WANG Zhonghua. Review of Progress on Drilling Fluid Technology in China[J]. Petroleum Drilling Techniques, 2019, 47(3): 95-102. DOI: 10.11911/syztjs.2019054
Citation: WANG Zhonghua. Review of Progress on Drilling Fluid Technology in China[J]. Petroleum Drilling Techniques, 2019, 47(3): 95-102. DOI: 10.11911/syztjs.2019054

Review of Progress on Drilling Fluid Technology in China

More Information
  • Received Date: March 12, 2019
  • Available Online: May 12, 2019
  • Along with the continually increasing deep wells, ultra-deep wells and special process wells, higher standards were imposed on drilling fluids to meet the needs of safe, fast and efficient drilling. To evaluate the progress on the development of high-performance drilling fluids a great deal of research and test applications were carried out over the research and development of drilling fluids that satisfy the particular needs of drilling engineering in China. In particular, rapid development has been achieved in aspects of inhibitive drilling fluids, oil-based drilling fluids, ultra-high temperature and ultra-high density drilling fluids, etc., and a series of practical drilling fluid technologies were formed. They have gradually narrowed the gap with foreign counterparts, especially with respect to the ultra-high density drilling fluid technology of China which plays a leading role in the world. In order to better understand the new development of domestic drilling fluid technologies, and provide valuable suggestions for the development and application of drilling fluids in China, this paper introduces the development, performance and application of drilling fluids. The study focused on the characteristics of inhibitive/environment friendly drilling fluids, oil-based drilling fluid, ultra-high temperature and ultra-high density drilling fluids, foamed drilling fluid and synthetic-based drilling fluid. The study includes a comprehensive review of the problems and development trends of drilling fluid in China, and proposes the tasks that need to be carried out in the future in combination with drilling practices. The research results constitute and excellent reference and best practices for the development and application of domestic drilling fluids.

  • [1]
    吕开河, 邱正松, 徐加放. 强抑制性多元醇海水钻井液研究及应用[J]. 中国石油大学学报(自然科学版), 2006, 30(3): 59–62, 66. doi: 10.3321/j.issn:1000-5870.2006.03.013

    LYU Kaihe, QIU Zhengsong, XU Jiafang. Study and application of polyglycol seawater drilling fluids with strong inhibitory[J]. Journal of China University of Petroleum (Edition of Natural Science), 2006, 30(3): 59–62, 66. doi: 10.3321/j.issn:1000-5870.2006.03.013
    [2]
    李公让, 薛玉志, 乔军, 等. 胜利油区聚合醇钻井液技术的应用[J]. 油气地质与采收率, 2002, 9(1): 71–73. doi: 10.3969/j.issn.1009-9603.2002.01.023

    LI Gongrang, XUE Yuzhi, QIAO Jun, et al. Application of polyol drilling fluid technology in Shengli Oilfield[J]. Petroleum Geology and Recovery Efficiency, 2002, 9(1): 71–73. doi: 10.3969/j.issn.1009-9603.2002.01.023
    [3]
    迟建功. 高性能聚合醇钻井液体系在水平钻井中应用研究[J]. 西部探矿工程, 2018, 30(6): 64–66. doi: 10.3969/j.issn.1004-5716.2018.06.024

    CHI Jiangong. Study on the application of high performance polyol drilling fluid system in horizontal drilling[J]. West-China Exploration Engineering, 2018, 30(6): 64–66. doi: 10.3969/j.issn.1004-5716.2018.06.024
    [4]
    黄浩清. 安全环保的新型水基钻井液ULTRADRILL[J]. 钻井液与完井液, 2004, 21(6): 4–7. doi: 10.3969/j.issn.1001-5620.2004.06.002

    HUANG Haoqing. An environmentally safe water-base drilling fluid ULTRADRILL[J]. Drilling Fluid & Completion Fluid, 2004, 21(6): 4–7. doi: 10.3969/j.issn.1001-5620.2004.06.002
    [5]
    屈沅治, 戎克生, 黄宏军, 等. 胺基钻井液在新疆油田莫116 井区的应用[J]. 钻井液与完井液, 2011, 28(6): 24–26. doi: 10.3969/j.issn.1001-5620.2011.06.008

    QU Yuanzhi, RONG Kesheng, HUANG Hongjun, et al. Application of amine-based drilling fluid system in Area Mo-116 of Xinjiang Oilfield[J]. Drilling Fluid & Completion Fluid, 2011, 28(6): 24–26. doi: 10.3969/j.issn.1001-5620.2011.06.008
    [6]
    钟汉毅, 邱正松, 黄维安, 等. 聚胺高性能水基钻井液特性评价及应用[J]. 科学技术与工程, 2013, 13(10): 2803–2807. doi: 10.3969/j.issn.1671-1815.2013.10.036

