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涠洲K油田复杂工况旋转尾管固井技术

李中 郭永宾 管申 刘智勤 彭巍

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文章导航 > 钻井液与完井液  > 2019 >  36(1): 87-92
李中, 郭永宾, 管申, 刘智勤, 彭巍. 涠洲K油田复杂工况旋转尾管固井技术[J]. 钻井液与完井液, 2019, 36(1): 87-92. doi: 10.3969/j.issn.1001-5620.2019.01.017
引用本文: 李中, 郭永宾, 管申, 刘智勤, 彭巍. 涠洲K油田复杂工况旋转尾管固井技术[J]. 钻井液与完井液, 2019, 36(1): 87-92. doi: 10.3969/j.issn.1001-5620.2019.01.017
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LI Zhong, GUO Yongbin, GUAN Shen, LIU Zhiqin, PENG Wei. Rotary-liner Cementing Technology for Use in Complex Working Conditions in the Weizhou K Oilfield[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(1): 87-92. doi: 10.3969/j.issn.1001-5620.2019.01.017
Citation: LI Zhong, GUO Yongbin, GUAN Shen, LIU Zhiqin, PENG Wei. Rotary-liner Cementing Technology for Use in Complex Working Conditions in the Weizhou K Oilfield[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(1): 87-92. doi: 10.3969/j.issn.1001-5620.2019.01.017
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涠洲K油田复杂工况旋转尾管固井技术

doi: 10.3969/j.issn.1001-5620.2019.01.017

  • 中海石油(中国)有限公司湛江分公司, 广东湛江 524057

基金项目: 

国家科技重大专项课题“南海西部海域低渗油气藏勘探开发关键技术”(2016ZX05024-006)

详细信息
    作者简介:

    李中,教授级高级工程师,1994年毕业于原江汉石油学院钻井工程专业,现从事海洋油气钻完井的研究和管理工作。E-mail:lizhong@cnooc.com.cn

  • 中图分类号: TE256.1

Rotary-liner Cementing Technology for Use in Complex Working Conditions in the Weizhou K Oilfield

  • CNOOC Zhanjiang Branch Company, Zhanjiang, Guangdong 524057

    摘要
  • 摘要: 南海西部的北部湾盆地涠洲K油田X1井是一口工况较为复杂的定向井,存在井斜大、裸眼段长、高温、储层压力衰竭带来的异常低压,同时具有较高的气油比等因素共同作用,给固井作业带来极大的挑战。由于φ177.8 mm尾管与φ215.9 mm井眼环空间隙较小,如果采用常规静态尾管固井技术固井顶替效率偏低,将会导致井下漏失和无法压稳地层,引起气窜,造成压力衰竭和高温目的层位的固井质量难以满足后期射孔开采的要求。为了保证复杂工况下油气水层间良好封隔,该井选择使用旋转尾管下入固井技术和抗高温早强防气窜水泥浆体系,同时优选新型油基钻井液冲洗液和隔离液,有效清洁滤饼,并且实现胶结面的润湿反转;使用软件对尾管旋转扭矩进行精确模拟和提高尾管下入居中度,完成了压力衰竭和高温目的层φ177.8 mm尾管固井作业。采用高清扇区水泥胶结测井仪器进行SBT扇区水泥胶结测井结果表明:油气水层实现了良好的层间封隔,全井段固井质量优,较邻近区块的K2井有了明显的改善,满足了后续射孔开采的要求。

     

    Abstract: The well X1 drilled in the Weizhou K Oilfield, Beibu Gulf Basin, western South China Sea, is a directional well with complex downhole conditions. The problems associated with this well include high well angle, long open section, high temperature, abnormal low pressure resulted from depletion of reservoir pressure, and high gas/oil ratios, which as a whole present a challenge to well cementing operations. When cementing the φ177.8 mm liners in φ215.9 mm wellbore, low displacing efficiency will result if conventional static liner cementing technology is used because of the narrow clearance between the line string and the wellbore. Problems associated with this operation include lost circulation, gas channeling because of poorly cemented formations, formation pressure depletion, and poor cementing quality of the high temperature reservoirs that cannot satisfy the needs of subsequent production through perforation. To ensure good separation between oil, gas and water zones under complex work conditions, a rotary-liner cementing technology and a high temperature early-strength anti-channeling cement slurry have been used in the cementing the well X1. New flushing fluid and spacer for the oil base mud used were selected for better cleaning mud cakes, and for reversed wettability of the surfaces of the cement sheath and the borehole wall. Using computer software, the rotary torque of the liner string was accurately simulated, and the eccentricity of the liner string improved. The φ177.8 mm liner, which penetrated a pressure-depletion and high temperature reservoir, was successfully cemented. Sector cement bond tool logging data showed that good separation between oil, gas and water has been obtained. Cement quality of the whole well was excellent, better than the cementing quality of the well K2 drilled nearby, satisfying the needs of subsequent production through perforation.

