V. Hornof scite author profile

The objective of this study was to identify suitable combinations of additives to aqueous alkaline formulations for the potential recovery of Saskatchewan heavy crude oil. A previously developed strategy was applied to screen various additive combinations consisting of three commercial petroleum sulfonate surfactants and two commercial lignosulfonate surfactants. The selection of the additives was based on a large number of physical and interfacial property measurements in conjunction with phase stability tests at different temperatures. The resulting ternary formulations, labelled here as Mixed‐Surfactant‐Enhanced Alkaline (MSEA) systems, were very successful in reversing the trend of increasing interfacial tension with time that characterizes additive‐free alkaline/crude oil systems. This success came at the expense of initial IFT values that were considerably higher than those exhibited by the corresponding additive‐free alkaline solutions. However, at higher temperatures (65 °C), these ternary MSEA formulations were capable of generating very low IFT values against the crude oil (in the range of 5 × 10−2 to 10−1 mN/m), which suggests that they could be suitable candidates for commercial exploitation of heavy oil recovery processes.

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A Comparative Study of the Effect of Ready-Made andin Situ-Formed Surfactants on Interfacial Tension Measured by Drop Volume Tensiometry

Mollet

Touhami

Hornof

1996

Journal of Colloid and Interface Science

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Surface‐active agents based on propoxylated lignosulfonate

Hornof

Hombek

1990

J of Applied Polymer Sci

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SynopsisA commercial lignosulfonate was modified by the addition of propylene oxide. The products obtained had a degree of propoxylation ranging from 19% to 49%. The modified lignosulfonates retained high solubility in water and high salinity tolerance, while their interfacial activity increased dramatically in comparison with the original lignosulfonate. Aqueous solutions of propoxylated lignosulfonates exhibited very low interfacial tensions (down to 10-'-10-* m N / m ) against both a pure hydrocarbon (isooctane) and a crude oil ( Lloydminster crude).

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V. Hornof

Dynamic interfacial tension behavior of acidified oil/surfactant-enhanced alkaline systems 1. Experimental studies

Study of polymer-surfactant interactions via surface tension measurements

Use of mixed surfactants to improve the transient interfacial tension behaviour of heavy oil/alkaline systems

A Comparative Study of the Effect of Ready-Made andin Situ-Formed Surfactants on Interfacial Tension Measured by Drop Volume Tensiometry

Surface‐active agents based on propoxylated lignosulfonate

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