MASS TRANSFER INVESTIGATIONS DURING DROPLET FORMATION BY MEANS OF A MODIFIED LIQUID SCINTILLATION TECHNIQUE
- 1 January 1980
- journal article
- research article
- Published by Taylor & Francis in Chemical Engineering Communications
- Vol. 7 (1) , 95-112
- https://doi.org/10.1080/00986448008912551
Abstract
Single droplets were formed at the tip of different capillaries employing high droplet formation rates and continuous phase flow rates. The mass transfer of acetic and / or propionic acid from toluene droplets and acetone from n-butyl acetate droplets into the continuous water phase was measured during droplet formation with a time resolution of 10 msec by a modified liquid scintillation technique. The solute concentration, as a function of time, passes an inflexion point during the first 0.5 sees. By employing the mass balance and the developing droplet geometry the instantaneous mass transfer coefficient was determined, which passes a maximum at the inflexion point of the concentration vs. time curve. The influence of the location of the partition coefficient, the droplet Reynolds number and the continuous phase Reynolds number on the instantaneous mass transfer coefficient was investigated. Serious deficiencies of published models are discussed.Keywords
This publication has 21 references indexed in Scilit:
- Moderne Flüssig/Flüssig‐Extraktoren–Übersicht und AuswahlkriterienChemie Ingenieur Technik - CIT, 1978
- Extraction from single forming dropsThe Chemical Engineering Journal, 1976
- Synthesis of hydroxylamine by reduction of nitrate/nitrite solutions with sodium amalgam. Production of cyclohexanone oximeChemie Ingenieur Technik - CIT, 1975
- The mechanism of mass transfer during formation, release and coalescence of drops. Part I—Mass transfer to drops formed at a moderate speedChemical Engineering Science, 1966
- Mass transfer in the liquid phase during the formation of bubblesChemical Engineering Science, 1966
- Generalization of the penetration theory for surface stretch: Application to forming and oscillating dropsAIChE Journal, 1966
- Gas absorption by single drops during formationChemical Engineering Science, 1955
- Mass transfer between isobutanol and water in a spray-columnChemical Engineering Science, 1954
- Solute Transfer from Single Drops in Liquid-Liquid ExtractionIndustrial & Engineering Chemistry, 1953
- Polarographic studies with the dropping mercury kathode. Part XLIV. The dependence of limiting currents on the diffusion constant, on the rate of dropping and on the size of dropsCollection of Czechoslovak Chemical Communications, 1934