    ZHONG Hanyi, QIU Zhengsong, HUANG Weian, et al. Properties evaluation and application of polyamine high performance water-based drilling fluid[J]. Science Technology and Engineering, 2013, 13(10): 2803–2807. doi: 10.3969/j.issn.1671-1815.2013.10.036
    [7]
    马超, 赵林, 宋元森. 聚铝胺盐防塌钻井液研究与应用[J]. 石油钻探技术, 2014, 42(1): 55–60. doi: 10.3969/j.issn.1001-0890.2014.01.011

    MA Chao, ZHAO Lin, SONG Yuansen. Research and application of anti-sloughing drilling fluid of poly aluminum-amine salt[J]. Petroleum Drilling Techniques, 2014, 42(1): 55–60. doi: 10.3969/j.issn.1001-0890.2014.01.011
    [8]
    张捷, 许根. 聚胺钾盐钻井液在哥伦比亚南部区块的应用[J]. 钻井液与完井液, 2014, 31(4): 86–88. doi: 10.3969/j.issn.1001-5620.2014.04.025

    ZHANG Jie, XU Gen. Application of polyamine potassium salt drilling fluids in Southern Colombia Block[J]. Drilling Fluid & Completion Fluid, 2014, 31(4): 86–88. doi: 10.3969/j.issn.1001-5620.2014.04.025
    [9]
    赵虎, 司西强, 雷祖猛, 等. 阳离子烷基糖苷钻井液在长南水平井的应用[J]. 精细石油化工进展, 2015, 16(1): 6–9, 23. doi: 10.3969/j.issn.1009-8348.2015.01.002

    ZHAO Hu, SI Xiqiang, LEI Zumeng, et al. Application of cationic alkyl glucoside drilling fluid in Changnan horizontal wells[J]. Advances in Fine Petrochemicals, 2015, 16(1): 6–9, 23. doi: 10.3969/j.issn.1009-8348.2015.01.002
    [10]
    赵虎, 龙大清, 司西强, 等. 烷基糖苷衍生物钻井液研究及其在页岩气井的应用[J]. 钻井液与完井液, 2016, 33(6): 23–27. doi: 10.3969/j.issn.1001-5620.2016.06.004

    ZHAO Hu, LONG Daqing, SI Xiqiang, et al. Study on alkyl Polyglucoside derivative drilling fluid and its use in shale gas drilling[J]. Drilling Fluid & Completion Fluid, 2016, 33(6): 23–27. doi: 10.3969/j.issn.1001-5620.2016.06.004
    [11]
    耿晓光. 甲酸盐钻井液体系在大庆开发井的推广应用[J]. 钻井液与完井液, 2007, 24(2): 77–78, 82. doi: 10.3969/j.issn.1001-5620.2007.02.026

    GENG Xiaoguang. Application of formate drilling fluids in development wells in Daqing Oilfield[J]. Drilling Fluid & Completion Fluid, 2007, 24(2): 77–78, 82. doi: 10.3969/j.issn.1001-5620.2007.02.026
    [12]
    姚少全, 汪世国, 谢远灿, 等. 有机盐钻井液的研究与应用[J]. 石油钻探技术, 2001, 29(5): 43–45. doi: 10.3969/j.issn.1001-0890.2001.05.014

    YAO Shaoquan, WANG Shiguo, XIE Yuancan, et al. Research and application of organic salt drilling fluid[J]. Petroleum Drilling Techniques, 2001, 29(5): 43–45. doi: 10.3969/j.issn.1001-0890.2001.05.014
    [13]
    刘志良, 戎克生. 有机盐钻井液在T4031井三开井段的应用[J]. 新疆石油天然气, 2009, 5(1): 38–40. doi: 10.3969/j.issn.1673-2677.2009.01.009

    LIU Zhiliang, RONG Kesheng. Application of organic salt drilling fluid in the third opening section of Well T4031[J]. Xinjiang Oil & Gas, 2009, 5(1): 38–40. doi: 10.3969/j.issn.1673-2677.2009.01.009
    [14]
    周建东, 李在均, 邹盛礼, 等. 有机盐钻井液在塔里木东河油田DH1-8-6井的应用[J]. 钻井液与完井液, 2002, 19(4): 21–23. doi: 10.3969/j.issn.1001-5620.2002.04.007

