钻井液堵漏材料研究及应用现状

doi:10.12388/j.issn.1673-2677.2025.01.002

摘要/Abstract

摘要：

井漏是当下钻井过程中常见和相对难以治理的一种井下复杂事故，已成为影响钻井进度的主要因素之一，甚至会引发程度不等的安全事故。通过综合分析漏失成因类型和机制、国内外新型堵漏材料在不同环境和条件下的表现以及它们与井筒和地层等因素之间的相互作用，阐述了水泥堵漏材料、交联体系堵漏材料、金属类堵漏材料、颗粒LCMs堵漏材料、纤维类堵漏材料以及可固化和LCMs混合体堵漏材料的特点和堵漏机理，总结了不同种类的堵漏材料在不同地层漏失中的应用效果及优缺点。结果表明：结合堵漏成功率和经济实用因素，在处理高渗透孔隙型地层漏失中选择水泥堵漏材料，堵漏成功率达到91%；在处理溶洞型地层漏失中选择可固化和LCMs混合堵漏材料，堵漏成功率达到89%；在处理天然裂缝型地层漏失中选择纤维类堵漏材料，堵漏成功率达到75%；在处理诱导裂缝型地层漏失中选择颗粒LCMs堵漏材料，堵漏成功率达到92%。研究成果对提升钻井液堵漏效果、推动堵漏技术的发展具有重要的理论和技术借鉴意义。

关键词:

井漏, 漏失机理, 堵漏材料, 研究进展, 堵漏效果

Abstract:

Lost circulation is a common and challenging downhole complex issue in current drilling operations. It has become one of the major factors affecting drilling speed and may lead to safety incidents of different levels. By comprehensively analyzing the types and mechanisms of lost circulation，the performances of global novel plugging materials under different operating conditions，and their interactions with factors such as the wellbore and formations，this study elucidates the characteristics and mechanisms of cement，cross-linking system and metallic plugging materials，granular and fiber lost circulation materials （LCMs），and the combination of curable materials and LCMs. The application performances and pros and cons of different types of LCMs for lost circulation in various formations are summarized. The results indicate that given both the treatment success rate and cost-effectiveness，cement plugging materials are preferred for handling fluid loss caused by the highly permeable rock matrix，with a treatment success rate of 91%. To address the karst-cavern thief zone，curable materials with LCMs are relatively favored，delivering a treatment success rate of 89%. Fiber LCMs are preferred for treating natural fracture-type lost circulation，with a treatment success rate of 75%. When dealing with the induced fracture-type lost circulation，granular LCMs are favorable，with a treatment success rate of 92%. The findings of this research are of important theoretical and technical guiding significance for enhancing the plugging performance of drilling fluids and promoting the development of lost circulation plugging technology.

Key words:

lost circulation, lost circulation mechanism, plugging material, research progress, plugging performance

中图分类号:

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乔木, , 朱忠喜, , 闫康凯, . 钻井液堵漏材料研究及应用现状[J]. 新疆石油天然气, 2025, 21(1): 10-23.

QIAO Mu, , ZHU Zhongxi, , YAN Kangkai, . Research and Application Status of Plugging Materials for Drilling Fluid[J]. Xinjiang Oil & Gas, 2025, 21(1): 10-23.

参考文献

［1］孙金声，张家栋，黄达全，等.超低渗透钻井液防漏堵漏技术研究与应用［J］.钻井液与完井液，2005，22（4）：21-23、26.SUN JinSheng，ZHANG Jiadong，HUANG Daquan，et al. Study and application of ultra-low permeable drilling fluid：lost circulation prevention and control［J］. Drilling Fluid & Completion Fluid，2005，22（4）：21-23，26.

［2］孙金声，林喜斌，张斌，等.国外超低渗透钻井液技术综述［J］.钻井液与完井液，2005，22（1）：57-59、85.SUN Jinsheng，LIN Xibin，ZHANG Bin，et al. Overview of foreign ultra-low permeability drilling fluid technology［J］. Drilling Fluid & Completion Fluid，2005，22（1）：57-59，85.

［3］王中华.复杂漏失地层堵漏技术现状及发展方向［J］.中外能源，2014，19（1）：39-48.WANG Zhonghua. The status and development direction of plugging technology for complex formation lost circulation［J］. Sino-Global Energy，2014，19（1）：39-48.

［4］潘一，温峥，杨双春，等.国内外堵漏剂的研究进展［J］.油田化学，2015，32（4）：628-632.PAN Yi，WEN Zheng，YANG Shuangchun，et al. Research progress of plugging agents at home and abroad［J］. Oilfield Chemistry，2015，32（4）：628-632.

