Volume 45 Issue 1
Mar.  2017
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ZHA Chunqing, LIU Gonghui, LI Jun, LI Yumei, XI Yan, LIAN Wei. Development and Field Application of a Compound Percussive Jet[J]. Petroleum Drilling Techniques, 2017, 45(1): 57-61. DOI: 10.11911/syztjs.201701010
Citation: ZHA Chunqing, LIU Gonghui, LI Jun, LI Yumei, XI Yan, LIAN Wei. Development and Field Application of a Compound Percussive Jet[J]. Petroleum Drilling Techniques, 2017, 45(1): 57-61. DOI: 10.11911/syztjs.201701010
shu

Development and Field Application of a Compound Percussive Jet

  • 1.

    College of Petroleum Engineering, China University of Petroleum(Beijing), Beijing, 102249, China;

  • 2.

    Beijing University of Technology, Beijing, 100124, China

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  • Received Date: June 16, 2016
  • Revised Date: December 11, 2016
    Graphical Abstract
    • Abstract
  • To further enhance ROP in hard formations and to minimize stick-slip vibration of PDC bits, by combining the features of torsional impact devices and rotary drilling tools,a compound percussive jet for PDC bits which can output high-frequency uni-directional axial impact and reciprocal rotation impact simultaneously has been developed.Tests have been conducted to verify the feasibility and performance of the newly-developed compound percussive jet.The test results showed the innovative compound percussive jet could effectively provide axial impact and rotary impact simultaneously,and its impact frequency, impact power and pressure drop increased with the increase of pumping rate,and decreased with nozzle diameter increase.Field test results of Well Pu-4-32 showed with the application of the innovative compound percussive jet,the ROP of the well increased by 60.2% over the neighboring wells using the PDM+PDC bit compound drilling tools. During the test, the PDC bit had no stick-slip vibration, and the recovered bit didn’t lose any tooth. In conclusion, in addition to enhancing the ROP in hard formations,the innovative compound percussive jet could effectively minimize stick-slip vibration of and provide necessary protection to the PDC bit.
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    • References (18)
  • [1]
    DEPOUHON A,DETOURNAY E.Instability regimes and self-excited vibrations in deep drilling systems[J].Journal of Sound and Vibration,2014,333(7):2019-2039.
    [2]
    熊继有,钱声华,严仁俊,等.钻井高效破岩新进展[J].天然气工业,2004,24(4):27-29. XIONG Jiyou,QIAN Shenghua,YAN Renjun,et al.New progress on efficient rock-breaking of drilling[J].Natural Gas Industry,2004,24(4):27-29.
    [3]
    TUCKER R W,WANG C.On the effective control of torsional vibrations in drilling systems[J].Journal of Sound and Vibration,1999,224(1):101-122.
    [4]
    张海山,葛俊瑞,杨进,等.扭力冲击器在海上深部地层的提速效果评价[J].断块油气田,2014,21(2):249-251. ZHANG Haishan,GE Junrui,YANG Jin,et al. Effect evaluation of torsion impactor for increasing ROP in offshore deep formation[J]. Fault-Block Oil Gas Field,2014,21(2):249-251.
    [5]
