复合堵漏技术在南堡油田NP1-P4C1井的应用

李良川 王在明 孙俊

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李良川, 王在明, 孙俊. 复合堵漏技术在南堡油田NP1-P4C1井的应用[J]. 石油钻采工艺, 2009, 31(2): 51-54.
引用本文: 李良川, 王在明, 孙俊. 复合堵漏技术在南堡油田NP1-P4C1井的应用[J]. 石油钻采工艺, 2009, 31(2): 51-54.
shu
LI Liangchuan, WANG Zaiming, SUN Jun. Key technology of compound circulation loss control and its application to NP1-P4C1 well in Nanpu Oilield[J]. Oil Drilling & Production Technology, 2009, 31(2): 51-54.
Citation: LI Liangchuan, WANG Zaiming, SUN Jun. Key technology of compound circulation loss control and its application to NP1-P4C1 well in Nanpu Oilield[J]. Oil Drilling & Production Technology, 2009, 31(2): 51-54.
shu

复合堵漏技术在南堡油田NP1-P4C1井的应用

  • 1.

    中国石油大学石油天然气工程学院,北京 102200

  • 2.

    冀东油田公司钻采工艺研究院,河北唐山 063004

  • 3.

    川庆钻探公司川东钻探公司,重庆 400021

详细信息

  • 中图分类号: TE 254.6

Key technology of compound circulation loss control and its application to NP1-P4C1 well in Nanpu Oilield

  • 1.

    College of Petroleum engineering in China university of Petroleum Beij ing 102200 China2. Drilling and Production academy of Jidong oilf ield, Tangshan 063004, China

  • 2.

    Chuanqing Drilling Comp any Chuandong Drilling Comp any Chongqing 400021 China

  • 摘要: 针对南堡油田多次发生浅层渗透性滤失、裂缝性漏失和油层漏失等井漏情况,进行了复合堵漏技术研究。复合堵漏 浆配制时需要利用多种材料间的协同作用,特别是CMC 等材料的加入对堵漏有利;“平衡区域”形成是堵漏成功的关键,当堵 漏效果好时平衡区域向左移动,效果不好时则向右移动,甚至不能形成平衡区域,平衡区域的强度和渗透率对堵漏效果具有重 要作用;采用起钻静止堵漏时,静止时间不超过8 h ,因为在8 h 内堵漏材料通过滞留、膨胀,基本完成封堵屏障的建立;二次和 三次堵漏在水大量漏失后,堵漏能力会迅速提高,在现场进行堵漏作业时要有意识地使用多次堵漏方法;复合堵漏关键技术在NP1-P4C1 井的成功应用说明了复合堵漏适用于南堡油田井漏的预防和治理。
    Abstract: In view of the circulation loss occurred frequently in Nanpu Oilield in shallow permeability layer, fractured layer and reservoir, by researching in laboratory and practice in ield, the key technology of compound circulation loss control is summed up. The compatible effect of diversiied materials is needed for the preparation of compound plugging slurry, in particular the adding of CMC is favorable for circulation loss control. ‘Balance area” is critical to successful circulation loss control. It will move to the left if the effect of circulation loss control is good, otherwise it will turn left or no “balance area” will be formed at all. The intensity and permeability of the “balance area” is important to the effect of circulation loss control. Using static circulation loss control, the static time will take less than 8 hours, within which the sealed protective screen can be established based on the occlusion and swell of sealing materials. The circulation loss control capability will be improved remarkably after second and third circulation loss control, so the technology of multiple circulation control is proposed to be used in the ield. Successful application of the key technology of compound rculation loss control to NP1-P4C1 well indicate that the compound circulation loss control technology is it for the circulation loss prevention and treatment in the Nanpu Oilield.
  • [1] [1]刘向君,叶仲斌,陈一健.岩石弱面结构对井壁稳定性的影响[J].天然气工业,2002,22(2):41-42.
    LIU Xiangjun,YE Zhongbin, CHEN Yijian. Influence of rock weak plane texture on sidewall stability[J]. Natural Gas Industry, 2002, 22(2): 41-42.
    [2]金衍,陈勉,陈治喜,等.弱面地层的直井井壁稳定力学模型[J].钻采工艺,1999,22(3):13-14.
    JIN Yan, CHEN Mian, CHEN Zhixi, et al. Mechanics model of sidewall stability of straight wells drilled through weakly consolidated formations[J]. Drilling and Production Technology, 1999, 22(3):13-14.
    [3]ADDIS M A, BARTON N R, BANDIS S C, et al.Laboratory studies on the stability of vertical and deviated boreholes[R].SPE 20 406, 1990.
    [4]MALONEY S, KAISER P K . Rock at great depth[M]. Rotterdam: A A Balkema, 1989: 745-752.
    [5]HAIMSON B C, HERRICK C G. Proceedings of the 26th U.S rock mechanics symposium[M]. Rotterdam: A A Balkema, 1985: 1207–1218.
    [6]姚飞,陈勉,吴晓东,等.天然裂缝性地层水力裂缝延伸物理模拟研究[J].石油钻采工艺,2008,30(3):83-86.
    YAO Fei, CHEN Mian, WU Xiaodong, et al. Physical of hydraulic fracture propagation in naturally fracture[J]. Oil Dilling & Production Technology, 2008, 30(3): 83-86.