    ZHOU Jiandong, LI Zaijun, ZOU Chengli, et al. Application of organic salt drilling fluid in Well DH1-8-6 of Donghe Oilfield in Tarim[J]. Drilling Fluid & Completion Fluid, 2002, 19(4): 21–23. doi: 10.3969/j.issn.1001-5620.2002.04.007
    [15]
    程玉生, 杨洪烈, 张明, 等. 无固相有机盐钻井液在南海西部HK29-1-2井的应用[J]. 钻井液与完井液, 2011, 28(6): 27–29. doi: 10.3969/j.issn.1001-5620.2011.06.009

    CHENG Yusheng, YANG Honglie, ZHANG Ming, et al. Application of solid-free organic salt drilling fluid in Well HK29-1-2 in Western South China Sea[J]. Drilling Fluid & Completion Fluid, 2011, 28(6): 27–29. doi: 10.3969/j.issn.1001-5620.2011.06.009
    [16]
    肖怡, 陈林, 张绍俊. 封堵性低密度全油基钻井液在低压储层保护中的应用[J]. 钻采工艺, 2015, 38(5): 89–91. doi: 10.3969/J.ISSN.1006-768X.2015.05.27

    XIAO Yi, CHEN Lin, ZHANG Shaojun. Application of plugging low density oil-based drilling fluid in low pressure reservoir protection[J]. Drilling & Production Technology, 2015, 38(5): 89–91. doi: 10.3969/J.ISSN.1006-768X.2015.05.27
    [17]
    李建成, 钱志伟, 杜兴国, 等. 辽河油田油页岩地层全油基钻井液技术[J]. 钻井液与完井液, 2015, 32(4): 9–12. doi: 10.3969/j.issn.1001-5620.2015.04.003

    LI Jiancheng, QIAN Zhiwei, DU Xingguo, et al. Full oil-based drilling fluid technology for oil shale formation in Liaohe Oilfield[J]. Drilling Fluid & Completion Fluid, 2015, 32(4): 9–12. doi: 10.3969/j.issn.1001-5620.2015.04.003
    [18]
    李建成, 关键, 王晓军, 等. 苏53区块全油基钻井液的研究与应用[J]. 石油钻探技术, 2014, 42(5): 62–67.

    LI Jiancheng, GUAN Jian, WANG Xiaojun, et al. Research and application of oil-based drilling fluid technology in Block Su 53[J]. Petroleum Drilling Techniques, 2014, 42(5): 62–67.
    [19]
    王显光, 李雄, 林永学. 页岩水平井用高性能油基钻井液研究与应用[J]. 石油钻探技术, 2013, 41(2): 17–22. doi: 10.3969/j.issn.1001-0890.2013.02.004

    WANG Xianguang, LI Xiong, LIN Yongxue. Research and application of high performance oil base drilling fluid for shale horizontal wells[J]. Petroleum Drilling Techniques, 2013, 41(2): 17–22. doi: 10.3969/j.issn.1001-0890.2013.02.004
    [20]
    何恕, 李胜, 王显光, 等. 高性能油基钻井液的研制及在彭页3HF井的应用[J]. 钻井液与完井液, 2013, 30(5): 1–4. doi: 10.3969/j.issn.1001-5620.2013.05.001

    HE Shu, LI Sheng, WANG Xianguang, et al. Development of high performance oil-based drilling fluid and its application in Pengye 3HF Well[J]. Drilling Fluid & Completion Fluid, 2013, 30(5): 1–4. doi: 10.3969/j.issn.1001-5620.2013.05.001
    [21]
    何涛, 李茂森, 杨兰平, 等. 油基钻井液在威远地区页岩气水平井中的应用[J]. 钻井液与完井液, 2012, 29(3): 1–5. doi: 10.3969/j.issn.1001-5620.2012.03.001

    HE Tao, LI Maosen, YANG Lanping, et al. Application of oil-based drilling fluids in shale gas horizontal wells in Weiyuan Area[J]. Drilling Fluid & Completion Fluid, 2012, 29(3): 1–5. doi: 10.3969/j.issn.1001-5620.2012.03.001
    [22]
    于兴东, 姚新珠, 林士楠, 等. 抗220℃高温油包水钻井液研究与应用[J]. 石油钻探技术, 2001, 29(5): 45–47. doi: 10.3969/j.issn.1001-0890.2001.05.015