    兰凯,张金成,母亚军,等.高研磨性硬地层钻井提速技术[J].石油钻采工艺,2015,37(6):18-22. LAN Kai,ZHANG Jincheng,MU Yajun,et al. Technology for increasing drilling speed in high abrasive hard formation[J]. Oil Drilling Production Technology,2015,37(6):18-22.
    [6]
    刘彪,潘丽娟,张俊,等.顺北区块超深小井眼水平井优快钻井技术[J].石油钻探技术,2016,44(6):11-16. LIU Biao,PAN Lijuan,ZHANG Jun,et al. The optimized drilling techniques used in ultra-deep and slim-hole horizontal wells of the Shunbei Block[J]. Petroleum Drilling Techniques,2016,44(6):11-16.
    [7]
    童金旺.几种典型难钻地层提速方法[J].石油机械,2016,44(12):38-41. TONG Jinwang. Methods of drilling speed promotion for several typical difficult drilling formations[J]. China Petroleum Machinery,2016,44(12):38-41.
    [8]
    RABIA H.A unified prediction model for percussive and rotary drilling[J].Mining Science and Technology,1985,2(3):207-216.
    [9]
    秦晓庆,刘伟,李丽,等.旋冲钻井技术在川西硬地层的应用[J].断块油气田,2013,20(4):505-507. QIN Xiaoqing,LIU Wei,LI Li,et al.Application of rotary percussion drilling technology in hard formation of Western Sichuan[J].Fault-Block Oil Gas Field,2013,20(4):505-507.
    [10]
    吴鹏,韦忠良,吕苗荣,等.射流式液动冲击器优化设计研究[J].石油机械,2014,42(7):24-27,31. WU Peng,WEI Zhongliang,LYU Miaorong,et al.Hydraulic jet hammer design optimization[J].China Petroleum Machinery,2014,42(7):24-27,31.
    [11]
    王克雄,郭清.SDDC型液动旋冲接头的设计理论研究[J].天然气工业,2007,27(3):69-71. WANG Kexiong,GUO Qing.Design theory study on SDDC hydraulic rotary-percussion sub[J].Natural Gas Industry,2007,27(3):69-71.
    [12]
    雷鹏,倪红坚,王瑞和,等.自激振荡式旋冲工具在深井超深井中的试验应用[J].石油钻探技术,2013,41(6):40-43. LEI Peng,NI Hongjian,WANG Ruihe,et al.Field test of self-excited vibration rotary percussion drilling tool in deep and ultra-deep wells[J].Petroleum Drilling Techniques,2013,41(6):40-43.
    [13]
    马广军,张海平,王甲昌.基于螺杆钻具的旋冲钻井装置设计及试验研究[J].石油机械,2016,44(6):24-27. MA Guangjun, ZHANG Haiping,WANG Jiachang. Designed and testing of the positive displacement motor driven rotary percussion drilling device[J].China Petroleum Machinery,2016,44(6):24-27.
    [14]
    史怀忠,李根生,王学杰,等.水力脉冲空化射流欠平衡钻井提高钻速技术[J].石油勘探与开发,2010,37(1):111-115. SHI Huaizhong,LI Gensheng,WANG Xuejie,et al.Improving the rate of penetration by hydraulic pulsating-cavitating water jet under-balance pressure drilling[J].Petroleum Exploration and Developmet,2010,37(1):111-115.
    [15]
    王谊,施连海.水力脉动冲击钻井工具初步研究与试验[J].石油钻探技术,2006,34(2):51-52. WANG Yi,SHI Lianhai.Study of a hydraulic-pulse-percussion drilling tool and its trial[J].Petroleum Drilling Techniques,2006,34(2):51-52.
    [16]
    李国华,鲍洪志,陶兴华.旋冲钻井参数对破岩效率的影响研究[J].石油钻探技术,2004,32(2):4-7. LI Guohua,BAO Hongzhi,TAO Xinghua.Effects of drilling conditions on crushing rocks while rotary percussion drilling[J].Petroleum Drilling Techniques,2004,32(2):4-7.
    [17]
    马广军,王甲昌,张海平.螺杆驱动旋冲钻井工具设计及试验研究[J].石油钻探技术,2016,44(3):50-54. MA Guangjun,WANG Jiachang,ZHANG Haiping. The design and experimental study of PDM driven rotary percussion drilling tool[J]. Petroleum Drilling Techniques,2016,44(3):50-54.
    [18]
    柳贡慧,李玉梅,李军,等.复合冲击破岩钻井新技术[J].石油钻探技术,2016,44(5):10-15. LIU Gonghui,LI Yumei,LI Jun,et al.New technology with composite percussion drilling and rock breaking[J].Petroleum Drilling Techniques,2016,44(5):10-15.
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