     

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    • 参考文献(21)
  • [1] 丁士东. 固井后环空气窜预测新方法[J]. 钻井液与完井液,2003,20(6):30-33.

    DING Shidong. New predicating method of annular channeling after cementing[J]. Drilling Fluid & Completion Fluid,2003,20(6):30-33.
    [2] 童杰, 李明, 魏周胜, 等. 油基钻井液钻井的固井技术难点与对策分析[J]. 钻采工艺,2014,37(6):17-20.

    TONG Jie,LI Ming,WEI Zhousheng,et al. Difficulties and countermeasures of cementing technology in oilbase drilling fluid drilling[J].Drilling & Production Technology,2014,37(6):17-20.
    [3] 王广雷,吴迪,姜增东,等. 固井冲洗效率评价方法探讨[J]. 石油钻探技术,2011,39(2):77-80.

    WANG Guanglei,WU Di,JIANG Zengdong, et al. Discussion of evaluation method of cementing flushing efficency[J]. Petroleum Drilling Techniques,2011,39(2):77-80.
    [4] 唐世忠,饶富培,吴华,等. 固井冲洗液冲洗效率评价方法[J]. 石油钻采工艺,2016,38(5):601-605.

    TANG Shizhong, RAO Fupei, WU Hua, ZHENG Lina, ZHANG Xueqiang. Assessment method for flushing efficiency of flushing liquid in cementing[J]. Oil Drilling & Production Technology,2016,38(5):601-605.
    [5] 李韶利, 姚志翔, 李志明, 等. 基于油基钻井液下前置液的研究及应用[J]. 钻井液与完井液, 2014, 31(3):57-60.

    LI Shaoli,YAO Zhixiang,LI Zhiming,et al.Research and application of cementing ahead fluid in wells drilled with oil-base drilling fluid[J].Drilling Fluid &Completion Fluid,2014,31(3):57-60.
    [6] 王翀, 谢飞燕, 刘爱萍, 等.油基钻井液用冲洗液BCS-020L研制及应用[J]. 石油钻采工艺, 2013, 35(6):36-39.

    WANG Chong,XIE Feiyan,LIU Aiping,et al.Research and application of flushing fliud BCS-020L for oil-based drilling fluid cleaning[J].Oil Drilling & Production Technology,2013,35(6):36-39.
    [7] 姚勇, 焦建芳, 邓天安. 川西地区页岩气井高密度前置液固井技术[J]. 天然气勘探与开发, 2014, 37(4):86-89.

    YAO Yong,JIAO Jianfang,DENG Tianan. Cementing technology of high-density pad fluid for shale-gas wells in western Sichuan Basin[J].Natural Gas Exploration and Development,2014,37(4):86-89.
    [8] 牛新民,张克坚,丁士东,等. 川东北地区高压防气窜固井技术[J]. 石油钻探技术,2008,36(3):10-15.

    NIU Xinmin,ZHANG Kejian,DING Shidong,et al. Gas migration prevention cementing technologies in northeast Sichuan area[J].Petroleum Drilling Techniques, 2008,36(3):10-15.
    [9] 宋健,金衍,陈勉,等. 缅甸D区块Y-1井高压防气窜固井技术[J]. 石油钻采工艺,2011,33(4):109-112.

    SONG Jian,JIN Yan,CHEN Mian,et al. High pressure and gas migration control cementing techniques for Well Y-1 in Block D of Myanmar[J].Oil Drilling & Production Technology,2011,33(4):109-112.
    [10] 赵苏文,邵诗军,段泽辉,等. 南海西部北部湾盆地大斜度长裸眼定向井钻井技术[J]. 石油钻采工艺, 2011,33(1):27-31.

