YANG Jin, ZHU Guojing, LI Shuzhan, et al. Research on suction pile well construction model for deep sea resource drilling [J]. Petroleum Drilling Techniques,2023, 51(4):134-139. DOI: 10.11911/syztjs.2023029
Citation: YANG Jin, ZHU Guojing, LI Shuzhan, et al. Research on suction pile well construction model for deep sea resource drilling [J]. Petroleum Drilling Techniques,2023, 51(4):134-139. DOI: 10.11911/syztjs.2023029

Research on Suction Pile Well Construction Model for Deep Sea Resource Drilling

More Information
  • Received Date: December 25, 2022
  • Revised Date: February 01, 2023
  • Available Online: February 14, 2023
  • In the process of drilling for oil, gas and hydrate in deep water, the establishment of wellhead is the key to the safety and timeliness of the entire drilling operation. As a new well construction model, suction pile well construction has become a research hotspot in global ocean engineering, and thus, research on this model is of great significance for boosting innovations in well construction technologies and improving deep sea well construction efficiency. The model mainly depends on negative pressure to install suction piles, which causes small perturbations to the soil and could greatly enhance the bearing capacity of the wellhead. Further, its mud depth was considerably reduced compared with that of the traditional well construction model. In addition, the suction pile could be extended to accommodate multiple wellheads, and the problem of soft formation deviation could be overcome in combination with the wellbore predeflection design. In this paper, the process flow of suction pile well construction was introduced, and the design methods for suction piles and wellbores were given. Moreover, the parameters of soil quality in a deep-water well site in the South China Sea were utilized to design suction piles and wellbores suitable for the well site. The design results indicated that the suction pile well construction model could be effectively adapted to the well site. The research suggests that this model provides a new way to construct wells for deep sea resource exploration and development.

  • [1]
    杨进. 深水油气井表层导管下入深度计算方法[J]. 石油学报,2019,40(11):1396–1406.

    YANG Jin. Calculation method of surface conductor setting depth in deepwater oil and gas wells[J]. Acta Petrolei Sinica, 2019, 40(11): 1396–1406.
    [2]
    李家仪,许亮斌,周建良, 等. 基于非概率可靠性的喷射导管下入深度设计方法[J]. 石油钻探技术,2015,43(4):8–12. doi: 10.11911/syztjs.201504002

    LI Jiayi, XU Liangbin, ZHOU Jianliang, et al. Design for the setting depth of jetting conducors based on non-probalistic reliability[J]. Petroleum Drilling Tecniques, 2015, 43(4): 8–12. doi: 10.11911/syztjs.201504002
    [3]
    周波,杨进,周建良,等. 深水喷射扰动对表层导管承载力的影响规律[J]. 中国海上油气,2016,28(1):98–102.

    ZHOU Bo, YANG Jin, ZHOU Jianliang, et al. Pattern of influence of disturbance caused by jetting on bearing capacity of surface conductor in deep water zones[J]. China Offshore Oil and Gas, 2016, 28(1): 98–102.
    [4]
    杨进,曹式敬. 深水石油钻井技术现状及发展趋势[J]. 石油钻采工艺,2008,30(2):10–13.

    YANG Jin, CAO Shijing. Current situation and developing trend of petroleum drilling technologies in deep water[J]. Oil Drilling & Production Technology, 2008, 30(2): 10–13.
    [5]
    周建良,杨进,严德,等. 深水表层导管下入方式适应性分析[J]. 长江大学学报(自科版),2013,10(2):66–69.

    ZHOU Jianliang, YANG Jin, YAN De, et al. Research of installation technique for surface conductor in deepwater drilling[J]. Journal of Yangtze University(Natural Science Edition), 2013, 10(2): 66–69.
    [6]
    MATHIS W, STRAND H, HOLLINGER G. Case history: how to enable the horizontal development of shallow reservoirs[R]. SPE 184667, 2017.
    [7]
    SIVERTSEN T, STRAND H. New well foundation concept, as used at a Norwegian Sea well[R]. SPE 149584, 2011.
    [8]
    徐继祖,史庆增,宋安,等. 吸力锚在国内近海工程中的首次应用与设计[J]. 中国海上油气(工程),1995,7(1):32–36.

    XU Jizu, SHI Qingzeng, SONG An, et al. The first application and design of suction anchor in domestic offshore engineering[J]. China Offshore Oil and Gas(Engineering), 1995, 7(1): 32–36.
    [9]
    张明贺, 杨进, 刘和兴, 等. 深水吸力桩建井技术[C]//第二十届中国海洋(岸)工程学术讨论会论文集(上). 南京: 河海大学出版社, 2022: 283−290.

