Open AccessEmulsions for interfacial filtration.
Author(s) -
Anne Grillet,
Christopher Jay Bourdon,
Caroline Souza,
Margaret E. Welk,
Joel Hartenberger
Publication year - 2006
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/897635
Subject(s) - emulsion , bovine serum albumin , surface tension , adsorption , aqueous solution , filtration (mathematics) , chemical engineering , chromatography , materials science , desorption , drop (telecommunication) , filter paper , chemistry , organic chemistry , computer science , engineering , mathematics , quantum mechanics , telecommunications , physics , statistics
We have investigated a novel emulsion interfacial filter that is applicable for a wide range of materials, from nano-particles to cells and bacteria. This technology uses the interface between the two immiscible phases as the active surface area for adsorption of targeted materials. We showed that emulsion interfaces can effectively collect and trap materials from aqueous solution. We tested two aqueous systems, a bovine serum albumin (BSA) solution and coal bed methane produced water (CBMPW). Using a pendant drop technique to monitor the interfacial tension, we demonstrated that materials in both samples were adsorbed to the liquid-liquid interface, and did not readily desorb. A prototype system was built to test the emulsion interfacial filter concept. For the BSA system, a protein assay showed a progressive decrease in the residual BSA concentration as the sample was processed. Based on the initial prototype operation, we propose an improved system design
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