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Investigation of the Effect of Natural Fractures on Multiple Shale-Gas Well Performance Using Non-Intrusive EDFM Technology

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  • Wei Yu

    (State Key Laboratory of Shale Oil and Gas Enrichment Mechanisms and Effective Development, Beijing 100083, China
    Hildebrand Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, Austin, TX 78712, USA)

  • Xiaohu Hu

    (State Key Laboratory of Shale Oil and Gas Enrichment Mechanisms and Effective Development, Beijing 100083, China
    Key Laboratory of Shale Oil/Gas Exploration & Production, SINOPEC, Beijing 100083, China)

  • Malin Liu

    (Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 100084, China)

  • Weihong Wang

    (State Key Laboratory of Shale Oil and Gas Enrichment Mechanisms and Effective Development, Beijing 100083, China
    Key Laboratory of Shale Oil/Gas Exploration & Production, SINOPEC, Beijing 100083, China)

Abstract

The influence of complex natural fractures on multiple shale-gas well performance with varying well spacing is poorly understood. It is difficult to apply the traditional local grid refinement with structured or unstructured gridding techniques to accurately and efficiently handle complex natural fractures. In this study, we introduced a powerful non-intrusive embedded discrete fracture model (EDFM) technology to overcome the limitations of exiting methods. Through this unique technology, complex fracture configurations can be easily and explicitly embedded into structured matrix blocks. We set up a field-scale two-phase reservoir model to history match field production data and predict long-term recovery from Marcellus. The effective fracture properties were determined thorough history matching. In addition, we extended the single-well model to include two horizontal wells with and without including natural fractures. The effects of different numbers of natural fractures on two-well performance with varying well spacing of 200 m, 300 m, and 400 m were examined. The simulation results illustrate that gas productivity almost linearly increases with the number of two-set natural fractures. Furthermore, the difference of well performance between different well spacing increases with an increase in natural fracture density. A larger well spacing is preferred for economically developing the shale-gas reservoirs with a larger natural fracture density. The findings of this study provide key insights into understanding the effect of natural fractures on well performance and well spacing optimization.

Suggested Citation

  • Wei Yu & Xiaohu Hu & Malin Liu & Weihong Wang, 2019. "Investigation of the Effect of Natural Fractures on Multiple Shale-Gas Well Performance Using Non-Intrusive EDFM Technology," Energies, MDPI, vol. 12(5), pages 1-16, March.
    • Handle: RePEc:gam:jeners:v:12:y:2019:i:5:p:932-:d:212630
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    Citations

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    Cited by:

    1. Milos Pejic & Riyaz Kharrat & Ali Kadkhodaie & Siroos Azizmohammadi & Holger Ott, 2022. "Influence of Fracture Types on Oil Production in Naturally Fractured Reservoirs," Energies, MDPI, vol. 15(19), pages 1-20, October.
    2. Daniela A. Arias Ortiz & Lukasz Klimkowski & Thomas Finkbeiner & Tadeusz W. Patzek, 2021. "The Effect of Hydraulic Fracture Geometry on Well Productivity in Shale Oil Plays with High Pore Pressure," Energies, MDPI, vol. 14(22), pages 1-19, November.

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