Effects of Oil on Aqueous Foams: Electrical Conductivity of Foamed Emulsions |
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| Authors: | Prof. Yong‐Li Yan Cheng Shan Yao Wang Prof. Qiang Deng |
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| Affiliation: | College of Chemistry & Chemical Engineering, Xi'an Shiyou University, No 18 Dianzi 2nd Road, Xi'an 710065 (China) |
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| Abstract: | Three‐phase foams containing dispersed oils (also called foamed emulsion) are usually encountered in such areas as enhanced oil recovery, food foams, and in foams containing antifoams. The presence of oil causes these complex fluids to exhibit extraordinary properties in contrast to aqueous foams. We experimentally investigated, for the first time, the conductive properties of the foamed emulsions and found that the electrical conductivity increases monotonically with the volumetric liquid fraction, presenting a linear relationship. Combined with the analysis on the foaming capacity and microstructure of this complex fluid, the conductive mechanism is revealed. In these foamed emulsions, the whole conductive network is comprised of two levels of structural hierarchy, which displays a different mechanism from those of the conventional aqueous foams. The lamella of emulsions is taken as primary electrical channel, whereas the secondary electrical channel occurs in the lamella between two bubbles. This conductive behaviour is attributed to the microstructure properties of the foamed emulsions. We believe that such findings are potentially important for a better understanding of the fundamentals of these tri‐phase dispersion systems. |
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| Keywords: | conducting materials electrical conductivity foamed emulsion liquids oil |
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