    YU Xingdong, YAO Xinzhu, LIN Shinan, et al. The study and application of water in oil drilling fluids resisting 220℃ high temperature[J]. Petroleum Drilling Techniques, 2001, 29(5): 45–47. doi: 10.3969/j.issn.1001-0890.2001.05.015
    [23]
    何振奎. 泌页 HF1井油基钻井液技术[J]. 石油钻探技术, 2012, 40(4): 32–37. doi: 10.3969/j.issn.1001-0890.2012.04.007

    HE Zhenkui. Oil base drilling fluid technology applied in Well Biye HF 1[J]. Petroleum Drilling Techniques, 2012, 40(4): 32–37. doi: 10.3969/j.issn.1001-0890.2012.04.007
    [24]
    李振智, 孙举, 李晓岚, 等. 新型无土相油基钻井液研究与现场试验[J]. 石油钻探技术, 2017, 45(1): 33–38.

    LI Zhenzhi, SUN Ju, LI Xiaolan, et al. The development and application of a clay-free oil-based drilling fluid[J]. Petroleum Drilling Techniques, 2017, 45(1): 33–38.
    [25]
    凡帆, 王京光, 蔺文洁. 长宁区块页岩气水平井无土相油基钻井液技术[J]. 石油钻探技术, 2016, 44(5): 34–39.

    FAN Fan, WANG Jingguang, LIN Wenjie. Clay-free oil based drilling fluid technology for shale gas horizontal wells in the Changning Block[J]. Petroleum Drilling Techniques, 2016, 44(5): 34–39.
    [26]
    王中华, 王旭, 杨小华. 超高温钻井液体系研究(Ⅳ):盐水钻井液设计与评价[J]. 石油钻探技术, 2009, 37(6): 1–5. doi: 10.3969/j.issn.1001-0890.2009.06.001

    WANG Zhonghua, WANG Xu, YANG Xiaohua. Study on ultra-high temperature drilling fluid system(IV): design and evaluation of saltwater drilling fluid[J]. Petroleum Drilling Techniques, 2009, 37(6): 1–5. doi: 10.3969/j.issn.1001-0890.2009.06.001
    [27]
    陶士先, 张丽君, 单文军. 耐高温(230 ℃)饱和盐水钻井液技术研究[J]. 探矿工程(岩土钻掘工程), 2014, 41(1): 21–26.

    TAO Shixian, ZHANG Lijun, SHAN Wenjun. Research on ultra high temperature (230 ℃) saturated brine drilling fluid technology[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2014, 41(1): 21–26.
    [28]
    张丽君, 王旭, 胡小燕, 等. 抗温270 ℃钻井液聚合物降滤失剂的研制[J]. 石油化工, 2017, 46(1): 117–123. doi: 10.3969/j.issn.1000-8144.2017.01.017

    ZHANG Lijun, WANG Xu, HU Xiaoyan, et al. Development of the polymer filtrate reducer used for 270 ℃ ultra-high temperature drilling fluid[J]. Petrochemical Technology, 2017, 46(1): 117–123. doi: 10.3969/j.issn.1000-8144.2017.01.017
    [29]
    杨小华, 钱晓琳, 王琳, 等. 抗高温聚合物降滤失剂PFL-L的研制与应用[J]. 石油钻探技术, 2012, 40(6): 8–12. doi: 10.3969/j.issn.1001-0890.2012.06.002

    YANG Xiaohua, QIAN Xiaolin, WANG Lin, et al. Development and application of an high temperature resistant polymer PFL-L as fluid loss additive[J]. Petroleum Drilling Techniques, 2012, 40(6): 8–12. doi: 10.3969/j.issn.1001-0890.2012.06.002
    [30]
    李建军, 王中义. 抗高温无固相钻井液技术[J]. 钻井液与完井液, 2017, 34(3): 11–15. doi: 10.3969/j.issn.1001-5620.2017.03.002

    LI Jianjun, WANG Zhongyi. High temperature solid-free drilling fluid technology[J]. Drilling Fluid & Completion Fluid, 2017, 34(3): 11–15. doi: 10.3969/j.issn.1001-5620.2017.03.002
    [31]
    邱正松, 黄维安, 何振奎, 等. 超高温水基钻井液技术在超深井泌深1井的应用[J]. 钻井液与完井液, 2009, 26(2): 35–36. doi: 10.3969/j.issn.1001-5620.2009.02.010

    QIU Zhengsong, HUANG Weian, HE Zhenkui, et al. The application of high temperature drilling fluid technology in Well Bishen-1[J]. Drilling Fluid & Completion Fluid, 2009, 26(2): 35–36. doi: 10.3969/j.issn.1001-5620.2009.02.010
    [32]
    李公让, 薛玉志, 刘宝峰, 等. 胜科1井四开超高温高密度钻井液技术[J]. 钻井液与完井液, 2009, 26(2): 12–15. doi: 10.3969/j.issn.1001-5620.2009.02.003

    LI Gongrang, XUE Yuzhi, LIU Baofeng, et al. High temperature high density drilling fluid technology for the forth interval of Well Shengke-1[J]. Drilling Fluid & Completion Fluid, 2009, 26(2): 12–15. doi: 10.3969/j.issn.1001-5620.2009.02.003
    [33]
    刘伟莉, 马庆涛, 付怀刚. 干热岩地热开发钻井技术难点与对策[J]. 石油机械, 2015, 43(8): 11–15.