    [1]刘向君,叶仲斌,陈一健.岩石弱面结构对井壁稳定性的影响[J].天然气工业,2002,22(2):41-42.
    LIU Xiangjun,YE Zhongbin, CHEN Yijian. Influence of rock weak plane texture on sidewall stability[J]. Natural Gas Industry, 2002, 22(2): 41-42.
    [2]金衍,陈勉,陈治喜,等.弱面地层的直井井壁稳定力学模型[J].钻采工艺,1999,22(3):13-14.
    JIN Yan, CHEN Mian, CHEN Zhixi, et al. Mechanics model of sidewall stability of straight wells drilled through weakly consolidated formations[J]. Drilling and Production Technology, 1999, 22(3):13-14.
    [3]ADDIS M A, BARTON N R, BANDIS S C, et al.Laboratory studies on the stability of vertical and deviated boreholes[R].SPE 20 406, 1990.
    [4]MALONEY S, KAISER P K . Rock at great depth[M]. Rotterdam: A A Balkema, 1989: 745-752.
    [5]HAIMSON B C, HERRICK C G. Proceedings of the 26th U.S rock mechanics symposium[M]. Rotterdam: A A Balkema, 1985: 1207–1218.
    [6]姚飞,陈勉,吴晓东,等.天然裂缝性地层水力裂缝延伸物理模拟研究[J].石油钻采工艺,2008,30(3):83-86.
    YAO Fei, CHEN Mian, WU Xiaodong, et al. Physical of hydraulic fracture propagation in naturally fracture[J]. Oil Dilling & Production Technology, 2008, 30(3): 83-86.
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出版历程
  • 收稿日期:  2019-05-16
  • 修回日期:  2019-05-16
  • 刊出日期:  2009-05-04

复合堵漏技术在南堡油田NP1-P4C1井的应用

  • 1. 中国石油大学石油天然气工程学院,北京 102200
  • 2. 冀东油田公司钻采工艺研究院,河北唐山 063004
  • 3. 川庆钻探公司川东钻探公司,重庆 400021
  • 收稿日期: 2019-05-16
  • 修回日期: 2019-05-16
  • 刊出日期: 2009-05-04

  • 中图分类号: TE 254.6

摘要: 针对南堡油田多次发生浅层渗透性滤失、裂缝性漏失和油层漏失等井漏情况,进行了复合堵漏技术研究。复合堵漏 浆配制时需要利用多种材料间的协同作用,特别是CMC 等材料的加入对堵漏有利;“平衡区域”形成是堵漏成功的关键,当堵 漏效果好时平衡区域向左移动,效果不好时则向右移动,甚至不能形成平衡区域,平衡区域的强度和渗透率对堵漏效果具有重 要作用;采用起钻静止堵漏时,静止时间不超过8 h ,因为在8 h 内堵漏材料通过滞留、膨胀,基本完成封堵屏障的建立;二次和 三次堵漏在水大量漏失后,堵漏能力会迅速提高,在现场进行堵漏作业时要有意识地使用多次堵漏方法;复合堵漏关键技术在NP1-P4C1 井的成功应用说明了复合堵漏适用于南堡油田井漏的预防和治理。

English Abstract

李良川, 王在明, 孙俊. 复合堵漏技术在南堡油田NP1-P4C1井的应用[J]. 石油钻采工艺, 2009, 31(2): 51-54.
引用本文: 李良川, 王在明, 孙俊. 复合堵漏技术在南堡油田NP1-P4C1井的应用[J]. 石油钻采工艺, 2009, 31(2): 51-54.
shu
LI Liangchuan, WANG Zaiming, SUN Jun. Key technology of compound circulation loss control and its application to NP1-P4C1 well in Nanpu Oilield[J]. Oil Drilling & Production Technology, 2009, 31(2): 51-54.
Citation: LI Liangchuan, WANG Zaiming, SUN Jun. Key technology of compound circulation loss control and its application to NP1-P4C1 well in Nanpu Oilield[J]. Oil Drilling & Production Technology, 2009, 31(2): 51-54.
shu

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