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Experimental study on fracture plugging effect of irregular-shaped lost circulation materials

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Listed:
  • Xu, Chengyuan
  • Zhang, Honglin
  • She, Jiping
  • Jiang, Guobin
  • Peng, Chi
  • You, Zhenjiang

Abstract

Using micro-visualization experimental device for the formation of fracture plugging zone, the plugging behavior of irregular-shaped lost circulation materials (LCMs) with different types and concentrations in fractures was experimentally analyzed. The results show that the sealing time decreases significantly with the increase of material concentration. When the concentration is 20%, the sealing times of materials LCM-1∼LCM-5 are 6s, 7s, 5s, 6s, 4s, respectively. The formation of fracture plugging zone includes two stages, and the main factors affecting the formation of fracture plugging zone are flatness, roundness, convexity and concentrations. Flatness affects the retention stage of LCMs through the matching degree between particle size and fracture width. Convexity and roundness affect the retention stage by increasing the friction coefficient between particles. The high-efficiency retention ability of irregular LCMs is characterized by strong matching to fracture width, and strong friction and sliding resistance between particles. It is recommended that the optimized geometric parameters of high-efficiency retention materials should meet the requirements of “low flatness, low roundness and low convexity” (flatness <0.6, roundness <0.6 and convexity <0.8), which can improve the plugging effect significantly.

Suggested Citation

  • Xu, Chengyuan & Zhang, Honglin & She, Jiping & Jiang, Guobin & Peng, Chi & You, Zhenjiang, 2023. "Experimental study on fracture plugging effect of irregular-shaped lost circulation materials," Energy, Elsevier, vol. 276(C).
  • Handle: RePEc:eee:energy:v:276:y:2023:i:c:s0360544223009386
    DOI: 10.1016/j.energy.2023.127544
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    References listed on IDEAS

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    1. Kang, Yili & Ma, Chenglin & Xu, Chengyuan & You, Lijun & You, Zhenjiang, 2023. "Prediction of drilling fluid lost-circulation zone based on deep learning," Energy, Elsevier, vol. 276(C).
    2. Xu, Chengyuan & Yan, Xiaopeng & Kang, Yili & You, Lijun & You, Zhenjiang & Zhang, Hao & Zhang, Jingyi, 2019. "Friction coefficient: A significant parameter for lost circulation control and material selection in naturally fractured reservoir," Energy, Elsevier, vol. 174(C), pages 1012-1025.
    3. Xu, Chengyuan & Xie, Zhichao & Kang, Yili & Yu, Guoyi & You, Zhenjiang & You, Lijun & Zhang, Jingyi & Yan, Xiaopeng, 2020. "A novel material evaluation method for lost circulation control and formation damage prevention in deep fractured tight reservoir," Energy, Elsevier, vol. 210(C).
    4. Kang, Yili & Zhou, Hexiang & Xu, Chengyuan & Yang, Xinglin & You, Zhenjiang, 2023. "Experimental study on the effect of fracture surface morphology on plugging zone strength based on 3D printing," Energy, Elsevier, vol. 262(PA).
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    Cited by:

    1. Guo, Pengfei & Qiu, Zhengsong & Zang, Xiaoyu & Zhong, Hanyi & Zhao, Xin & Zhang, Yubin & Mu, Tingbo, 2024. "Epoxy resin microencapsulated by complex coacervation as physical-chemical synergetic lost circulation control material," Energy, Elsevier, vol. 293(C).
    2. William Kibikas & Seiji Nakagawa & Mathew Ingraham & Stephen Bauer & Chun Chang & Patrick Dobson & Timothy Kneafsey & Abraham Samuel, 2024. "Evaluation of Lost Circulation Material Sealing for Geothermal Drilling," Energies, MDPI, vol. 17(11), pages 1-25, June.

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