Discussion on the horizontal directional drilling technology for engineering investigation

ZHOU Mengdi; LIU Huan; HAN Lili and SHI Lei; ${author.authorNameEn}

doi:10.12143/j.ztgc.2023.02.019

2023 Vol. 50, No. 2

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ZHOU Mengdi, LIU Huan, HAN Lili and SHI Lei, . 2023. Discussion on the horizontal directional drilling technology for engineering investigation. DRILLING ENGINEERING, 50(2): 136-143. doi: 10.12143/j.ztgc.2023.02.019

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ZHOU Mengdi, LIU Huan, HAN Lili and SHI Lei, . 2023. Discussion on the horizontal directional drilling technology for engineering investigation. DRILLING ENGINEERING, 50(2): 136-143. doi: 10.12143/j.ztgc.2023.02.019

Discussion on the horizontal directional drilling technology for engineering investigation

1.China Ordnance Industry Survey and Geotechnical Institute Co., Ltd., Beijing 100053;
2.Chinese Academy of Geological Sciences, Beijing 100037, China

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Corresponding author: HAN Lili and SHI Lei, hanll885218@163.com

Received Date: 03 February 2023

Revised Date: 03 February 2023

Abstract

Abstract

The horizontal directional drilling technology for engineering investigation can solve some problems that the vertical drilling fails to solve. This paper introduces the status of the horizontal directional drilling technology in trenchless pipeline laying， oil and gas drilling， geological exploration， and the application in engineering investigation. The advantages of the horizontal directional drilling in engineering investigation in terms of applicability， survey speed and survey accuracy is discussed， we conclude that the horizontal directional drilling is suitable for investigation in the fields of deep buried tunnels and other horizontal linear projects， existing building reinforcement projects， archaeological excavation and exploration. Finally， this paper puts forward suggestions for the development of the horizontal directional drilling technology applied to investigation， including super-long hole drilling， trajectory control， continuous coring， and comprehensive measurement.
- HDD /
- engineering investigation /
- deep buried tunnel /
- existing building reinforcement /
- excavation detection for archaeological /
- super-long hole drilling /
- trajectory control /
- continuous coring /
- comprehensive measurement

