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AuthorMhatre, S.
AuthorVivacqua, V.
AuthorGhadiri, M.
AuthorAbdullah, A.M.
AuthorAl-Marri, M.J.
AuthorHassanpour, A.
AuthorHewakandamby, B.
AuthorAzzopardi, B.
AuthorKermani, B.
Available date2023-02-02T04:34:10Z
Publication Date2015
Publication NameChemical Engineering Research and Design
ResourceScopus
URIhttp://dx.doi.org/10.1016/j.cherd.2015.02.012
URIhttp://hdl.handle.net/10576/39368
AbstractThe current understanding and developments in the electrostatic phase separation are reviewed. The literature covers predominantly two immiscible and inter-dispersed liquids following the last review on the topic some 15 years. Electrocoalescence kinetics and governing parameters, such as the applied field, liquid properties, drop shape and flow, are considered. The unfavorable effects, such as chain formation and partial coalescence, are discussed in detail. Moreover, the prospects of microfluidics platforms, non-uniform fields, coalescence on the dielectric surfaces to enhance the electrocoalescence rate are also considered. In addition to the electrocoalescence in water-in-oil emulsions the research in oil-in-oil coalescence is also discussed. Finally the studies in electrocoalescer development and commercial devices are also surveyed.The analysis of the literature reveals that the use of pulsed DC and AC electric fields is preferred over constant DC fields for efficient coalescence; but the selection of the optimum field frequency a priori is still not possible and requires further research. Some recent studies have helped to clarify important aspects of the process such as partial coalescence and drop-drop non-coalescence. On the other hand, some key phenomena such as thin film breakup and chain formation are still unclear. Some designs of inline electrocoalescers have recently been proposed; however with limited success: the inadequate knowledge of the underlying physics still prevents this technology from leaving the realm of empiricism and fully developing in one based on rigorous scientific methodology. 2015 The Authors.
SponsorThis work was made possible by NPRP grant no. 5-366-2-143 from the Qatar National Research Fund (A Member of The Qatar Foundation). The statements made herein are solely the responsibility of the authors.
Languageen
PublisherInstitution of Chemical Engineers
SubjectCrude oil treatment
Electrocoalescence
Emulsion break-up
Phase separation
TitleElectrostatic phase separation: A review
TypeArticle Review
Pagination177-195
Volume Number96
dc.accessType Open Access


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