International Journal of Oil, Gas and Coal Engineering

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Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field

Received: 13 August 2018    Accepted: 31 August 2018    Published: 10 October 2018
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Abstract

The tight and thick sandstone reservoir, which is represented by Huaqing oilfield, was stimulated by the separated layer fracturing technology in the early period which produces discharge multi-channel between the pay formation and wellbore. For the conventional refracturing technology, the combination of tubing and packers is employed to treat the target layers in sequence. Nevertheless, this conventional technology is confined by the size of the tubing so that the maximum pumping rate can only reach to 3 to 4m3/min. It can’t meet the requirement of high pumping rate of hybrid fluid SRV fracturing that the treatment effort is not optimum and the stimulation efficiency is very low. In this article, in order to resolve the refracturing problems above for old wells, we introduced a state-of-art downhole releasing separated layer volume fracturing technology and support tools. By applying the releasing tool assembly and exclusive fishing tools, some goals can be easily achieved: to realize the efficient isolation between target layers, to protect the casing while fracturing, to meet the pump rate requirement of SRV fracturing of 11m3/min. We deployed the pilot field experiment of Huaqing oilfield and realized the “separated layer multistage SRV fracturing” of tight and thick reservoir. The result shows that the initial production rate of trial wells increases by 2.42t/d. The field test indicates that this technology presents some advantages such as high pump rate, simple tool assembly, easy operation and low operation risk.

DOI 10.11648/j.ogce.20180605.17
Published in International Journal of Oil, Gas and Coal Engineering (Volume 6, Issue 5, September 2018)
Page(s) 120-125
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Releasing Tool, Volume Fracturing, Separate Layer Fracturing Technology, Huaqing Oilfield, Stimulation Effect

References
[1] Denis Zolnikov, Vladimir Astafyev, Llya Elstov, Nikolay Zavyalov, et al. Massive Hydraulic Fracturing Using Linear Pads in the Achimov reservoirs at the Urengoy Field [R]. SPE 182110-MS, 2016.
[2] Juan Antonio Coronado. Success of Hybrid Fracs in the Basin [R]. SPE 106758, 2007.
[3] ZARGARI S, MOHAGHEGH S D. Field development strategies for bakken shale formation[R]. SPE 139032, 2010
[4] T.T.Palisch, M.C.Vincent, P.J.Handren. Slickwater Fracturing-Food for Thought[R]. SPE 115766, 2008.
[5] Craig Cipolla, Constance Gilbert, Aviral Shama,John, LeBas. Case History of Compltiont Optimization in the Utica [R]. SPE 189838-MS, 2018.
[6] Du Xianfei, Li Jianshan, Qi Yin, et al. Multi-stage fracturing technique in deviated wells of tight thick oil reservoirs [J]. Oil Drilling & Production Technology, 2012, 34(4): 61-63.
[7] Mullen M, Pitcher J, Hinz D. Does the presence of natural fractures have an impact on production-A case study from the middle Bakken dolomite, North Dakota [R]. SPE 116124, 2010.
[8] C. Mark Pearson, Larry Griffin, Chris Wright. Breaking up is hard to do: creating hydraulic fracture complexity in the Bakken central basin[R]. SPE 163827, 2013.
[9] MAYERHOFER M J, LOLON E P, WARPINSKI N R, et al. What is Stimulated Reservoir Volume(SRV) [R]SPE 119890, 2008.
[10] Yang Shuren, Wang Zhiming, He Guangyu, et al. Engineering Fluid Mechanics[M].Beijing:China Petroleum Industry Press, 2006.
Author Information
  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

  • Oil & Gas Technology Research Institute of Changqing Oilfield Co., Xi'an, China; National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an, China

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    Li Chuan, Chen Qiang, Zhang Tongwu, Yu Xingguo, Xian Cheng, et al. (2018). Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field. International Journal of Oil, Gas and Coal Engineering, 6(5), 120-125. https://doi.org/10.11648/j.ogce.20180605.17

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    ACS Style

    Li Chuan; Chen Qiang; Zhang Tongwu; Yu Xingguo; Xian Cheng, et al. Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field. Int. J. Oil Gas Coal Eng. 2018, 6(5), 120-125. doi: 10.11648/j.ogce.20180605.17