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References

[1]	王达，赵国隆，左汝强，等.地质钻探工程的发展历程与展望——回顾探矿工程事业70年［J］.探矿工程（岩土钻掘工程），2019，46（9）：1-31. Google Scholar WANG Da， ZHAO Guolong， ZUO Ruqiang， et al. The development and outlook of geological drilling engineering-To review the 70^th anniversary of exploration engineering［J］. Exploration Engineering （Rock & Soil Drilling and Tunneling）， 2019，46（9）：1-31. Google Scholar
[2]	[2] 马保松，程勇，刘继国，等.超长距离水平定向钻进技术在隧道精准地质勘察的研究及应用［J］.隧道建设（中英文），2021，41（6）： 972.MA Baosong， CHENG Yong， LIU Jiguo， et al. Tunnel accurate geological investigation using long-distance horizontal directional drilling technology［J］. Tunnel Construction， 2021，41（6）：972. Google Scholar
[3]	[3] 吴纪修，尹浩，张恒春，等.水平定向勘察技术在长大隧道勘察中的应用现状与展望［J］.钻探工程，2021，48（5）：1-8. Google Scholar WU Jixiu， YIN Hao， ZHANG Hengchun， et al. Application status and R & D trend of horizontal directional investigation technology for long tunnel investigation［J］. Drilling Engineering， 2021，48（5）：1-8. Google Scholar
[4]	[4] 胡永鹏，张森，路伟.水平定向钻在地质勘察中的应用［J］.科技创新与应用，2022（19）：183-187. Google Scholar HU Yongpeng， ZHANG Sen， LU Wei. Application of horizontal directional drilling in geological survey［J］.Technology Innovation and Application， 2022（19）：183-187. Google Scholar
[5]	[5] 《钻探工程》编辑部.2022年探矿工程十大新闻［J］.钻探工程，2023，50（1）：1-4. Google Scholar Editorial Office of Drilling Engineering. 2022 top 10 news in exploration engineering［J］. Drilling Engineering， 2023，50（1）：1-4. Google Scholar
[6]	[6] 白彬珍，曾义金，葛洪魁.顺北56X特深水平井钻井关键技术［J］.石油钻探技术，2022，50（6）：49-55. Google Scholar BAI Binzhen， ZENG Yijin， GE Hongkui. Key technologies for the drilling of ultra-deep horizontal Well Shunbei 56X ［J］. Petroleum Drilling Techniques，2022，50（6）：49-55. Google Scholar
[7]	[7] 朱永宜.应用螺杆钻施工受控定向孔的实践［J］.探矿工程，1990（6）：33-37. Google Scholar ZHU Yongyi. Practice of controlled directional drilling with PDM［J］. Exporation Engineering， 1990（6）：33-37. Google Scholar
[8]	[8] 李泉新，石智军，许超，等.2311 m顺煤层超长定向钻孔高效钻进技术［J］.煤炭科学技术，2018，46（4）：27-32. Google Scholar LI Quanxin，SHI Zhijun，XU Chao，et al. Efficient drilling technique of 2311m ultra-long directional borehole along coal seam［J］. Coal Science and Technology， 2018，46（4）：27-32. Google Scholar
[9]	[9] 石智军，董书宁，杨俊哲，等.煤矿井下3000 m顺煤层定向钻孔钻进关键技术［J］.煤田地质与勘探，2019，47（6）：1-7. Google Scholar SHI Zhijun， DONG Shuning， YANG Junzhe， et al. Key technology of drilling in-seam directional borehole of 3000m in underground coal mine［J］. Coal Geology & Exploration， 2019，47（6）：1-7. Google Scholar
[10]	[10] 王鹏，王洪龄，周升风，等.导向钻进非开挖铺管技术［J］.探矿工程，1996（6）：16-18．WANG Peng， WANG Hongling， ZHOU Shengfeng， et al．Trenchless pipeline installation technique using guided boring［J］. Exploration Engineering， 1996（6）：16-18. Google Scholar
[11]	[11] 孙欢，朱明明，王伟良，等.长庆页岩油水平井华H90-3井超长水平段防漏堵漏技术［J］.石油钻探技术，2022，50（2）：16-21. Google Scholar SUN Huan， ZHU Mingming， WANG Weiliang， et al. Lost circulation prevention and plugging technologies for the ultra-long horizontal section of the horizontal shale oil well Hua H90-3 in Changqing Oilfield［J］. Petroleum Drilling Techniques， 2022，50（2）：16-21. Google Scholar
[12]	[12] 青函隧道水平钻探实例［J］.隧道建设，1983，3（3）：98.An example of horizontal drilling in Seikan tunnel［J］.Tunnel Construction， 1983，3（3）：98. Google Scholar
[13]	[13] Dammyr O， Nilsen B， Gollegger J. Feasibility of tunnel boring through weakness zones in deep Norwegian subsea tunnels. Tunnelling and Underground Space Technology， 2017，69（1）：133-146. Google Scholar
[14]	[14] 徐正宣，刘建国，吴金生，等.超深定向钻探技术在川藏铁路隧道勘察中的应用［J］.工程科学与技术，2022，54（2）：21–29.XU Zhengxuan， LIU Jianguo， WU Jinsheng， et al. Application of ultra-deep directional drilling technology in the investigation of Sichuan-Tibet railway tunnel［J］. Advanced Engineering Sciences， 2022，54（2）：21-29. Google Scholar
