Indexing Gas Transfer in Self‐Aerated Flows
- 1 May 1990
- journal article
- Published by American Society of Civil Engineers (ASCE) in Journal of Environmental Engineering
- Vol. 116 (3) , 503-523
- https://doi.org/10.1061/(asce)0733-9372(1990)116:3(503)
Abstract
An indexing relationship, used to index and directly compare measurements, is developed for liquid phase‐controlled gas transfer in self‐aerated flows from theoretical considerations. The indexing relation is shown to describe temperature effects as well as existing equations that use fitted coefficients. The relation may be used to index adsorption and volatilization rates of any compound exhibiting liquid phase controlled gas transfer and may be used to compare the gas transfer measurements of different compounds. It is proposed that the relationship be used to index liquid phase controlled gas transfer measurements in self‐aerated flows to a common reference temperature, 20° C, and to a gas, oxygen, most often used in gas transfer experiments. The indexing relationship is also shown to be valid for any bubbly flow where the gas transfer is predominantly across the bubble interface, such as occurs with aeration bubblers.Keywords
This publication has 24 references indexed in Scilit:
- Temperature Dependence of Liquid Film Coefficient for Gas TransferJournal of Environmental Engineering, 1988
- Measurement of the diffusion coefficients of sparingly soluble gases in waterJournal of Geophysical Research: Oceans, 1987
- Flume Tests on Hydrocarbon Reaeration Tracer GasesJournal of Environmental Engineering, 1986
- Prediction of Dissolved Gas Transfer in Spillway and Outlet Works Stilling Basin FlowsPublished by Springer Nature ,1984
- Oxygen Transfer at Hydraulic StructuresJournal of the Hydraulics Division, 1978
- Interphase transfer processes. II. Evaporation rates of chloro methanes, ethanes, ethylenes, propanes, and propylenes from dilute aqueous solutions. Comparisons with theoretical predictionsEnvironmental Science & Technology, 1977
- Prediction of diffusion coefficients for nonelectrolytes in dilute aqueous solutionsAIChE Journal, 1974
- Mass transfer in the liquid phase during the formation of bubblesChemical Engineering Science, 1966
- Effect of Water Temperature on Stream Reaeration: Thirty-first Progress Report by Committee on Sanitary Engineering DivisionJournal of the Sanitary Engineering Division, 1961
- Fundamentals of the hydrodynamic mechanism of splitting in dispersion processesAIChE Journal, 1955