    ZHANG Minghe, YANG Jin, LIU Hexing, et al. Deep suction pile built well technology[C]//proceedings of the 20th China Marine (Coastal) Engineering Symposium (I). Nanjing: Hohai University Press, 2022: 283 − 290.
    [10]
    顾纯巍,李中,黄熠,等. 吸力桩式水下基盘结构优化研究与应用[J]. 中国海上油气,2014,26(4):110–112.

    GU Chunwei, LI Zhong, HUANG Yi, et al. The structure optimization research and application of subsea suction pile template[J]. China Offshore Oil and Gas, 2014, 26(4): 110–112.
    [11]
    KAN Changbin, YANG Jin, YU Xiaocong, et al. Load bearing characteristics study on novel deepwater composite drilling conductor by simulation and experimental methods[J]. Journal of Petroleum Science and Engineering, 2018, 171: 289–301. doi: 10.1016/j.petrol.2018.07.023
    [12]
    朱敬宇,陈国明,刘康, 等. 深水水合物钻井导管下深设计与地层安全承载研究[J]. 石油钻采工艺,2019,41(6):690–696. doi: 10.13639/j.odpt.2019.06.002

    ZHU Jingyu, CHEN Guoming, LIU Kang, et al. The design on the setting depth of drilling conductor and the study on the safe bearing load of formation in deepwater hydrate exploitation[J]. Oil Drilling & Production Technology, 2019, 41(6): 690–696. doi: 10.13639/j.odpt.2019.06.002
    [13]
    刘清友,秦松,毛良杰,等. 深水钻井隔水导管承载能力影响因素分析[J]. 石油钻探技术,2019,47(5):49–56. doi: 10.11911/syztjs.2019099

    LIU Qingyou, QIN Song, MAO Liangjie, et al. An analysis of the factors affecting the load-bearing capacity of deep water drilling conductor[J]. Petroleum Drilling Tecniques, 2019, 47(5): 49–56. doi: 10.11911/syztjs.2019099
    [14]
    李文轩,曹永勇. 海上筒型基础的筒壁土压力计算[J]. 水利水运工程学报,2018(3):65–70.

    LI Wenxuan, CAO Yongyong. Earth pressure calculation for bucket wall of offshore bucket foundation[J]. Hydro-Science and Engineering, 2018(3): 65–70.
    [15]
    刘梅梅,练继建,杨敏,等. 宽浅式筒型基础竖向承载力研究[J]. 岩土工程学报,2015,37(2):379–384.

    LIU Meimei, LIAN Jijian, YANG Min, et al. Vertical bearing capacity of wide-shallow bucket foundation[J]. Chinese Journal of Geotechnical Engineering, 2015, 37(2): 379–384.
    [16]
    李莅临,杨进,路保平,等. 深水水合物试采过程中地层沉降及井口稳定性研究[J]. 石油钻探技术,2020,48(5):61–68.

    LI Lilin, YANG Jin, LU Baoping, et al. Research on stratum settlement and wellhead stability in deep water during hydrate production testing[J]. Petroleum Drilling Techniques, 2020, 48(5): 61–68.
    [17]
    严驰,李亚坡,袁中立. 土性参数对桶形基础竖向地基承载力影响的敏感性分析[J]. 水运工程,2009(1):155–160.

    YAN Chi, LI Yapo, YUAN Zhongli. Sensitivity analysis of the effect of soil parameters on the vertical bearing capacity of bucket foundation[J]. Port & Waterway Engineering, 2009(1): 155–160.
    [18]
    刘振纹,王建华,秦崇仁,等. 负压桶形基础地基水平承载力研究[J]. 岩土工程学报,2000,22(6):691–695.

    LIU Zhenwen, WANG Jianhua, QIN Chongren, et al. Research on the horizontal bearing capacity of bucket foundations[J]. Chinese Journal of Geotechnical Engineering, 2000, 22(6): 691–695.
    [19]
    管志川,苏堪华,苏义脑. 深水钻井导管和表层套管横向承载能力分析[J]. 石油学报,2009,30(2):285–290.

    GUAN Zhichuan, SU Kanhua, SU Yinao. Analysis on lateral load-bearing capacity of conductor and surface casing for deepwater drilling[J]. Acta Petrolei Sinica, 2009, 30(2): 285–290.
    [20]
    杨进,李文龙,胡志强,等. 深水钻井水下井口稳定性研究进展[J]. 中国海上油气,2020,32(4):124–130.

    YANG Jin, LI Wenlong, HU Zhiqiang, et al. Research progresses on subsea wellhead stability of deep water drilling[J]. China Offshore Oil and Gas, 2020, 32(4): 124–130.
    [21]
    蒋杏雨. 宽浅式筒型基础在粉质粘土中的承载力研究[D]. 天津: 天津大学, 2015.

