M. Wegener scite author profile

in Wiley InterScience (www.interscience.wiley.com).The knowledge of the drop rise velocity in dispersed systems is of fundamental importance. Especially, the residence time is needed for calculation of mass transfer rates in extraction columns. This work deals with fluid dynamic measurements of toluene droplets rising in water ranging from 1.0 to 7.0 mm, with the premise of high purity of the used chemicals. The toluene/water-system is widely used as a test system with high interfacial tension. A semiempirical correlation for pure systems to predict the terminal velocity of single rising/falling droplets based on experimental data is presented. Results show that a distinction between maximum and characteristic mean values of the drop rise velocity is necessary, especially in the diameter range 2.4-3.0 mm where unexpected velocity fluctuations occur. Two distinct terminal rise velocities were observed for 3 mm droplets. Furthermore, comparisons of the Weber-Reynolds-correlation and the drag coefficient with correlations from literature show good agreement. V

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The effect of pH on experimental and simulation results of transient drop size distributions in stirred liquid–liquid dispersions

Gäbler

Wegener

Paschedag

et al. 2006

Chemical Engineering Science

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Drop rise velocities and fluid dynamic behavior in standard test systems for liquid/liquid extraction—experimental and numerical investigations

Bäumler

Wegener

Paschedag

et al. 2011

Chemical Engineering Science

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Transient rise velocity and mass transfer of a single drop with interfacial instabilities – experimental investigations

Wegener

Grünig

Stüber

et al. 2007

Chemical Engineering Science

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M. Wegener

Fluid dynamics and mass transfer at single droplets in liquid/liquid systems

Terminal and transient drop rise velocity of single toluene droplets in water

The effect of pH on experimental and simulation results of transient drop size distributions in stirred liquid–liquid dispersions

Drop rise velocities and fluid dynamic behavior in standard test systems for liquid/liquid extraction—experimental and numerical investigations

Transient rise velocity and mass transfer of a single drop with interfacial instabilities – experimental investigations

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