［5］NELSON E B，GUILLOT D. Well cementing［M］. 2nd edition，Sugar Land，Schlumberger，Texas，USA，2006：773.

［6］BEDA G，CARUGO C. Use of mud microloss analysis while drilling to improve the formation evaluation in fractured reservoir［C］. SPE Annual Technical Conference and Exhibition，New Orleans，Louisiana，USA，2001：SPE-71737-MS.

［7］DYKE C G，WU B L，MILTON-TAYLER D. Advances in characterizing natural fracture permeability from mud log data［J］. SPE Formation Evaluation，1995，10（3）：160-166.

［8］KUMAR A，SAVARI S，WHITFILL D L，et al. Application of fiber laden pill for controlling lost circulation in natural fractures［C］. 2011 AADE National Technical Conference and Exhibition，Houston，Texas，USA，2011：12-14.

［9］SANFILLPPO F，BRIGNOLI M，SANTARELLI F J，et al. Characterization of conductive fractures while drilling［C］. SPE European Formation Damage，The Hague，Netherlands，1997：SPE-38177-MS.

［10］DUPRIEST F E. Fracture closure stress （FCS） and lost returns practices［C］. SPE/IADC Drilling Conference，Amsterdam，Netherlands，2005：SPE-92192-MS.

［11］GUO Q X，COOK J，WAY P，et al. A comprehensive experimental study on wellbore strengthening［C］. IADC/SPE Drilling Conference and Exhibition. Fort Worth，Texas，USA，2014：SPE-167957-MS.

［12］姜路.钻井液中堵漏材料及作用机理研究进展［J］.石油石化物资采购，2021，（23）：41-42.JIANG Lu. Research progress on plugging materials and the mechanisms in drilling fluids［J］. Petroleum & Petrochemical Material Procurement，2021，（23）：41-42.

［13］GONCALVES R，TAJALIE A F，MEYER A. Overcoming lost circulation while cementing riserless tophole in deepwater［C］. Offshore Technology Conference Asia，Kuala Lumpur，Malaysia，2014：OTC-24764-MS.

［14］吴奇兵.可固化堵漏工作液体系研究与应用［D］.四川成都：西南石油大学，2013.WU Qibing. Research and application of solidifiable plugging work fluid systems［D］. Chengdu，Sichuan：Southwest Petroleum University，2013.

［15］LECOLIER E，HERZHAFT B，ROUSSEAU L，et al. Development of a nanocomposite gel for lost circulation treatment［C］. SPE European Formation Damage Conference，Sheveningen，The Netherlands，2005：SPE-94686-MS.

［16］ONYIA E C. Experimental data analysis of lost-circulation problems during drilling with oil-based mud［J］. SPE Drilling & Completion，1994，9（1）：25-31.

［17］WANG H M，SWEATMAN R，ENGELMAN B，et al. Best practice in understanding and managing lost circulation challenges［J］. SPE Drilling & Completion，2008，23（2）：168-175.

［18］FIDAN E，BABADAGLI T，KURU E. Use of cement as lost circulation material-field case studies［C］. IADC/SPE Asia Pacific Drilling Technology Conference and Exhibition，Kuala Lumpur，Malaysia，2004：SPE-88005-MS.

［19］HAN J Y，WANG J，YANG W K，et al. Experimental study on the properties of a polymer-modified superfine cementitious composite material for waterproofing and plugging［J］. Case Studies in Construction Materials，2023，19（18）：e02552.

［20］王胜，吴丽钰，蒋贵，等.深孔纳米复合水泥基护壁堵漏材料研究［J］.钻探工程，2021，48（12）：7-13.WANG Sheng，WU Liyu，JIANG Gui，et al. Nano composite cement based wellbore protection and plugging materials for deep drilling［J］. Drilling Engineering，2021，48（12）：7-13.

［21］刘政，李俊材，黄鸿.准噶尔南缘油基膨胀型随钻防漏堵漏技术［J］.新疆石油天然气，2020，16（2）：43-47.LIU Zheng，LI Juncai，HUANG Hong. Oil-based expansive leakage prevention and plugging while drilling technology applied in the southern margin of the Junggar Basin［J］. Xinjiang Oil & Gas，2020，16（2）：43-47.

［22］鲜明，李然，廖长平，等.承压堵漏工艺技术在塔河油田托普台区块的应用［J］.新疆石油天然气，2012，8（3）：48-52.XIAN Ming，LI Ran，LIAO Changping，et al. Technology application of leakage control under pressure for Tuputai block in Tahe Oilfield［J］. Xinjiang Oil & Gas，2012，8（3）：48-52.