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    AMA Style

    Li Chuan, Chen Qiang, Zhang Tongwu, Yu Xingguo, Xian Cheng, et al. Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field. Int J Oil Gas Coal Eng. 2018;6(5):120-125. doi: 10.11648/j.ogce.20180605.17

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  • @article{10.11648/j.ogce.20180605.17,
      author = {Li Chuan and Chen Qiang and Zhang Tongwu and Yu Xingguo and Xian Cheng and Xiang Kui},
      title = {Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field},
      journal = {International Journal of Oil, Gas and Coal Engineering},
      volume = {6},
      number = {5},
      pages = {120-125},
      doi = {10.11648/j.ogce.20180605.17},
      url = {https://doi.org/10.11648/j.ogce.20180605.17},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ogce.20180605.17},
      abstract = {The tight and thick sandstone reservoir, which is represented by Huaqing oilfield, was stimulated by the separated layer fracturing technology in the early period which produces discharge multi-channel between the pay formation and wellbore. For the conventional refracturing technology, the combination of tubing and packers is employed to treat the target layers in sequence. Nevertheless, this conventional technology is confined by the size of the tubing so that the maximum pumping rate can only reach to 3 to 4m3/min. It can’t meet the requirement of high pumping rate of hybrid fluid SRV fracturing that the treatment effort is not optimum and the stimulation efficiency is very low. In this article, in order to resolve the refracturing problems above for old wells, we introduced a state-of-art downhole releasing separated layer volume fracturing technology and support tools. By applying the releasing tool assembly and exclusive fishing tools, some goals can be easily achieved: to realize the efficient isolation between target layers, to protect the casing while fracturing, to meet the pump rate requirement of SRV fracturing of 11m3/min. We deployed the pilot field experiment of Huaqing oilfield and realized the “separated layer multistage SRV fracturing” of tight and thick reservoir. The result shows that the initial production rate of trial wells increases by 2.42t/d. The field test indicates that this technology presents some advantages such as high pump rate, simple tool assembly, easy operation and low operation risk.},
     year = {2018}
    }
    

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  • TY  - JOUR
    T1  - Separate Layer Fracturing Technology of Hybrid Fluid on Thick Tight Sandstone Reservoir, Case Study of Huaqing Oil Field
    AU  - Li Chuan
    AU  - Chen Qiang
    AU  - Zhang Tongwu
    AU  - Yu Xingguo
    AU  - Xian Cheng
    AU  - Xiang Kui
    Y1  - 2018/10/10
    PY  - 2018
    N1  - https://doi.org/10.11648/j.ogce.20180605.17
    DO  - 10.11648/j.ogce.20180605.17
    T2  - International Journal of Oil, Gas and Coal Engineering
    JF  - International Journal of Oil, Gas and Coal Engineering
    JO  - International Journal of Oil, Gas and Coal Engineering
    SP  - 120
    EP  - 125
    PB  - Science Publishing Group
    SN  - 2376-7677
    UR  - https://doi.org/10.11648/j.ogce.20180605.17
    AB  - The tight and thick sandstone reservoir, which is represented by Huaqing oilfield, was stimulated by the separated layer fracturing technology in the early period which produces discharge multi-channel between the pay formation and wellbore. For the conventional refracturing technology, the combination of tubing and packers is employed to treat the target layers in sequence. Nevertheless, this conventional technology is confined by the size of the tubing so that the maximum pumping rate can only reach to 3 to 4m3/min. It can’t meet the requirement of high pumping rate of hybrid fluid SRV fracturing that the treatment effort is not optimum and the stimulation efficiency is very low. In this article, in order to resolve the refracturing problems above for old wells, we introduced a state-of-art downhole releasing separated layer volume fracturing technology and support tools. By applying the releasing tool assembly and exclusive fishing tools, some goals can be easily achieved: to realize the efficient isolation between target layers, to protect the casing while fracturing, to meet the pump rate requirement of SRV fracturing of 11m3/min. We deployed the pilot field experiment of Huaqing oilfield and realized the “separated layer multistage SRV fracturing” of tight and thick reservoir. The result shows that the initial production rate of trial wells increases by 2.42t/d. The field test indicates that this technology presents some advantages such as high pump rate, simple tool assembly, easy operation and low operation risk.
    VL  - 6
    IS  - 5
    ER  - 

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