Development, evaluation and stability mechanism of high-strength gels in high-temperature and high-salinity reservoirs

•A high-strength gel was formulated for water plugging in fractures of high-temperature and high-salinity reservoirs.•The maintenance of high strength gels under extreme conditions can be enhanced by the appropriate presence of bivalent cations.•The stability mechanism of the gel was inferred under...

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Published inJournal of molecular liquids Vol. 399; p. 124452
Main Authors Guo, Hongbin, Ge, Jijiang, Li, Longjie, Liu, Mingjia, Wang, Wenhui
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2024
Subjects
Conformance control
Gel hardening
High-strength gel
High-temperature and high-salinity
Stabilization mechanism
Stabilization mechanism
High-temperature and high-salinity
High-strength gel
Gel hardening
Conformance control
Online AccessGet full text
ISSN0167-7322
1873-3166
DOI10.1016/j.molliq.2024.124452

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Abstract •A high-strength gel was formulated for water plugging in fractures of high-temperature and high-salinity reservoirs.•The maintenance of high strength gels under extreme conditions can be enhanced by the appropriate presence of bivalent cations.•The stability mechanism of the gel was inferred under extreme conditions. The high-temperature and high-salinity environment of the reservoir present a challenge for developing high-strength gels. In this study, a combination of acrylamide/2-acrylamido-2-methylpropanesulfonic acid (AM/AMPS) and partially hydrolyzed polyacrylamide (HPAM) was crosslinked with hydroquinone (HQ) and hexamethylenetetramine (HMTA) to prepare high-strength gels suitable for high-temperature and high-salinity reservoirs. The evaluation demonstrated that the gels exhibited exceptional strength, with a storage modulus exceeding 40 Pa. Gels containing more than 0.2 % crosslinker remained stable for over 120 days in brine with a salinity of 22 × 104 mg/L at 130 °C. Core flooding experimental evaluation revealed that the gel exhibited excellent plugging ability in fractures. Mechanisms of gel hardening and long-term stability in high-temperature and high-salinity environments were investigated by rheological testing, cryo-scanning electron microscopy (cryo-SEM) and Fourier transform infrared spectroscopy (FTIR) analysis. Results suggest that chelation between carboxylate groups in the gel and bivalent cations like calcium or magnesium increases mesh density, leading to hardening of the gel; aging also contributes to maintaining its strength while limiting syneresis due to AMPS presence and high mesh density, thus ensuring stability in extreme environments. The findings, although limited to laboratory-scale conditions and subject to potential variations in real time applications, still serve as a proof of concept for guiding the formulation of high-strength gels in reservoirs under extreme conditions.
AbstractList •A high-strength gel was formulated for water plugging in fractures of high-temperature and high-salinity reservoirs.•The maintenance of high strength gels under extreme conditions can be enhanced by the appropriate presence of bivalent cations.•The stability mechanism of the gel was inferred under extreme conditions. The high-temperature and high-salinity environment of the reservoir present a challenge for developing high-strength gels. In this study, a combination of acrylamide/2-acrylamido-2-methylpropanesulfonic acid (AM/AMPS) and partially hydrolyzed polyacrylamide (HPAM) was crosslinked with hydroquinone (HQ) and hexamethylenetetramine (HMTA) to prepare high-strength gels suitable for high-temperature and high-salinity reservoirs. The evaluation demonstrated that the gels exhibited exceptional strength, with a storage modulus exceeding 40 Pa. Gels containing more than 0.2 % crosslinker remained stable for over 120 days in brine with a salinity of 22 × 104 mg/L at 130 °C. Core flooding experimental evaluation revealed that the gel exhibited excellent plugging ability in fractures. Mechanisms of gel hardening and long-term stability in high-temperature and high-salinity environments were investigated by rheological testing, cryo-scanning electron microscopy (cryo-SEM) and Fourier transform infrared spectroscopy (FTIR) analysis. Results suggest that chelation between carboxylate groups in the gel and bivalent cations like calcium or magnesium increases mesh density, leading to hardening of the gel; aging also contributes to maintaining its strength while limiting syneresis due to AMPS presence and high mesh density, thus ensuring stability in extreme environments. The findings, although limited to laboratory-scale conditions and subject to potential variations in real time applications, still serve as a proof of concept for guiding the formulation of high-strength gels in reservoirs under extreme conditions.
ArticleNumber 124452
Author Wang, Wenhui
Ge, Jijiang
Guo, Hongbin
Li, Longjie
Liu, Mingjia
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Keywords Stabilization mechanism
High-temperature and high-salinity
High-strength gel
Gel hardening
Conformance control
Language English
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Snippet •A high-strength gel was formulated for water plugging in fractures of high-temperature and high-salinity reservoirs.•The maintenance of high strength gels...
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StartPage 124452
SubjectTerms Conformance control
Gel hardening
High-strength gel
High-temperature and high-salinity
Stabilization mechanism
Title Development, evaluation and stability mechanism of high-strength gels in high-temperature and high-salinity reservoirs
URI https://dx.doi.org/10.1016/j.molliq.2024.124452
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