［23］MATA F，VEIGA M. Crosslinked cements solve lost circulation problems［C］. SPE Annual Technical Conference and Exhibition. Houston，Texas，USA，2004：SPE-90496-MS.

［24］SAVARI S，WHITFILL D L. Managing losses in naturally fractured formations：Sometimes nano is too small［C］. SPE/IADC Drilling Conference and Exhibition. London，England，UK，2015：SPE-173062-MS.

［25］ALI A，KALLOO C L，SINGH U B. Preventing lost circulation in severely depleted unconsolidated sandstone reservoirs［J］. SPE Drilling & Completion，1994，9（1）：32-38.

［26］李伟，白英睿，李雨桐，等.钻井液堵漏材料研究及应用现状与堵漏技术对策［J］.科学技术与工程，2021，21（12）：4733-4743.LI Wei，BAI Yingrui，LI Yutong，et al. Research and application progress of drilling fluid lost circulation materials and technical countermeasures for lost circulation control［J］. Science Technology and Engineering，2021，21（12）：4733-4743.

［27］王中华.聚合物凝胶堵漏剂的研究与应用进展［J］.精细与专用化学品，2011，19（4）：16-20.WANG Zhonghua. Research and application progress of the polymer gel plugging agent［J］. Fine and Specialty Chemicals，2011，19（4）：16-20.

［28］罗兴树，蒲晓林，黄岩，等.堵漏型聚合物凝胶材料研究与评价［J］.钻井液与完井液，2006，23（2）：28-32、86.LUO Xingshu，PU Xiaolin，HUANG Yan，et al. Study and Evaluation on Gelling Polymer with Plugging Effect［J］. Drilling Fluid & Completion Fluid，2006，23（2）：28-32，86.

［29］ZHOU Y，CHU R Z，FAN L L，et al. Study on the mechanism and performance of polymer gels by TE and PVA chemical cross‐linking［J］. Journal of Applied Polymer Science，2021，139（17）：52043.

［30］汪建军，李艳，刘强，等.新型多功能复合凝胶堵漏性能评价［J］.天然气工业，2005，25（9）：101-103、160-161.WANG Jianjun，LI Yan，LIU Qiang，et al. Evaluation on sealing ability of new multi-function composite gel［J］. Natural Gas Industry，2005，25（9）：101-103，160-161.

［31］张希文，李爽，张洁，等.钻井液堵漏材料及防漏堵漏技术研究进展［J］.钻井液与完井液，2009，26（6）：74-76、79.ZHANG Xiwen，LI Shuang，ZHANG Jie，et al. Research progress on lost circulation materials and lost circulation control technology［J］. Drilling Fluid & Completion Fluid，2009，26（6）：74-76，79.

［32］张新民，聂勋勇，王平全，等.特种凝胶在钻井堵漏中的应用［J］.钻井液与完井液，2007，24（5）：83-84.ZHANG Xinmin，NIE Xunyong，WANG Pingquan，et al. A special gel for mud loss control［J］. Drilling Fluid & Completion Fluid，2007，24（5）：83-84.

［33］白英睿，孙金声，吕开河，等.剪切响应型凝胶堵漏剂及其制备方法与应用［P］.中国山东：CN109825269A，［2019-05-31］.BAI Yingrui，SUN Jinsheng，LV Kaihe，et al. Shear-responsive gel plugging agent and its synthesis method and application［P］.Shandong，China：CN109825269A，［2019-05-31］.

［34］白英睿，孙金声，吕开河，等. 抗高温凝胶堵漏剂以及制备方法与应用［P］. 中国山东：CN109796949A，［2019-05-24］.BAI Yingrui，SUN Jinsheng，LV Kaihe，et al. High-temperature-resistant gel plugging agent and its synthesis method and application［P］. Shandong，China：CN109796949A，［2019-05-24］.

［35］艾正青，叶艳，刘举，等.一种多面锯齿金属颗粒作为骨架材料的高承压强度、高酸溶随钻堵漏钻井液［J］.天然气工业，2017，37（8）：74-79.AI Zhengqing，YE Yan，LIU Ju，et al. A new plugging-while-drilling fluid of high bearing strength and acid solubility with multifaceted zigzag metal particles as a skeleton material［J］. Natural Gas Industry，2017，37（8）：74-79.

