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A novel technique for mass transfer studies

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Abstract

An optical technique using microdensitometer has been demonstrated to measure mass transfer rates to a flat plate. Not only that this technique enabled measurements from extremely small areas but also the accuracy and reproducibility of the results were found to be excellent. A dyeing process consisting of a flat polymer film held parallel to the direction of liquid flow was chosen as a model system in which the mass transfer rates are determined by a number of mechanisms. The fundamental concepts thus obtained can be extended to apply more generally to all mass transfer processes.

Zusammenfassung

Mit Hilfe eines Mikrodichtemessers wird eine neue Technik demonstriert, um Stoffübertragungsdaten auf eine ebene Platte zu messen. Diese Technik ermöglicht nicht nur Messungen bei extrem kleinen Mächen, auch die Genauigkeit und Reproduzierbarkeit der Ergebnisse ist ausgezeichnet. Ein Färbungsprozeß, bei dem ein ebener, polymerer Film parallel zur Richtung des Flüssigkeitsstromes gehalten wird, wird als Modellsystem gewählt. Die Stoffübertragungsraten werden durch eine Anzahl von Mechanismen bestimmt. Die so erhaltenen grundlegenden Begriffe können erweitert werden, um sie allgemein auf alle Stoffübertragungsvorgänge anzuwenden.

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Abbreviations

a :

Surface area (cm2)

M :

Number of moles (moles)

M x :

Microdensitometer reading (mm)

\(Re\left( { = \frac{{ux}}{v}} \right)\) :

Reynolds number

\(Sh = \left( {\frac{{xk}}{{D_v }}} \right)\) :

Sherwood number

\(Sc\left( { = \frac{v}{{D_v }}} \right)\) :

Schmidt number

t :

Time (s)

T :

Temperature (°C)

u :

Velocity (cm/s)

x :

Distance from leading edge (cm)

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Authors and Affiliations

  1. State Planning Organisation, Devlet Planlama Teskilati, Ankara, Turkey

    K. Varol

  2. Mechanical Engineering Department, Middle East Technical University, Ankara, Turkey

    S. A. Beg

Authors
  1. K. Varol
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  2. S. A. Beg
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Varol, K., Beg, S.A. A novel technique for mass transfer studies. Warme- und Stoffubertragung 4, 82–86 (1971). https://doi.org/10.1007/BF01929757

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  • DOI: https://doi.org/10.1007/BF01929757

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