Temperature Dependence of Interfacial Tension between Normal Organic Acids and Water

An equation that can predict the interfacial tension between oil mixtures and water was developed: γ = (γ 1 -γ 2 ) exp(αV 0.7 ) + γ 2 . Five oils were used in the development of this equation. Interfacial tension between mixtures of these oils and water was measured using a Kruss K12 tensiometer in

The temperature variation of the interfacial tension is measured for six binary two-phase organic-organic or organic-water systems presenting a critical consolute point. Considering also the temperature dependence of the miscibilities of the solutes in both phases, the variable "temperature" can be

## Abstract The cloud point curve, tie‐lines and interfacial tensions were measured for solutions of 50 mol‐% neutralized (counter‐ion Na^⊕^) poly(arylic acid) (mass‐average molar mass M̄~w~ = 9700 g/mol; polydispersity index M̄~w~/M̄~n~ = 2,0) in the mixed solvent water/2‐propanol at 30°C. Due to

Acid and base functionalities are believed to be among the dominant functionalities participating in crude oil/brine/rock (COBR) interactions. To improve on our understanding of interactions that might be taking place in COBR systems, this paper focuses on the effects of 4-heptylbenzoic acid (4-HBA)

In this work, the influence of temperature, molecular weight, and polydispersity of polystyrene on interfacial tension between low-density polyethylene (LDPE) and polystyrene (PS) was evaluated using the pendant drop method. It was shown that interfacial tension between LDPE and PS decreases with in