2021
DOI: 10.3390/app11199151
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A Normalized HLD (HLDN) Tool for Optimal Salt-Concentration Prediction of Microemulsions

Abstract: Optimal condition-based microemulsion is key to achieving great efficiency in oil removal. One useful empirical equation to predict an optimal condition is a hydrophilic–lipophilic deviation (HLD). However, the K constants of each surfactant should be the same to combine the HLD equations for the mixed surfactant. Recently, a normalized hydrophilic-lipophilic deviation (HLDN) was presented to avoid this limitation. This work sought to determine the phase behaviors and predict the optimal salt concentrations, u… Show more

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Cited by 8 publications
(17 citation statements)
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“…In the very first significant report [195], mixtures of two surfactants (1 and 2) with the same KA value in the original HLD correlation showed a surprisingly accurate straight line variation LnSmix = X1 LnS1 + X2 LnS2 = X1 (LnS1-LnS2) + LnS2 (17) This relation, dividing by KA and replacing SCP by the surfactant parameter symbol "" was exactly the same as equation ( 16). This kind of straight line was found with many other cases of surfactant types, i.e., many other KA values in the original correlation, as well as many other scans (T, P, EON, SAT, co-surfactant type or concentrations) with essentially two conditions [175,178,180]. The first and most important condition was mixing two surfactants with no specific interactions between them, i.e., with a zero mixing energy term.…”
Section: The Normalized Hydrophilic-lipophilic Deviation (Hldn) As a ...supporting
confidence: 53%
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“…In the very first significant report [195], mixtures of two surfactants (1 and 2) with the same KA value in the original HLD correlation showed a surprisingly accurate straight line variation LnSmix = X1 LnS1 + X2 LnS2 = X1 (LnS1-LnS2) + LnS2 (17) This relation, dividing by KA and replacing SCP by the surfactant parameter symbol "" was exactly the same as equation ( 16). This kind of straight line was found with many other cases of surfactant types, i.e., many other KA values in the original correlation, as well as many other scans (T, P, EON, SAT, co-surfactant type or concentrations) with essentially two conditions [175,178,180]. The first and most important condition was mixing two surfactants with no specific interactions between them, i.e., with a zero mixing energy term.…”
Section: The Normalized Hydrophilic-lipophilic Deviation (Hldn) As a ...supporting
confidence: 53%
“…Despite the conceptual advances of Winsor and Beerbower and the development of the hydrophilic-lipophilic deviation equation in its normalized form (HLDN), there are still advances to make, including resolving a confusion of the surfactant parameter with a "characteristic curvature" of the surfactant [67]. Also, using the HLD-NAC equation with different units (mixing anionic and cationic, or nonionic HLD equations) leads to significant deviations when complex systems are formulated, as was experimentally shown recently [180]. Basically, the HLD correlation is a sum of effects equal to zero at the so-called optimum formulation, that is, an exact balance between the phases.…”
Section: Discussionmentioning
confidence: 99%
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