    JIANG Xingyu. Analysis on bearing capacity of wide and shallow bucket foundation in silty clay[D]. Tianjin: Tianjin University, 2015.
  • Related Articles

    [1]LIU Yuelong, XIONG Pei, DENG Xuefeng. Design and Operational Characteristics Study of Gas-Driven Reciprocating Pumps for Drainage Gas Recovery[J]. Petroleum Drilling Techniques. DOI: 10.11911/syztjs.2025082
    [2]MA Guangjun, TANG Zhangwei, SUN Feng. Design of Dynamic and Static Disc Valves in Static Thrust-Type Mechanical Vertical Drilling Tool and Clearance Flow Analysis[J]. Petroleum Drilling Techniques, 2025, 53(2): 88-96. DOI: 10.11911/syztjs.2025047
    [3]CHEN Dongfang, QUAN Bing, XIAO Xinqi, ZHANG Guangyu, CHEN Zhihua. Structure Design and Laboratory Testings of an Axial & Torsional Coupling Impactor[J]. Petroleum Drilling Techniques, 2024, 52(1): 78-83. DOI: 10.11911/syztjs.2023104
    [4]LI Wei, XIA Yang, CHEN Xi. Design and Experimental Study of an RFID Intelligent Sliding Sleeve[J]. Petroleum Drilling Techniques, 2019, 47(6): 83-88. DOI: 10.11911/syztjs.2019123
    [5]HAO Dilong, HE Xia, WANG Guorong, FANG Xing, LIAO Daisheng, FANG Haihui. Optimization of the Structural Design of the Integral Slip of a Soluble Bridge Plug[J]. Petroleum Drilling Techniques, 2019, 47(1): 69-75. DOI: 10.11911/syztjs.2018151
    [6]TIAN Jingyan, XU Yuchao. Design and Field Application of a Micro-Coring PDC Bit[J]. Petroleum Drilling Techniques, 2019, 47(1): 65-68. DOI: 10.11911/syztjs.2018134
    [7]SU Zhenguo, TANG Zhijun. The Design and Field Testing of Two-Stage and Two-Speed Drilling Tools[J]. Petroleum Drilling Techniques, 2019, 47(1): 59-64. DOI: 10.11911/syztjs.2019010
    [8]NI Weining, ZHANG Xiaobin, WAN Yong, SUN Weifeng, DAI Yongshou, ZHANG Wei. The Design of the Coil System in LWD Tools Based on Azimuthal Electromagnetic-Wave Resistivity Combined with Sections[J]. Petroleum Drilling Techniques, 2017, 45(2): 115-120. DOI: 10.11911/syztjs.201702019
    [9]Li Jiayi, Xu Liangbin, Zhou Jianliang, Chang Yuanjiang. Design for the Setting Depth of Jetting Conductors Based on Non-Probabilistic Reliability[J]. Petroleum Drilling Techniques, 2015, 43(4): 8-12. DOI: 10.11911/syztjs.201504002
    [10]Casing Design and Optimization for Deepwater Drilling[J]. Petroleum Drilling Techniques, 2011, 39(2): 16-21. DOI: 10.3969/j.issn.1001-0890.2011.02.003
  • Cited by

    Periodical cited type(6)

    1. 李舒展,杨进,朱国倞,黄熠,张珣,万宏宇. 水下井口吸力桩极限贯入深度研究. 中国海上油气. 2024(02): 185-194 .
    2. 傅超,杨进,刘华清,殷启帅,王磊,胡志强. 多维度深水浅层建井方式优选方法研究. 石油钻探技术. 2024(03): 40-46 . 本站查看
    3. 李舒展,杨进,朱国倞,黄熠,王宁,万宏宇,马会珍. 深水钻井井口吸力桩稳定性计算和校核方法. 石油钻采工艺. 2024(01): 13-24 .
    4. 刘书杰,李文拓,徐一龙,刘正,李清平,李君,曾春珉. 海洋水下钻井井口疲劳损伤性能设计方法. 石化技术. 2024(09): 114-116 .
    5. 李文拓,刘书杰,徐一龙,于晓东,李清平,徐楷,曾春珉. 海洋井口吸力桩的下入安装施工流程研究. 石化技术. 2024(10): 101-103 .
    6. 罗鸣,刘书杰,李文拓,李清平,周思琦,曾春珉. 海洋双井口吸力桩井口间距设计方法. 石化技术. 2024(11): 127-129 .

    Other cited types(2)

Catalog

    Article Metrics

    Article views (243) PDF downloads (51) Cited by(8)
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return