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Contrasting Study of Partially Hydrolyzed Polyacrylamide with Melamine Resin or Water-Soluble Phenolic Resin Gel Under Medium-Temperature and High-Salinity Conditions

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Proceedings of the International Field Exploration and Development Conference 2023 (IFEDC 2023)

Part of the book series: Springer Series in Geomechanics and Geoengineering ((SSGG))

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Abstract

Polymer gels are commonly used as profile control and water shutoff agents in oil fields to enhance oil recovery. In this study, two sets of medium-temperature and high-salinity gels were prepared with partially hydrolyzed polyacrylamide (HPAM) as the gel-forming agent, melamine resin (MR) or water-soluble phenolic resin (WSPR) as the crosslinker and nano-silica as the stabilizer, and their gelation time, strength and thermal stability were comprehensively evaluated under 90 ℃ and 41529 mg/L synthetic formation brine. The results showed that the gelation time of HPAM-MR gel and HPAM-WSPR gel was in the range of 3–118 h and 12–25 h, respectively. The two gels were in the high-strength gel class (storage modulus over 10 Pa). The thermal stability of the two gels differed considerably. The HPAM-MR gel showed a dehydration rate of 4% when aged for 45 days. While over half of the HPAM-MR gel exhibited severe syneresis after 90 days of aging, especially for the formulations with low polymer dosage and/or low crosslinker loading, the dehydration rate of which was up to 90%. In contrast, the HPAM-WSPR gel exhibited extremely excellent thermal stability, with a 3% dehydration rate after 90 days of aging and more than half of the formulations showed no water extruded when aged for 210 days. This study can provide exceptional gel-plugging agents for medium-temperature and high-salinity reservoirs and guidance for the screening of crosslinkers for gel-plugging agents.

Copyright 2023, IFEDC Organizing Committee.

This paper was prepared for presentation at the 2023 International Field Exploration and Devel-opment 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.

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Acknowledgments

The project is supported by National Natural Science Foundation of China (Number: 51574266).

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Authors and Affiliations

  1. College of Petroleum Engineering, China University of Petroleum (East China), Qingdao, 266580, China

    Wen-hui Wang & Ji-jiang Ge

  2. Sinopec Shengli Oilfield Dongxin Oil Production Plant, Dongying, 257000, China

    Jia-yi Li

Authors
  1. Wen-hui Wang
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  2. Ji-jiang Ge
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  3. Jia-yi Li
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Corresponding author

Correspondence to Ji-jiang Ge .

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Editors and Affiliations

  1. College of Petroleum Engineering, **’an Shiyou University, **’an, Shaanxi, China

    Jia'en Lin

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Wang, Wh., Ge, Jj., Li, Jy. (2024). Contrasting Study of Partially Hydrolyzed Polyacrylamide with Melamine Resin or Water-Soluble Phenolic Resin Gel Under Medium-Temperature and High-Salinity Conditions. 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/10.1007/978-981-97-0264-0_109

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  • DOI: https://doi.org/10.1007/978-981-97-0264-0_109

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  • Publisher Name: Springer, Singapore

  • Print ISBN: 978-981-97-0263-3

  • Online ISBN: 978-981-97-0264-0

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