[15]	[15] 王汇明，李军，李勇，等.狮子洋主航道特大水垂比大位移科学钻孔施工实践［J］.钻探工程，2022，49（1）：135-141. Google Scholar WANG Huiming， LI Jun， LI Yong， et al. Novel drilling technology for an extended reach horizonal borehole with high horizonal displacement/vertical depth ratio in the Shiziyang main channel［J］. Drilling Engineering， 2022，49（1）：135-141. Google Scholar
[16]	[16] 刘春香，史继彪，朱元武.轨道交通工程长水平勘察孔施工技术［J］.勘察科学技术，2017（2）：37-40. Google Scholar LIU Chunxiang， SHI Jibiao， ZHU Yuanwu. Construction technology of long horizontal survey hole for rail traffic engineering［J］. Site Investigation Science and Technology， 2017（2）：37-40. Google Scholar
[17]	[17] 郭永顺，温晓虎，陈素敏，等.可变向定向连续取芯技术在城市轨道交通勘察中的应用［J］.铁道勘察，2022，48（6）：77-82，107. Google Scholar GUO Yongshun， WEN Xiaohu， CHEN Sumin， et al. Application of variable directional continuous coring technique in engineering investigation of urban rail transit［J］. Railway Investigation and Surveying， 2022，48（6）：77-82，107. Google Scholar
[18]	[18] 赵国隆，李常茂.采用综合探测技术，揭开秦皇陵地宫千古之谜［J］.探矿工程（岩土钻掘工程），2004，31（4）：1-3. Google Scholar ZHAO Guolong， LI Changmao. Use comprehensive tech. to reveal eternal underground palace of Qinshihuang Mausoleum［J］. Exploration Engineering （Rock & Soil Drilling and Tunneling）， 2004，31（4）：1-3. Google Scholar
[19]	[19] 田四明，王伟，李国良，等.川藏铁路隧道设计理念与主要原则［J］.隧道建设（中英文），2021，41（4）：519-530． Google Scholar TIAN Siming， WANG Wei， LI Guoliang， et al. Design concept and main principles of tunnel on Sichuan-Tibet Railway［J］. Tunnel Construction， 2021，41（4）：519-530． Google Scholar
[20]	[20] 王震，崔景川，彭文波，等.水平定向钻隧道地质勘察孔岩屑运移与地层相关性研究［J］.地质科技通报，2022（网络首发）.WANG Zhen， CUI Jingchuan， PENG Wenbo， et al. Correlation study of cuttings and formation during tunnel geological investigation using HDD technology［J］. Bulletin of Geological Scienceand Technology， 2022. Google Scholar
[21]	[21] 张恒春，刘广，吴纪修，等.川藏铁路3000 m水平定向钻井技术方案［J］.探矿工程（岩土钻掘工程），2020，47（11）：1-6. Google Scholar ZHANG Hengchun， LIU Guang， WU Jixiu， et al. Technical plan for 3000m long horizontal directional drilling for Sichuan-Tibet Railway［J］. Exploration Engineering （Rock & Soil Drilling and Tunneling）， 2020，47（11）：1-6. Google Scholar
[22]	[22] 吴金生，罗显粱，徐正宣，等.高原铁路水平定向试验孔施工概况和关键技术［J］.钻探工程，2022，49（6）：1-7. Google Scholar WU Jinsheng， LUO Xianliang， XU Zhengxuan， et al. Construction overview and key technology for the horizontal directional coring test hole on plateau railway［J］. Drilling Engineering， 2022，49（6）：1-7. Google Scholar
[23]	[23] 胡萍.复杂艰险山区铁路水平绳索取心钻进技术应用现状与展望［J］.四川地质学报，2022，42（S1）：109-113. Google Scholar HU Ping. The application present situation and prospect of horizontal wire-line coring drilling technology to the construction of railway engineering in complex and difficult mountainous area［J］. Acta Geologica Sichuan， 2022，42（S1）：109-113. Google Scholar
[24]	[24] 李军，李勇，谢小国，等.狮子洋主航道水平勘察孔测井评价方法研究与应用［J］.钻探工程，2022，49（6）：21-29. Google Scholar LI Jun， LI Yong， XIE Xiaoguo， et al. Research and application of the logging evaluation method for horizontal holes in the main channel of Shiziyang［J］. Drilling Engineering， 2022，49（6）：21-29. Google Scholar
[25]	[25] 石春娟，翟慧明.数字全景钻孔摄像技术在文物遗址保护工程中的应用［J］.物探与化探，2020，44（6）：1490-1494. Google Scholar SHI Chunjuan， ZHAI Huiming. The application of digital panoramic borehole camera technique to the protection engineering of cultural relics sites［J］. Geophysical and Geochemical Exploration， 2020，44（6）：1490-1494. Google Scholar
[26]	[26] 周福军，杜世回，孟祥连，等.高原山区铁路勘察多角度钻探和测试技术研究［J］.铁道工程学报，2021（12）：1-6. Google Scholar ZHOU Fujun， DU Shihui， MENG Xianglian， et al. Research on the multi-angle drilling and testing technology for railway exploration in the plateau mountainous area［J］. Journal of Railway Engineering Society， 2021（12）：1-6. Google Scholar
[27]	[27] 张永勤.论地质钻探技术的担当使命及智能化与绿色发展［J］.钻探工程，2023，50（1）：5-9. Google Scholar ZHANG Yongqin. Discussion on aspiration and mission and AI & green development of the drilling techniques［J］. Drilling Engineering， 2023，50（1）：5-9. Google Scholar