Volume 39 Issue 5
Jan.  2023
Turn off MathJax
Article Contents
Article Navigation >  DRILLING FLUID & COMPLETION FLUID  > 2022  >  39(5): 622-628
LING Yong, MA Ruran, LYU Ze, et al.A medium-low temperature epoxy based workover fluid[J]. Drilling Fluid & Completion Fluid,2022, 39(5):622-628 doi: 10.12358/j.issn.1001-5620.2022.05.014
Citation: LING Yong, MA Ruran, LYU Ze, et al.A medium-low temperature epoxy based workover fluid[J]. Drilling Fluid & Completion Fluid,2022, 39(5):622-628 doi: 10.12358/j.issn.1001-5620.2022.05.014
shu

A Medium-Low Temperature Epoxy Based Workover Fluid

doi: 10.12358/j.issn.1001-5620.2022.05.014
  • 1.

    No. 2 Cementing Company, BHDC, Tianjin 300280

  • 2.

    School of Chemical Engineering and Technology, Tianjin University, Tianjin 300350

  • 3.

    The 6th Oil Production Factory in Petrochina Dagang Oilfield Company, Cangzhou,Hebei 061199

  • Received Date: 2022-04-12
  • Rev Recd Date: 2022-05-25
  • Publish Date: 2023-01-10
    Abstract
  • Presently the consumption of oil and natural gas has increased sharply, while the development of conventional oil and gas is reducing, this makes the development of unconventional oil and gas, such as oil and gas from deep wells, offshore wells and shale gas wells more and more imminent. In the development of unconventional oil and gas, the sealing integrity of cement sheath may probably be damaged, leading to oil and gas channeling in the annulus which imposes great hindrances and risks to oil and gas production and causes great economic losses. Epoxy based workover fluid can be used to replace cement slurry in workover job to solve the problem of inability of cement slurries to penetrate micro pores. Epoxy based workover fluids have many compositions and poor adaptability. To simultaneously satisfy the needs of workover operation in different formations with different temperatures, facilitate the transportation, storage and deployment of field operation, and improve the economy of workover and promote the industrialization process, a workover fluid was developed with liquid aromatic amine (LAA) as the main curing agent. The performance of the workover fluid was evaluated, the thickening performance and the kinetics of the workover fluid, and the compressive strength and micromorphology of the set product were characterized. The results show that the LAA system has initial consistency of less than 30 Bc, thickening time that is adjustable between 2 h and 5 h, compressive strength that is greater than 20 MPa at various temperatures, and it is able to satisfy the needs of workover operation at temperatures between 30 ℃ and 90 ℃.

     

    • FullText(HTML)
  • loading
    • References(15)
  • [1]
    王波,王太,王荣. 海上油井压裂风险及应对[J]. 产业创新研究,2020(14):130-131.

    WANG Bo, WANG Tai, WANG Rong. Offshore oil well fracturing risks and countermeasures[J]. Industrial Innovation, 2020(14):130-131.
    [2]
    张聪,张景富,乔宏宇,等. CO2腐蚀油井水泥石的深度及其对性能的影响[J]. 钻井液与完井液,2010,27(6):49-51. doi: 10.3969/j.issn.1001-5620.2010.06.014

    ZHANG Cong, ZHANG Jingfu, QIAO Hongyu, et al. Corrosion depth and effect on oil well cement stone by CO2[J]. Drilling Fluid & Completion Fluid, 2010, 27(6):49-51. doi: 10.3969/j.issn.1001-5620.2010.06.014
    [3]
    ZHANG Y, SONG X, XU M, et al. Review of research on corrosion prevention and control of oilwell cement[J]. Applied Chemical Industry, 2019, 48(10):2450-2455.
    [4]
    李进,龚宁,李早元,等. 射孔完井工况下固井水泥环破坏研究进展[J]. 钻井液与完井液,2016,33(6):10-16. doi: 10.3969/j.issn.1001-5620.2016.06.002

    LI Jin,GONG Ning,LI Zaoyuan,et al. Progress in studying cement sheath failure in perforated wells[J]. Drilling Fluid & Completion Fluid, 2016, 33(6):10-16. doi: 10.3969/j.issn.1001-5620.2016.06.002
    [5]
    韩耀图,李进,张磊,等. 聚能射孔对水泥环的冲击损伤试验及数值模拟[J]. 石油机械,2019,47(8):1-7. doi: 10.16082/j.cnki.issn.1001-4578.2019.08.001

