振翀等. 基于STFT 的钻柱振动信号分析 与应用. 煤矿开采, 2011, (2): 29-32
    80 程军圣, 于德介, 杨宇. EMD 方法在转子局部碰摩故障诊断中 的应用. 振动、测试与诊断, 2006, (1): 24-27
    81 Craig AD, Hanley C, McFarland B, et al. A proven approach to mitigating drilling vibration problems in offshore Western Australia. International Petroleum Technology Conference, Doha, Qatar, 2009
    82 高岩. 三牙轮钻头钻进时钻柱轴向振动的特征. 石油学报, 2000,21(6):93-96.
    83 李春山, 王崇敬, 陈添等. 利用钻柱振动频谱判别钻柱复杂情况 的方法. 中国石油大学学报(自然科学版), 2011, (5): 56-60
    84 马斐, 宋淑芳. 钻柱振动诊断方法的研究. 华南理工大学学报(自 然科学版), 1996, (12): 3-7
    85 李国庆, 王洪军, 刘修善等. 钻柱振动模态分析方法及其应用. 石油钻探技术, 2007, (6): 25-27
    86 Romulo A, Dimitrios P. On the benefits of automation in improving the drilling e±ciency in offshore activities. Society of Petroleum Engineers, Amsterdam, Netherlands, 2014
    • Related Articles

  • Related Articles

    [1]FENG Wei, HUANG Wendan, HAO Ce, ZHANG Hongye, LIU Zhanwei. TWO-DIMENSIONAL/THREE-DIMENSIONAL TEMPERATURE FIELD MEASUREMENT TECHNOLOGY BASED ON OPTICAL PRINCIPLE[J]. MECHANICS IN ENGINEERING, 2023, 45(6): 1235-1244. DOI: 10.6052/1000-0879-23-402
    [2]HUANG Liwen, GAO Fei, SHAO Xinxing. SIMULTANEOUS MEASUREMENT OF STRESS AND STRAIN FOR TRANSPARENT SPECIMENS SUBJECTED TO CONCENTRATED LOAD[J]. MECHANICS IN ENGINEERING, 2023, 45(6): 1227-1234. DOI: 10.6052/1000-0879-23-394
    [3]LI Chenyang, XU Xianzhong. RESEARCH ON MEASUREING METHOD OF FRICTION RESISTANCE OF SOLID-LIQUID INTERFACE[J]. MECHANICS IN ENGINEERING, 2021, 43(5): 783-788. DOI: 10.6052/1000-0879-21-076
    [4]LI Kai, XUE Yongjiang. EXPERIMENTAL MEASUREMENT OF A MONKEY TOY THAT CAN STAND STEADILY AFTER A 360° SOMERSAULT1)[J]. MECHANICS IN ENGINEERING, 2020, 42(5): 609-616. DOI: 10.6052/1000-0879-20-073
    [5]LIU Cheng, REN Nianzu, YANG Qingsong, CHEN Chao, DU Tianqiang, TIAN Cheng, LIU Zhenguo. A NEW METHOD FOR MEASURING AND ANALYZING THE STRESS STATE OF CAR WHEEL BASED ON RIG TEST1)[J]. MECHANICS IN ENGINEERING, 2020, 42(1): 42-49. DOI: 10.6052/1000-0879-19-303
    [6]LIU Yanming, WU Di. ANGULAR VELOCITY MEASUREMENT FOR FLIGHT VEHICLE VIA THREE AXIS ACCELEROMETERS[J]. MECHANICS IN ENGINEERING, 2020, 42(1): 17-21. DOI: 10.6052/1000-0879-19-175
    [7]LIU Chunjie, WU Xiaofeng, GAN Weimin. THE CONTACT FORCE MEASUREMENT METHOD FOR SATELLITE SLIP RING BASED ON CANTILEVER BEAM THEORY[J]. MECHANICS IN ENGINEERING, 2014, 36(3): 330-332. DOI: 10.6052/1000-0879-13-427
    [8]Evaluation on the Uncertainty of Measurement for the Fiducial Error of Indication of Measuring Device for Torque and Rotate Speed[J]. MECHANICS IN ENGINEERING, 2007, 29(5): 58-60. DOI: 10.6052/1000-0992-2006-282
    [9]THE CHECK OF DATA ANALYSIS SOFTWARE FOR TURBULANCE MEASUREMENTS[J]. MECHANICS IN ENGINEERING, 1999, 21(2): 63-65. DOI: 10.6052/1000-0879-1999-073
    [10]A METHOD OF MEASURING THE NONLINEAR DAMPING OF OLEO DAMPER[J]. MECHANICS IN ENGINEERING, 1999, 21(2): 46-47. DOI: 10.6052/1000-0879-1999-065

Catalog

    Get Citation
    PDF
    XML
    Article views (1108) PDF downloads (1005) Cited by()
    Turn off MathJax
    Article Contents
    Abstract
    References
    Related Articles
    • Copyright © MECHANICS IN ENGINEERING
    • Address:No.15, Beisihuan West Road, Haidian District, Beijing
    • Code:100190
    • Tel:010-62554107
    • E-mail:lxsj@cstam.org.cn

    Download Center

    Author Center

    Email Alert RSS
    erweima Test Data One

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return