    LIU Weili, MA Qingtao, FU Huaigang. Drilling difficulties and solutions for hot dry rock geothermal development[J]. China Petroleum Machinery, 2015, 43(8): 11–15.
    [34]
    颜磊, 蒋卓, 王大勇, 等. 干热岩抗高温钻井液体系研究[J]. 化学与生物工程, 2015, 32(7): 55–58. doi: 10.3969/j.issn.1672-5425.2015.07.015

    YAN Lei, JIANG Zhuo, WANG Dayong, et al. Study on hot dry rock high temperature resistant drilling fluid system[J]. Chemistry & Bioengineering, 2015, 32(7): 55–58. doi: 10.3969/j.issn.1672-5425.2015.07.015
    [35]
    林永学, 杨小华, 蔡利山, 等. 超高密度钻井液技术[J]. 石油钻探技术, 2011, 39(6): 1–5. doi: 10.3969/j.issn.1001-0890.2011.06.001

    LIN Yongxue, YANG Xiaohua, CAI Lishan, et al. Ultra-high density drilling fluid technology[J]. Petroleum Drilling Techniques, 2011, 39(6): 1–5. doi: 10.3969/j.issn.1001-0890.2011.06.001
    [36]
    刘伟, 李华坤, 徐先觉. 土库曼斯坦阿姆河右岸气田复杂深井超高密度钻井液技术[J]. 石油钻探技术, 2016, 44(3): 33–38.

    LIU Wei, LI Huakun, XU Xianjiao. The application of ultra high density drilling fluids in complex deep wells in the Amu Darya Right Bank Gas Field, Turkmenistan[J]. Petroleum Drilling Techniques, 2016, 44(3): 33–38.
    [37]
    邓明杰, 朱化蜀, 廖忠会. 泡沫钻井在河坝地区的应用[J]. 天然气技术, 2010, 4(2): 27–29.

    DENG Mingjie, ZHU Huashu, LIAO Zhonghui. Application of foam drilling to Heba Area[J]. Natural Gas Technology and Economy, 2010, 4(2): 27–29.
    [38]
    李丽红, 杨万成, 李玉泉. 欠平衡泡沫钻井液技术在窿14井的应用[J]. 钻井液与完井液, 2006, 23(3): 8–11. doi: 10.3969/j.issn.1001-5620.2006.03.003

    LI Lihong, YANG Wancheng, LI Yuquan. Application of underbalanced foam drilling fluid in Long-14 Well[J]. Drilling Fluid & Completion Fluid, 2006, 23(3): 8–11. doi: 10.3969/j.issn.1001-5620.2006.03.003
    [39]
    王广财, 熊开俊, 曾翔宇, 等. 可循环油基泡沫钻井液在胜北油田的应用[J]. 钻井液与完井液, 2014, 31(6): 17–20. doi: 10.3969/j.issn.1001-5620.2014.06.005

    WANG Guangcai, XIONG Kaijun, ZENG Xiangyu, et al. Application of circulating oil based foam drilling fluid in Shengbei Oilfield[J]. Drilling Fluid & Completion Fluid, 2014, 31(6): 17–20. doi: 10.3969/j.issn.1001-5620.2014.06.005
    [40]
    刘登峰, 郭建春, 张荣志, 等. 可循环微泡沫钻井液在吐哈油田马703井的应用[J]. 石油钻采工艺, 2005, 27(6): 34–36. doi: 10.3969/j.issn.1000-7393.2005.06.011

    LIU Dengfeng, GUO Jianchun, ZHANG Rongzhi, et al. Application of pumpable micro: foamed drilling fluid in Ma 703 Well of Tuha Oilfield[J]. Oil Drilling & Production Technology, 2005, 27(6): 34–36. doi: 10.3969/j.issn.1000-7393.2005.06.011
    [41]
    郑述培, 李文明. 可循环微泡沫钻井液在郑7-平2井的应用[J]. 钻采工艺, 2012, 35(4): 107–108. doi: 10.3969/J.ISSN.1006-768X.2012.04.35