    HAN Yaotu, LI Jin, ZHANG Lei, et al. Experiment and numerical simulation on the damage to the cement sheath during shaped perforation[J]. China Petroleum Machinery, 2019, 47(8):1-7. doi: 10.16082/j.cnki.issn.1001-4578.2019.08.001
    [6]
    卢海川,李宗要,高继超,等. 油气井用合成树脂胶凝材料研究综述[J]. 钻井液与完井液,2018,35(5):1-7. doi: 10.3969/j.issn.1001-5620.2018.05.001

    LU Haichuan, LI Zongyao, GAO Jichao, et al. Review of studies on synthetic resin cementitious materials used in oil and gas wells[J]. Drilling Fluid & Completion Fluid, 2018, 35(5):1-7. doi: 10.3969/j.issn.1001-5620.2018.05.001
    [7]
    符军放,赵琥,项先忠. 一种固井合成水泥石的研制与室内评价[J]. 钻井液与完井液,2015,32(2):61-63. doi: 10.3969/j.issn.1001-5620.2015.02.016

    FU Junfang, ZHAO Hu, XIANG Xianzhong. Development and evaluation of a compound set cement for well cementing[J]. Drilling Fluid & Completion Fluid, 2015, 32(2):61-63. doi: 10.3969/j.issn.1001-5620.2015.02.016
    [8]
    郭锦棠,杜江波,冯杰,等. 高温高压钻井用堵漏材料的制备及性能研究[J]. 天津大学学报(自然科学与工程技术版),2021,54(6):593-598.

    GUO Jintang, DU Jiangbo, FENG Jie, et al. Preparation and performance of plugging material for high-temperature and high-pressure drilling[J]. Journal of Tianjin University(Science and Technology), 2021, 54(6):593-598.
    [9]
    JONES P J,KARCHER J D,RUCH A. Rigless operation to restore wellbore integrity using synthetic-based resin sealants[C]//SPE/EAGE European Unconventional Resources Conference and Exhibition: Unlocking European Potential: proceedings, 25-27 February 2014 Reed Messe Wien, Vienna, Austria: Society of Petroleum Engineers, 2014: 1-9.
    [10]
    ELYAS O,ALYAMI A,WAGLE V,et al. Use of polymer resins for surface annulus isolation enhancement[C]// SPE Kingdom of Saudi Arabia Annual Technical Symposium and Exhibition, 2018.
    [11]
    SANABRIA A E , KNUDSEN K , LEON G A . Thermal activated resin to repair casing leaks in the Middle East[C]// Abu Dhabi International Petroleum Exhibition & Conference, 2016.
    [12]
    QIN J,ZHANG G,SUN R,et al. Synthesis of aromatic amine curing agent containing non-coplanar rigid moieties and its curing kinetics with epoxy resin[J]. Journal of Thermal Analysis & Calorimetry, 2014, 117(2):831-843.
    [13]
    MORONI A, MIJOVIC J, PEARCE E M, et al. Cure kinetics of epoxy resins and aromatic diamines[J]. Journal of Applied Polymer Science, 1986, 32(2):3761-3773. doi: 10.1002/app.1986.070320231
    [14]
    KISSINGER H E. Reaction kinetics in differential thermal analysis[J]. Analytical Chemistry, 1957, 29(11):1702-1706. doi: 10.1021/ac60131a045
    [15]
    CRANE L W,DYNES P,KAELBLE D. Analysis of curing kinetics in polymer composites[J]. Journal of Polymer Science:Polymer Letters Edition, 1973, 11(8):533-540. doi: 10.1002/pol.1973.130110808
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Figures(9)  / Tables(4)

    Get Citation
    PDF
    XML

    Article Metrics

    Article views (775) PDF downloads(52) Cited by()
    Proportional views
    Related

    Website Copyright Drilling Fluid & Completion Fluid津ICP备13002319号-1

    Address:Editorial Office of Drilling Fluid and Completion Fluid, Bohai Drilling Engineering Institute, Yanshan South Road, Renqiu City, Hebei Province

    Tel:(0317)2725487 2722354Email:zjyywjy@126.comPost Code:062552

    Supported by: Beijing Renhe Information Technology Co., Ltd.  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return