Journal
POLYMERS
Volume 14, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/polym14071433
Keywords
polymer; rheology; polyacrylamide; biopolymer; enhanced oil recovery; hydrophobically associating polyacrylamide
Categories
Funding
- College of Petroleum and Geosciences, King Fahd University of Petroleum and Minerals, Saudi Arabia
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Polymers play a significant role in enhanced oil recovery (EOR) due to their viscoelastic properties and macromolecular structure. Different types of polymers exhibit pseudoplastic behavior under shear forces, with biopolymers having better salt tolerance and thermal stability. Hydrolyzed polyacrylamide remains the most commonly used polymer, and alkali-surfactant-polymer flooding shows good efficiency at pilot and field scales.
Polymers play a significant role in enhanced oil recovery (EOR) due to their viscoelastic properties and macromolecular structure. Herein, the mechanisms of the application of polymeric materials for enhanced oil recovery are elucidated. Subsequently, the polymer types used for EOR, namely synthetic polymers and natural polymers (biopolymers), and their properties are discussed. Moreover, the numerous applications for EOR such as polymer flooding, polymer foam flooding, alkali-polymer flooding, surfactant-polymer flooding, alkali-surfactant-polymer flooding, and polymeric nanofluid flooding are appraised and evaluated. Most of the polymers exhibit pseudoplastic behavior in the presence of shear forces. The biopolymers exhibit better salt tolerance and thermal stability but are susceptible to plugging and biodegradation. As for associative synthetic polyacrylamide, several complexities are involved in unlocking its full potential. Hence, hydrolyzed polyacrylamide remains the most coveted polymer for field application of polymer floods. Finally, alkali-surfactant-polymer flooding shows good efficiency at pilot and field scales, while a recently devised polymeric nanofluid shows good potential for field application of polymer flooding for EOR.
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