Evaluation of nanoemulsions based on silicone polyethers for demulsification of asphaltene model emulsions |
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| Authors: | Assis Koppe da Fraga Priscila F. Oliveira Luis Fernando S. Oliveira Jennifer Magalhães Claudia R. E. Mansur |
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| Affiliation: | Laboratory of Macromolecules and Colloids for Petroleum Industry, Institute of Macromolecules, Federal University of Rio de Janeiro (LMCP/IMA/UFRJ), Av. Horacio Macedo, Rio De Janeiro, RJ, Brazil |
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| Abstract: | Asphaltenes are considered the main agents responsible for stabilizing petroleum emulsions. However, due to the complex chemical nature of crude oil, it is necessary to extract these molecules and prepare model solutions to investigate the effects of the various asphaltenes separately. In this study, the demulsification efficiency of oil‐in‐water (O/W) nanoemulsions based on silicone polyethers was evaluated using asphaltene model emulsions. The interfacial properties of the model emulsions were evaluated, with and without the presence of the nanoemulsions, by interfacial tension and inerfacial rheology measurements and correlating them with the ability and/or speed of diffusion to the interface. Dispersion/flocculation tests of the asphaltenes were performed to assess whether the nanoemulsions were modifying the aggregation state of the asphaltenes during the process of destabilizing the model emulsions. Through the interfacial rheology tests of the model asphaltene/saltwater system, with or without addition of the systems used in the demulsification tests, it was possible to determine the influence of the nanoemulsions on the mechanical properties of the interfacial film. The results of the water/oil gravitational separation tests showed that the nanoemulsions had separation efficiency between 80 and 95%, depending on the composition of the water/surfactant/oil/asphaltene system. The nanoemulsions containing xylene as the oil phase destabilized the emulsions the fastest. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2016 , 133, 44174. |
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| Keywords: | copolymers hydrophilic polymers oil & gas surfactants |
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