    ZHENG Shupei, LI Wenming. Application of recyclable micro foam drilling fluid in Well 7-Ping 2[J]. Drilling & Production Technology, 2012, 35(4): 107–108. doi: 10.3969/J.ISSN.1006-768X.2012.04.35
    [42]
    王占林, 冯水山, 王昱涵, 等. 可循环微泡沫钻井液技术在易漏失地层钻井施工中的应用[J]. 西部探矿工程, 2014, 26(11): 69–72. doi: 10.3969/j.issn.1004-5716.2014.11.023

    WANG Zhanlin, FENG Shuishan, WANG Yuhan, et al. Application of recyclable micro foam drilling technology in the construction of leaky formations[J]. West-China Exploration Engineering, 2014, 26(11): 69–72. doi: 10.3969/j.issn.1004-5716.2014.11.023
    [43]
    罗淮东, 石李保, 左京杰, 等. 可循环微泡钻井液研究及其在乍得潜山地层的应用[J]. 钻井液与完井液, 2017, 34(5): 8–13. doi: 10.3969/j.issn.1001-5620.2017.05.002

    LUO Huaidong, SHI Libao, ZUO Jingjie, et al. Recyclable micro foam drilling fluid: its study and application in burial hill structure in Chad[J]. Drilling Fluid & Completion Fluid, 2017, 34(5): 8–13. doi: 10.3969/j.issn.1001-5620.2017.05.002
    [44]
    彭放. YC21–1–4井钻井液技术[J]. 钻井液与完井液, 2000, 17(3): 44–46. doi: 10.3969/j.issn.1001-5620.2000.03.012

    PENG Fang. YC21-1-4 Well drilling fluid technology[J]. Drilling Fluid & Completion Fluid, 2000, 17(3): 44–46. doi: 10.3969/j.issn.1001-5620.2000.03.012
    [45]
    耿铁, 张岩, 吴彬, 等. 新型合成基钻井液体系的研制与应用[J]. 石油天然气学报, 2009, 31(2): 299–300, 321.

    GENG Tie, ZHANG Yan, WU Bin, et al. Development and application of new synthetic base drilling fluid system[J]. Journal of Oil and Gas Technology, 2009, 31(2): 299–300, 321.
    [46]
    万绪新, 张海青, 沈丽, 等. 合成基钻井液技术研究与应用[J]. 钻井液与完井液, 2014, 31(4): 26–29. doi: 10.3969/j.issn.1001-5620.2014.04.008

    WAN Xuxin, ZHANG Haiqing, SHEN Li, et al. Research and application of synthetic-based drilling fluid technology[J]. Drilling Fluid & Completion Fluid, 2014, 31(4): 26–29. doi: 10.3969/j.issn.1001-5620.2014.04.008
    [47]
    孙明波, 乔军, 刘宝峰, 等. 生物柴油钻井液研究与应用[J]. 钻井液与完井液, 2013, 30(4): 15–18. doi: 10.3969/j.issn.1001-5620.2013.04.005

    SUN Mingbo, QIAO Jun, LIU Baofeng, et al. Research and application of biodiesel drilling fluid[J]. Drilling Fluid & Completion Fluid, 2013, 30(4): 15–18. doi: 10.3969/j.issn.1001-5620.2013.04.005
  • Cited by

    Periodical cited type(54)

