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Characteristics of a motionless mixer for dispersion of immiscible fluids—III. Dynamic behaviour of the average drop size and dispersed phase hold-up

✍ Scribed by A.N. Sembira; J.C. Merchuk; D. Wolf

Publisher: Elsevier Science
Year: 1988
Tongue: English
Weight: 476 KB
Volume: 43
Category: Article
ISSN: 0009-2509
DOI: 10.1016/0009-2509(88)85050-4

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✦ Synopsis

The modified electroresistivity method published previously was used to measure the dynamic response of droplet size and organic phase hold-up in a water-kerosene system. The experiments were performed in a motionless mixer, using Sulzer SMV-4 mixing elements of stainless steel (SS 3 16) and identical elements coated with a film of Teflon. The experimental results show time delays in the response of both hold-up and droplet size, which can be explained as a result of the trapping of part of the dispersed phase in the corners of the mixing elements. The results are consistent with the previously observed influence of the two different surfaces used, stainless steel and Teflon

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Characteristics of a motionless mixer for dispersion of immiscible fluids—II. Phase inversion of liquid-liquid systems

✍ M. Tidhar; J.C. Merchuk; A.N. Sembira; D. Wolf 📂 Article 📅 1986 🏛 Elsevier Science 🌐 English ⚖ 564 KB

Phase inversion in liquid-liquid systems flowing in a motionless mixer was studied using the modified electroresistivity method published in Part I of this series (Sembira A., Merchuk J. C. and Wolf D., Chem. Ewng Sci. 1986 41 445). The pairs of liquids used were: (a) water-kerosene, (b) water-Ccl,