［36］HEGAZY M，SHARMA S，FARES K，et al. High-fluid-loss，high-strength lost circulation solution for total losses zones in Saudi Arabia［C］. SPE Kingdom of Saudi Arabia Annual Technical Symposium and Exhibition. Dammam，Saudi Arabia，2018：SPE-192272-MS.

［37］ALSABA M T，NYGAARD R，HARELAND G，et al. Review of lost circulation materials and treatments with an updated classification［C］. AADE Fluids Technical Conference and Exhibition，Houston，Texas，USA，2014：1-9.

［38］ALSABA M，NYGAARD R，SAASEN A，et al. Lost circulation materials capability of sealing wide fractures［C］. SPE Deepwater Drilling and Completions Conference，Galveston，Texas，USA，2014：SPE-170285-MS.

［39］ZEILINGER S，DUPRIEST F，TURTON R，et al. Utilizing an engineered particle drilling fluid to overcome coal drilling challenges［C］. IADC/SPE Drilling Conference and Exhibition，New Orleans，Louisiana，USA，2010：SPE-128712-MS.

［40］GHAZALI N A，SAUKI A，ABU B N F，et al. Oil palm empty fruit bunch （OPEFB） fiber as lost circulation material （LCM） in water based mud （WBM）［J］. IOP Conference Series：Materials Science and Engineering，2018，358（1）：012022.

［41］肖绪玉.改性纤维素凝胶堵漏剂的制备与应用［D］.北京：中国地质大学（北京），2017.XIAO Xuyu. Preparation and application of modified cellulose gel plugging agent［D］. Beijing：China University of Geosciensces （Beijing），2017.

［42］杨振杰，冯永超，张金乐，等.TRX-JM天然羽毛堵漏纤维的研究［J］.钻井液与完液，2010，27（4）：20-22、96.YANG Zhenjie，FENG Yongchao，ZHANG Jinle，et al. Research on sealing by natural feather fiber TRX-JM［J］. Drilling Fluid & Completion Fluid，2010，27（4）：20-22，96.

［43］陈家旭.高效纤维防漏堵漏技术实验研究［D］.山东青岛：中国石油大学（华东），2019.CHEN Jiaxu. Experimental study on high-efficiency fiber leakage prevention and plugging technology［D］. Qingdao，Shandong：China University of Petroleum （East China），2019.

［44］刘瑞，于培志.油基钻井液随钻堵漏材料的研究与应用［J］.辽宁化工，2021，50（6）：784-787、791.LIU Rui，YU Peizhi. Study and application of lost circulation material while drilling for oil based drilling fluid［J］. Liaoning Chemical Industry，2021，50（6）：784-787，791.

［45］孙威威.海坨区块高效堵漏体系的优化与应用［J］.钻探工程，2021，48（12）：72-78.SUN Weiwei. Optimization and application of the efficient plugging system in the Haituo block［J］. Drilling Engineering，2021，48（12）：72-78.

［46］李光伟，杨元慧.聚丙烯纤维混凝土性能的试验研究［J］.水利水电科技进展，2001，21（5）：14-16.LI Guangwei，YANG Yuanhui. Experimental study on characteristics of polyacrylic fiber concrete［J］. Advances in Science and Technology of Water Resources，2001，21（5）：14-16.

［47］WHITFILL D L，Hemphill T. All lost-circulation materials and systems are not created equal［C］. SPE Annual Technical Conference and Exhibition. Denver，Colorado，USA，2003：SPE-84319-MS.

［48］王安.纤维素纳米纤丝的改性及其增强堵漏水凝胶的应用［D］.天津：天津科技大学，2021.WANG An. Modified cellulose nanofibrils and their applications in reinforced plugging hydrogels［D］. Tianjin：Tianjin University of Science and Technology，2021.

［49］李光伟，杨元慧.聚丙烯纤维混凝土性能的试验研究［J］.水利水电科技进展，2001，21（5）：14-16.LI Guangwei，YANG Yuanhui. Experimental study on characteristics of polyacrylic fiber concrete［J］. Advances in Science and Technology of Water Resources，2001，21（5）：14-16.

［50］唐朝生，施斌，蔡奕，等.聚丙烯纤维加固软土的试验研究［J］.岩土力学，2007，28（9）：1796-1800.TANG Chaosheng，SHI Bin，CAI Yi，et al. Experimental study on polypropylene fiber improving soft soils［J］. Rock and Soil Mechanics，2007，28（9）：1796-1800.

