Nanotechnology applied to the inhibition and remediation of formation damage by fines migration and deposition: A comprehensive review
Author:
Publisher
Elsevier BV
Subject
Geotechnical Engineering and Engineering Geology,Fuel Technology
Reference137 articles.
1. Effect of various silica nanofluids: reduction of fines migrations and surface modification of berea sandstone;Abhishek;Appl. Sci.,2017
2. Zeta potential investigation and mathematical modeling of nanoparticles deposited on the rock surface to reduce fine migration;Ahmadi,2011
3. Zeta-potential investigation and experimental study of nanoparticles deposited on rock surface to reduce fines migration;Ahmadi;SPE J.,2013
4. Residual-oil recovery through injection of biosurfactant, chemical surfactant, and mixtures of both under reservoir temperatures: induced-wettability and interfacial-tension effects;Al-Sulaimani;SPE Reservoir Eval. Eng.,2012
5. Chemical sand consolidation: from polymers to nanoparticles;Alakbari;Polymers,2020
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5. Dynamic stabilization of formation fines to enhance oil recovery of a medium permeability sandstone core at reservoir conditions;Journal of Molecular Liquids;2023-02
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