Robust Flash Calculation Algorithm for Microemulsion Phase Behavior

The HLD-NAC model was recently modified to match and predict microemulsion phase behavior experimental data for Winsor type III regions. Until now, the HLD-NAC model could not generate realistic phase behavior for type II− and type II+ two-phase regions, leading to significant saturation and composi...

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Bibliographic Details
Published in:Journal of surfactants and detergents 2016-11, Vol.19 (6), p.1273-1287
Main Authors: Khorsandi, Saeid, Johns, Russell T.
Format: Article
Language:English
Subjects:
Algorithms
Aquatic Pollution
Chemistry
Chemistry and Materials Science
Experimental data
Flash
HLD‐NAC
Industrial Chemistry/Chemical Engineering
Microemulsion
Microemulsions
Original Article
Phase behavior model
Phase transitions
Physical Chemistry
Polymer Sciences
Simulation
Surfaces and Interfaces
Surfactant
Surfactants
Thin Films
Waste Water Technology
Water Management
Water Pollution Control
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Description
Summary:The HLD-NAC model was recently modified to match and predict microemulsion phase behavior experimental data for Winsor type III regions. Until now, the HLD-NAC model could not generate realistic phase behavior for type II− and type II+ two-phase regions, leading to significant saturation and composition discontinuities when catastrophe theory is applied. These discontinuities lead to significant failures in modeling surfactant applications. We modify the HLD-NAC equations to ensure consistency over the entire composition space including type II− and II+ regions. A robust and efficient algorithm is developed that always converges and provides continuous estimates with any formation variable of tie lines and triangles for all Winsor types. Discontinuities are eliminated and limiting tie lines near critical points are determined analytically. The tuning procedure is demonstrated using several sets of experimental data. Excellent predictability of tie lines and tie triangles, and solubilization ratios are shown.
ISSN:1097-3958
1558-9293
DOI:10.1007/s11743-016-1877-9