Mechanistic study of nanoparticles�surfactant foam flow in etched glass micro-models

Yekeen, N. and Manan, M.A. and Idris, A.K. and Samin, A.M. and Risal, A.R. (2018) Mechanistic study of nanoparticles�surfactant foam flow in etched glass micro-models. Journal of Dispersion Science and Technology, 39 (5). pp. 623-633.

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Abstract

This study was conducted in order to identify the pore-level mechanisms controlling the nanoparticles�surfactant foams flow process and residual oil mobilization in etched glass micro-models. The dominant mechanism of foam propagation and residual oil mobilization in water-wet system was identified as lamellae division and emulsification of oil, respectively. There was inter-bubble trapping of oil and water, lamellae detaching and collapsing of SDS-foam in the presence of oil in water-wet system and in oil-wet system. The dominant mechanisms of nanoparticles�surfactant foam flow and residual oil mobilization in oil-wet system were the generation of pore spanning continuous gas foam. The identified mechanisms were independent of pore geometry. The SiO2-SDS and Al2O3-SDS foams propagate successfully in water-wet and oil-wet systems; foam coalescence was prevented during film stretching due to the adsorption and accumulation of the nanoparticles at the gas�liquid interface of the foam, which increased the films� interfacial viscoelasticity. © 2017 Taylor & Francis.

Item Type: Article
Impact Factor: cited By 0
Uncontrolled Keywords: Emulsification; Flow of fluids; Foams; Glass; Interfaces (materials); Mechanisms; Nanoparticles; Silica; Surface active agents, Dominant mechanism; Flow process; Liquid interface; Mechanistic studies; Oil wets; Pore-level mechanisms; Surfactant foams; Water-wet systems, Phase interfaces
Departments / MOR / COE: Research Institutes > Institute for Hydrocarbon Recovery
Depositing User: Mr Ahmad Suhairi Mohamed Lazim
Date Deposited: 01 Aug 2018 03:08
Last Modified: 25 Feb 2019 08:15
URI: http://scholars.utp.edu.my/id/eprint/21585

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