［51］孔玉侠，沈飞凡，王慧娟.聚丙烯纤维加筋砂土的剪胀特性［J］.岩土工程学报，2018，40（12）：2249-2256.KONG Yuxia，SHEN Feifan，WANG Huijuan. Stress-dilatancy properties for fiber-reinforced sand［J］. Chinese Journal of Geotechnical Engineering，2018，40（12）：2249-2256.

［52］AHMED A，GAJBHIYE R，ELKATATNY S，et al. Enhancing the cement quality using polypropylene fibers［C］. SPE Trinidad and Tobago Section Energy Resources Conference，Port of Spain，Trinidad and Tobago，2018：SPE-191189-MS.

［53］安静.聚酯纤维改性沥青混合料路用性能研究［J］.公路工程，2015，40（6）：247-251.AN Jing. The effect of polyester fiber on road performance of asphalt mixture［J］. Highway Engineering，2015，40（6）：247-251.

［54］武荣瑞.聚酯纤维技术发展及前景探讨［J］.合成技术及应用，2004，19（3）：1-4、21.WU Rongrui. The development of PET fiber technology and prospect for its future［J］. Synthetic Technology & Application，2004，19（3）：1-4，21.

［55］郭乃胜.聚酯纤维沥青混凝土的静动态性能研究［D］.辽宁大连：大连海事大学，2007.GUO Naisheng. Static and dynamic performance of polyester fiber reinforced asphalt concrete［D］. Dalian，Liaoning：Dalian Maritime University，2007.

［56］叶群山，岳红波，李力，等.聚酯纤维沥青混凝土动态模量与疲劳性能研究［J］.武汉理工大学学报，2007，29（9）：5-8.YE Qunshan，YUE Hongbo，LI Li，et al. Dynamic modulus and fatigue property of polyester fiber reinforced asphalt concrete［J］. Journal of Wuhan University of Technology，2007，29（9）：5-8.

［57］项影明.耐碱玻璃纤维在混凝土中的长期增强效应研究［D］.辽宁大连：大连交通大学，2010.XIANG Yingming. Research on the durability and long-term reinforcement effects of alkali-resistant glass fiber in concrete［D］. Dalian，Liaoning：Dalian Jiaotong University，2010.

［58］祖群.高性能玻璃纤维研究［J］.玻璃纤维，2012，247（5）：16-23.ZU Qun. Research on high-performance glass fibers［J］. Fiber Glass，2012，247（5）：16-23.

［59］王艳琼.玻璃纤维混凝土耐久性及耐高温试验研究［D］.宁夏银川：宁夏大学，2016.WANG Yanqiong. Experimental study on the durability and high-temperature resistance of glass fiber reinforced concrete［D］. Yinchuan，Ningxia：Ningxia University，2016.

［60］王蕊丽.玻璃纤维对水泥混凝土路用性能的影响［J］.公路交通科技（应用技术版），2018，14（10）：132-134.WANG Ruili. Influence of glass fibers on the road performance of cement concrete［J］. Journal of Highway and Transportation Research and Development （Applied Technology Edition），2018，14（10）：132-134.

［61］罗良惠，覃广.玻璃纤维沥青混合料路用性能研究［J］.西部交通科技，2021，（3）：68-70.LUO Lianghui，QIN Guang. Investigation into the road performance of glass fiber reinforced asphalt mixtures［J］. Western China Communications Science & Technology，2021，（3）：68-70.

［62］CAUGHRON D E，RENFROW D K，BRUTON J R，et al. Unique crosslinking pill in tandem with fracture prediction model cures circulation losses in deepwater Gulf of Mexico［C］. IADC/SPE Drilling Conference，Dallas，Texas，USA，2002：SPE-74518-MS.

［63］FERRAS M，GALAL M，POWER D. Lost circulation solutions for severe sub-salt thief zones［C］. AADE 2002 Technology Conference "Drilling & Completion Fluids and Waste Management"，Houston，Texas，USA，2002.

［64］POWER D，IVAN C D，BROOKS S W. The top 10 lost circulation concerns in deepwater drilling［C］. SPE Latin American and Caribbean Petroleum Engineering Conference，Port-of Spain，Trinidad and Tobago，2003：SPE-81133-MS.

［65］GHALAMBOR A，SALEHI S，SHAHRI M P，et al. Integrated workflow for lost circulation prediction［C］. SPE International Symposium and Exhibition on Formation Damage Control，Lafayette，Louisiana，USA，2014：SPE-168123-MS.

［66］LIETARD O，UNWIN T，GUILLO D J，et al. Fracture width logging while drilling and drilling mud/loss-circulation-material selection guidelines in naturally fractured reservoirs［J］. SPE drilling & completion，1999，14（3）：168-177.

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