Abstract
After more than two decades of development, there have been 27 underground gas storage at home. The peak load regulation capacity reaches 14.7 billion m3, occupying 4.4% of the domestic natural gas consumption. The peak load regulation of gas capacity is less than a quarter of the mean level of developed countries around the world. At present, the domestic gas storage are mainly gas reservoirs, accounting for over 80%. Oil reservoirs are transformed into gas reservoirs, which can not only quickly improve China’s peak load regulation capacity for gas storage, but realize the displacement of reservoir oil, so as to increase oil recovery. Combining with interior core test with simulation, this paper artificially simulated the impact of reservoir physical property, gas injection displacement pressure, gas injection displacement direction and gas injection speed on the displacement efficiency of oil reservoirs during the operation of gas storage to analyze the gas-drive reservoir extension mechanism. The experiment confirmed that the higher the reservoir permeability was, the higher the oil displacement efficiency of gas injection was and the more easily the gas reservoir expanded; the higher the injection pressure was, the higher the oil displacement efficiency of gas injection was and the more easily the reservoir capacity formed; the more single the reservoir fluid was, the more easily the gas reservoir expanded; the multi-directional gas injection of oil reservoirs was conductive to increasing the reservoir capacity through gas injection displacement; slow gas injection was beneficial to expanding reservoir capacity through oil displacement. The research results not only have directive significance to the capacity parameter design of underground gas storage transformed from oil reservoirs, and the study of increasing the peak load regulation capacity of gas storage, but have a certain significance to the research on improving the recovery efficiency through gas injection displacement.
Copyright 2023, IFEDC Organizing Committee
This paper was prepared for presentation at the 2023 International Field Exploration and Development Conference in Wuhan, China, 20–22 September 2023.
This paper was selected for presentation by the IFEDC Committee following review of information contained in an abstract submitted by the author(s). Contents of the paper, as presented, have not been reviewed by the IFEDC Technical Team and are subject to correction by the author(s). The material does not necessarily reflect any position of the IFEDC Technical Committee its members. Papers presented at the Conference are subject to publication review by Professional Team of IFEDC Technical Committee. Electronic reproduction, distribution, or storage of any part of this paper for commercial purposes without the written consent of IFEDC Organizing Committee is prohibited. Permission to reproduce in print is restricted to an abstract of not more than 300 words; illustrations may not be copied. The abstract must contain conspicuous acknowledgment of IFEDC. Contact email: paper@ifedc.org.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Jiang, T., Wang, J., Wang, Z., et al.: Practice and understanding of collaborative construction of underground gas storage and natural gas displacement. Nat. Gas Ind. 41(09), 66–74 (2021)
Wang, L.: The Global Natural Gas Report 2019 released by the International Gas Union. Briefs
International Energy Agency: Asia will Lead the Source of Demands for Global Natural Gas. Brief, Natural Gas Technology and Economy (75)43 (2019)
Wei, H., Tian, J., Li, J., et al.: Status and development trend of underground natural gas storage in China. Int. Pet. Econ. 23(06), 57–62 (2015)
Ding, G., Li, C., Wang, D., et al.: Status and technical development direction of underground gas storage in China. Nat. Gas Ind. 35(11), 107–112 (2015)
Wang, Q., Zhu, Y., Wang, L., et al.: Schematic studies of underground gas storage in Beijng. Acta Petrolei Sinica 21(3), 100–104 (2000)
Yuan, S., Wang, Q., Li, J., et al.: Progress and prospect for the technology of improving recovery efficiency through gas injection. Acta Petrolei Sinica 41(12), 1623–1632 (2020)
Li, X., Hu, C., Min, Z., et al.: Comprehensive evaluation of double 6 gas storage operation and research on expansion potential. Spec. Oil Gas Reservoir. 27(06), 114–119 (2020)
Ma, X., Yu, B., Cheng, Y., et al.: The capacity reaching law and influencing factors of water flooded depleted underground gas storage. Nat. Gas Ind. 32(2), 87–90 (2012)
Bybee, K.: Minimizing risk of gas escape in gas storage. J. Pet. Technol. 60(11), 94–96 (2008)
**ong, Y., Xu, H., Li, H., et al.: Laboratory experimental research on the change mechanisms of gas storage capacity in abandoned reservoirs. Sci. Technol. Eng. 15(06), 173–176 (2015)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2024 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Yang, Sh., Tang, Yn., Zhang, Zm., Zhuang, Tl. (2024). Research on Capacity and Influencing Factors of Underground Gas Storage Transformed from Oil Reservoirs. In: Lin, J. (eds) Proceedings of the International Field Exploration and Development Conference 2023. IFEDC 2023. Springer Series in Geomechanics and Geoengineering. Springer, Singapore. https://doi.org/10.1007/978-981-97-0268-8_68
Download citation
DOI: https://doi.org/10.1007/978-981-97-0268-8_68
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-97-0267-1
Online ISBN: 978-981-97-0268-8
eBook Packages: EngineeringEngineering (R0)