    ZHAO Suwen,SHAO Shijun,DUAN Zehui,et al. The drilling technology of big inclination long open hole directional well in the Beibu Gulf Basin of the South China Sea[J].Oil Drilling & Production Technology, 2011,33(1):27-31.
    [11] 丁士东, 高德利, 于东.不同套管-井眼组合下旋转套管速度分析研究[J]. 石油钻探技术, 2006, 34(6):33-35.

    DING Shidong,GAO Deli,YU Dong. Velocity analysis of rotating casing under different casing-borehole combination[J].Petroleum Drilling Techniques,2006, 34(6):33-35.
    [12] 张元星,邹传元. 树脂螺旋减阻扶正器在大位移井固井中的应用[J]. 西部探矿工程,2012,24(4):75-77.

    ZHANG Yuanxing, ZOU Chuanyuan. The application of resin screw drag reduction stabilizer in the cementing of extended reach wells[J].West-China Exploration Engineering,2012,24(4):75-77.
    [13] 李明忠, 王成文, 王长权, 等.大斜度井偏心环空注水泥顶替数值模拟研究[J]. 石油钻探技术, 2012, 40(5):40. LI Mingzhong,WANG Chengwen,WANG Changquan, et al.Numerical simulation of cement displacement in eccentric annulus at highly deviated wells[J].Petroleum Drilling Techniques,2012

    ,40(5):40.
    [14] 李云峰,胡中志,徐吉,等.南堡1-3人工岛大斜度定向井钻井技术[J]. 石油钻探技术,2014,42(1):61. LI Yunfeng,HU Zhongzhi,XU Ji,et al.High-inclination directional drilling technology in nanpu 1

    -3 artificial island[J].Petroleum Drilling Techniques,2014,42(1):61.
    [15] 马兰荣,王德国,阮臣良,等. 多功能尾管悬挂器关键技术研究[J]. 石油钻探技术,2014,42(5):119. MA Lanrong,WANG Deguo,RUAN Chenliang,et al. Key techniques for using multi-functional liner hanger[J]. Petroleum Drilling Techniques,2014

    ,42(5):119.
    [16] 吴俊霞,黄建林,岳慧,等.S22井利用地层压力辅助解封封隔器技术[J]. 石油钻探技术,2014,42(6):59. WU Junxia,HUANG Jianlin,YUE Hui,et al.The technology for releasing packers by means of formation pressure in well S22

    [J].Petroleum Drilling Techniques, 2014,42(6):59.
    [17] 龙志平,王彦祺,周玉仓. 隆页1HF页岩气井钻井关键技术[J]. 石油钻探技术,2016,44(2):16. LONG Zhiping,WANG Yanqi,ZHOU Yucang.Key drilling technologies for shale gas well longye 1

    hf[J]. Petroleum Drilling Techniques,2016,44(2):16.
    [18] 李云峰,周岩,胡中志,等. 高效降摩减扭工具的研制及现场实验[J]. 石油钻探技术,2017,45(3):83. LI Yunfeng,ZHOU Yan,HU Zhongzhi,et al. Development and field application of high efficiency drag and torsion reducing tool[J].Petroleum Drilling Techniques,2017

    ,45(3):83.
    [19] 郑忠茂, 刘天恩, 周宝义, 等. 浮力作用对大斜度井套管居中度的影响[J]. 石油钻采工艺,2017,39(3):313-318.

    ZHENG Zhongmao, LIU Tianen, ZHOU Baoyi, et al. Effect of buoyance on casing central degree of high angle deviated well[J]. Oil Drilling & Production Technology, 2017,39(3):313-318.
    [20] 阮臣良,王小勇,张瑞,等. 大斜度井旋转尾管下入关键技术[J]. 石油钻探技术,2016,44(4):52-57.

    RUAN Chenliang, WANG Xiaoyong,ZHANG Rui, et al. Key techniques of rotating liners running in high angle wells[J]. Petroleum Drilling Techniques,2016,44(4):52-57.
    [21] 吴江,朱新华,李炎军,等. 莺歌海盆地东方13-1气田高温高压尾管固井技术[J]. 石油钻探技术,2016, 44(4):17-21.

    WU Jiang,ZHU Xinhua,LI Yanjun,et al. HTHP liner cementing techniques in the Dongfang 13-1 Gas Field in the Yinggehai Basin[J]. Petroleum Drilling Techniques, 2016,44(4):17-21.
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  • 收稿日期:  2018-09-21
  • 刊出日期:  2019-02-28

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