Intelligent sustained‐release microgel for reduced permeability of fluid channels: Synthesis and properties

Intelligent sustained‐release microgel for reduced permeability of fluid channels: Synthesis and properties

Polymer microspheres as fluid diverting agents have been applied for profile control in deep reservoirs. However, its reservoir adaptability strictly requires the matching between the particle size and the pore radius, which are hard to realize due to uncertainty of pore radius caused by long‐term w...

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Veröffentlicht in:Journal of applied polymer science 2021-07, Vol.138 (25), p.n/a
Hauptverfasser: Yu, Qin, Song, Kaoping, Cai, Jiangchao, Li, Jihang, Gao, Tenglong
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Chemical synthesis
Depth profiling
emulsion polymerization
Flooding
Materials science
Microgels
Microspheres
oil and gas
Permeability
Polymers
Reservoirs
Sodium
Sodium silicates
structure‐property relationships
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container_issue 25
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container_title Journal of applied polymer science
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creator Yu, Qin
Song, Kaoping
Cai, Jiangchao
Li, Jihang
Gao, Tenglong
description Polymer microspheres as fluid diverting agents have been applied for profile control in deep reservoirs. However, its reservoir adaptability strictly requires the matching between the particle size and the pore radius, which are hard to realize due to uncertainty of pore radius caused by long‐term water flooding. That behavior has severely reduced their plugging performance to the large channel. The objective of this study was to prepare a kind of intelligent sustained‐release microgel to solve the problem, which could slowly release of sodium silicate during migration, form the larger aggregates and plug high permeability reaching deep reservoir. We developed a novel blocking agent, which is an amphoteric microgel (OICMS) synthesized by light‐initiated polymerization followed by the adsorption of a sodium silicate solution. The microgel properties, including the adsorption and release properties of a sodium silicate solution, and its influencing factors were investigated. The results showed that the OICMS had larger adsorption and release ratio of sodium silicate than conventional polymer microspheres, influenced by the ionic degree, molecular weight, amount of pore‐forming agent, and cross‐linking density. We prepared a kind of intelligent sustained‐release microgel, which could selectively enter the target reservoir, slowly release sodium silicate, form the larger aggregates by interacting with divalent ions and plug high permeability in deep reservoirs. Thus, the microgel with its intelligent sustained‐release capabilities makes it attractive for profile control applications..
doi_str_mv 10.1002/app.50584
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The results showed that the OICMS had larger adsorption and release ratio of sodium silicate than conventional polymer microspheres, influenced by the ionic degree, molecular weight, amount of pore‐forming agent, and cross‐linking density. We prepared a kind of intelligent sustained‐release microgel, which could selectively enter the target reservoir, slowly release sodium silicate, form the larger aggregates by interacting with divalent ions and plug high permeability in deep reservoirs. 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source Wiley Online Library Journals Frontfile Complete
subjects Adsorption
Chemical synthesis
Depth profiling
emulsion polymerization
Flooding
Materials science
Microgels
Microspheres
oil and gas
Permeability
Polymers
Reservoirs
Sodium
Sodium silicates
structure‐property relationships
title Intelligent sustained‐release microgel for reduced permeability of fluid channels: Synthesis and properties
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