    1. 马双政,张耀元,南源,陈小娟,陈金定. 油基钻井液主乳化剂OBE-2的合成与性能评价. 化学工程师. 2025(02): 53-58+17 .
    2. 刘文治,于洪江,雷亮,陈格格. 用羧甲基淀粉制备水基钻井液提切剂及其性能评价. 化工技术与开发. 2025(04): 44-48+53 .
    3. 袁俊平,徐星宇,陈龙,丁国权,蔺彦玲. 基于PFC-CFD耦合的发泡泥浆渗流数值模拟研究. 河北工程大学学报(自然科学版). 2025(02): 37-45 .
    4. 佘朝毅. 四川盆地超深层钻完井技术进展及其对万米特深井的启示. 天然气工业. 2024(01): 40-48 .
    5. 范翔宇,蒙承,张千贵,马天寿,李柱正,王旭东,张惊喆,赵鹏斐,邓健,周桂全. 超深地层井壁失稳理论与控制技术研究进展. 天然气工业. 2024(01): 159-176 .
    6. 刘岩生,张佳伟,黄洪春. 中国深层—超深层钻完井关键技术及发展方向. 石油学报. 2024(01): 312-324 .
    7. 孙振峰,杨超,李杰,张敬辉,赵凯强,王晨. 钻井液用高性能增黏剂的研制及性能评价. 钻井液与完井液. 2024(01): 84-91 .
    8. 柏晓超. 渤海油田超高温深井钻井液配套技术. 化工管理. 2024(13): 84-87 .
    9. 王景,祁健,岳明. 海上水基钻屑高效密闭输送技术. 石油钻探技术. 2024(03): 53-60 . 本站查看
    10. 夏小春,邹洋,王志永,张紫铜,宋钰,戴媛静. 硫化脂肪酸酯的合成及其在高温高压钻井液中的应用. 钻井液与完井液. 2024(03): 344-349 .
    11. 庞少聪,安玉秀,田野. 抗高温钻井液体系国内外研究进展与发展建议. 钻探工程. 2024(04): 82-92 .
    12. 孙振峰. 钻井液用反相乳液聚合物增黏剂的合成及评价. 当代化工. 2024(07): 1513-1518 .
    13. 李亮,何斌,段国庆,柏小超,杨世杰,董昆. 渤海油田超高温深井钻井液配套技术. 石化技术. 2024(09): 141-143 .
    14. 寇亚浩,倪晓骁,黎剑,王建华,张家旗,冯杰,郭嘉恒,常启帆. 有机海泡石在油基钻井液中的应用效果与展望. 应用化工. 2024(09): 2206-2210 .
    15. 徐生婧. 抗高温超支化乳液聚合物的中试生产及应用. 精细石油化工进展. 2024(05): 20-25 .
    16. 白杨,王路一,李翔,窦幻君,罗平亚. 煤层气储层保护钻井液技术研究进展. 天然气工业. 2024(10): 182-194 .
    17. 崔长颢,李丽,刘美佳,王健媛,闫大海,陈超. 利用油基岩屑制备水泥路面基层的力学性能及重金属浸出特性研究. 环境科学研究. 2023(04): 805-813 .
    18. 汪海阁,黄洪春,纪国栋,陈畅畅,吕泽昊,陈伟峰,毕文欣,刘力. 中国石油深井、超深井和水平井钻完井技术进展与挑战. 中国石油勘探. 2023(03): 1-11 .
    19. 张艳秋. 水基钻井液用聚合物处理剂技术进展研究. 西部探矿工程. 2023(07): 87-89 .
    20. 孙金声,蒋官澄,贺垠博,史赫,杜明亮,董腾飞,杨丽丽. 油基钻井液面临的技术难题与挑战. 中国石油大学学报(自然科学版). 2023(05): 76-89 .
    21. 陈娟,刘友权,向超,梁国超. 高密度甲酸钾完井液在酸液中的析出机理及配方优化. 石油与天然气化工. 2023(05): 74-79 .
    22. 熊正强,董春刚,栾元滇,宫述林,付帆,陶士先,王韶霞. 刚果钾盐钻探用钙镁基钻井液研究及应用. 地质与勘探. 2023(06): 1315-1323 .
    23. 倪晓骁,史赫,闫丽丽,王建华,程荣超,张家旗,刘雨艳. 油基钻井液用改性碳纳米管纳微米封堵剂. 油田化学. 2023(04): 578-584 .
    24. 沈浩坤,孙金声,吕开河,黄贤斌,刘敬平,王金堂,白英睿,金家峰. 水基钻井液有机处理剂智能化研究进展与应用展望. 油田化学. 2022(01): 155-162 .
    25. 陈忠华. 海上高温高压油井钻井液发展现状. 化工管理. 2022(11): 93-96 .
    26. 雷志永,郭磊,耿铁,陈强. 环保型可循环利用BIODRILL A水基钻井液评价与应用. 中国海上油气. 2022(03): 139-145 .
    27. 倪晓骁,史赫,程荣超,张家旗,王建华. 油基钻井液用改性锂皂石增黏提切剂. 钻井液与完井液. 2022(02): 133-138 .
    28. 王有伟,黄峰. 国内外隔离液研究进展. 辽宁化工. 2022(06): 800-804 .
