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Jagar A. Ali et al.
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Sajjad Mahmoudi et al.
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Afeez O. Gbadamosi et al.
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Nilesh Kumar Jha et al.
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Keshak Babu et al.
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Mohammad Zargartalebi et al.
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Yaser Ahmadi et al.
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An experimental study on using a nanosurfactant in an EOR process of heavy oil in a fractured micromodel
Mahdi Mohajeri et al.
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Tushar Sharma et al.
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Hadi ShamsiJazeyi et al.
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Achinta Bera et al.
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Bing Wei et al.
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The temperature effect on the adsorption mechanism of polyacrylamide on the silica surface and its stability
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Michel Vert et al.
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A. Mai et al.
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Mechanistic Study of Wettability Alteration Using Surfactants with Applications in Naturally Fractured Reservoirs
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Adsorption of nonionic surfactants in sandstones
Fabiola D. S. Curbelo et al.
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Surface chemistry of oil recovery from fractured, oil-wet, carbonate formations
G Hirasaki et al.
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A molecular dynamics simulation study of nanoparticle interactions in a model polymer-nanoparticle composite
JS Smith et al.
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Degradation on polyacrylamides. Part II. Polyacrylamide gels
MJ Caulfield et al.
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Degradation of polyacrylamide and its derivatives in aqueous solutions
VF Kurenkov et al.
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Wettability alteration in chalk 2. Mechanism for wettability alteration from oil-wet to water-wet using surfactants
DC Standnes et al.
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