    29. 王年禧,邓超,陈潇,何艺,梁仁刚,刘研萍. 油基钻井液组成应用及绿色发展趋势. 当代化工研究. 2022(11): 75-78 .
    30. 胡进科,罗霄,袁明进,罗跃,卢福伟,刘媛. 钻井液用超支化聚醚胺抑制剂的制备与性能评价. 油田化学. 2022(02): 191-196+227 .
    31. 张冬明. 松辽盆地中上部水敏性地层高密度油基钻井液研究. 西部探矿工程. 2022(07): 83-87 .
    32. 李子钰,于培志. 低粘切高密度油基钻井液体系. 矿产勘查. 2022(05): 654-661 .
    33. 吴若宁,孙枝青,艾先婷,张金元,杨艳,刘云,贺康. 微锰矿粉与重晶石加重油基钻井液差异性分析. 辽宁石油化工大学学报. 2022(04): 37-41 .
    34. 路保平. 中国石化石油工程技术新进展与发展建议. 石油钻探技术. 2021(01): 1-10 . 本站查看
    35. 明玉广,王传富,蓝强,李卉,刘振东,吕树泉. 成品油管道定向穿越通明海峡泥浆性能控制技术. 油气储运. 2021(04): 431-437 .
    36. 张中平. 浅议泡沫完井液在负压射孔中的应用前景. 中国石油和化工标准与质量. 2021(11): 93-94 .
    37. 张立新,刘瑞. 高密度油基钻井液在阳101H3-6井长水平段的应用. 钻探工程. 2021(07): 79-83 .
    38. 高伟,李银婷,余福春,李双贵,毛惠. 抗超高温水基钻井液用聚合物降滤失剂的研制. 钻井液与完井液. 2021(02): 146-151+157 .
    39. 王立双,杨枝,马广军. 抗高温钻井液技术专利分析研究. 中国发明与专利. 2021(08): 43-50 .
    40. 汪海阁,黄洪春,毕文欣,纪国栋,周波,卓鲁斌. 深井超深井油气钻井技术进展与展望. 天然气工业. 2021(08): 163-177 .
    41. 张天翔,刘富,李兵,何朋勃,刘蒙蒙,易思琦. 准南煤田乌鲁木齐矿区煤层气钻井液技术研究. 能源化工. 2021(04): 44-49 .
    42. 赵远远,周书胜,严锐,可点,邓亚慧. 国内抗高温乳化剂研究进展与应用. 辽宁化工. 2021(11): 1715-1717 .
    43. 张正华,王波,慈浩然,黄建兵,谭勇,耿继东. CNPC-IDS旋转导向系统钻井液应用分析. 石油化工应用. 2021(12): 65-69 .
    44. 王建华,闫丽丽,谢盛,张家旗,杨海军. 塔里木油田库车山前高压盐水层油基钻井液技术. 石油钻探技术. 2020(02): 29-33 . 本站查看
    45. 丁士东,赵向阳. 中国石化重点探区钻井完井技术新进展与发展建议. 石油钻探技术. 2020(04): 11-20 . 本站查看
    46. 顾雪凡,王棚,高龙,陈刚,张洁. 我国天然高分子基钻井液体系研究进展. 西安石油大学学报(自然科学版). 2020(05): 83-91 .
    47. 项营,王玺,蒋官澄,邓正强,李万军,叶禹,周海秋. 反相乳液聚合法合成凝胶微球及其封堵性能评价. 钻井液与完井液. 2020(03): 275-281 .
    48. 唐梦,苟绍华,李沁周,文科. 封堵型降滤失剂PAAM的合成及性能研究. 应用化工. 2020(10): 2522-2526+2532 .
    49. 张雄,余进,毛俊,刘祖磊. 准噶尔盆地玛东油田水平井高性能油基钻井液技术. 石油钻探技术. 2020(06): 21-27 . 本站查看
    50. 杨世鑫. 永301井井壁稳定钻井液技术. 精细石油化工进展. 2020(06): 11-15 .
    51. 曹世平,吴申堯,曾家新,景岷嘉,张亚萍. BK910油基钻井液用堵漏剂的评价及应用. 钻采工艺. 2020(06): 97-99+12 .
    52. 翟科军,蓝强,高伟,郑成胜,赵怀珍. 低活度高钙聚胺钻井液在准北101井的应用. 钻井液与完井液. 2020(04): 444-449 .
    53. 庄庆佐,田玉芹,罗跃,罗霄,辛爱渊,唐延彦,刘伟伟. 钻井液用MOF衍生物封堵-抑制剂的制备与性能. 油田化学. 2020(04): 575-580 .
    54. 唐玲娟,刘超,吴伟林,王敏,刘浩兵,卢福伟. 油基钻井液天然岩沥青降滤失剂的环保性能. 钻井液与完井液. 2019(06): 706-710 .

    Other cited types(16)

Catalog

    Article Metrics

    Article views (5115) PDF downloads (233) Cited by(70)
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return